Localization, Macromolecular Associations, and Function of the Small Heat Shock–Related Protein HSP20 in Rat Heart
From the Departments of Surgery (W.P.), Medicine (J.A.J.) (Institute of Molecular Medicine and Genetics), and Pharmacology and Toxicology (J.A.J.), Medical College of Georgia, Augusta; Pediatrics/Neonatology Division, Neonatal/Perinatal Research Institute (T.L.C., J.B.), Duke University Medical Center, Durham, NC; Carl T. Hayden, Phoenix VAMC (P.K., C.B.), Phoenix, Ariz; and the Department of Bioengineering (P.K., C.B.), Arizona State University, Tempe.!]|#.5, 百拇医药
Abstract!]|#.5, 百拇医药
Background— The small heat shock proteins HSP20, HSP25, {alpha}!]|#.5, 百拇医药
B-crystallin, and myotonic dystrophy kinase binding protein (MKBP) may regulate dynamic changes in the cytoskeleton. For example, the phosphorylation of HSP20 has been associated with relaxation of vascular smooth muscle. This study examined the function of HSP20 in heart muscle.!]|#.5, 百拇医药
Methods and Results— Western blotting identified immunoreactive HSP20, {alpha}!]|#.5, 百拇医药
B-crystallin, and MKBP in rat heart homogenates. Subcellular fractionation demonstrated that HSP20, {alpha}
B-crystallin, and MKBP were predominantly in cytosolic fractions. Chromatography with molecular sieving columns revealed that HSP20 and {alpha}g-dr, 百拇医药
B-crystallin were associated in an aggregate of {approx}g-dr, 百拇医药
200 kDa, and {alpha}g-dr, 百拇医药
B-crystallin coimmunoprecipitated with HSP20. Immunofluorescence microscopy demonstrated that the pattern of HSP20, {alpha}g-dr, 百拇医药
B-crystallin, and actin staining was predominantly in transverse bands. Treatment with sodium nitroprusside led to increases in the phosphorylation of HSP20, as determined with 2-dimensional immunoblots. Incubation of transiently permeabilized myocytes with phosphopeptide analogues of HSP20 led to an increase in the rate of shortening. The increased shortening rate was associated with an increase in the rate of lengthening and a more rapid decay of the calcium transient.g-dr, 百拇医药
Conclusions— HSP20 is associated with {alpha}
B-crystallin, possibly at the level of the actin sarcomere. Phosphorylated HSP20 increases myocyte shortening rate through increases in calcium uptake and more rapid lengthening.qv0+(, 百拇医药
Key Words: myocytes muscle, smooth contractilityqv0+(, 百拇医药
Introductionqv0+(, 百拇医药
Several recent studies have demonstrated that nitric oxide (NO) has direct effects on myocardial contractile function. Exogenous NO donors characteristically enhance relaxation without major effects on peak systolic function.1 This selective relaxant action has been observed in intact hearts and cardiac myocytes, and the effects have been attributed to a direct action of NO on the heart.1,2 Increases in cGMP and activation of cGMP-dependent protein kinase have been implicated as the cellular mechanism.2 However, the specific protein that is phosphorylated by cGMP-dependent protein kinase that produces the relaxant effect in the heart has not been identified.
We have recently determined that cyclic nucleotide– dependent relaxation of vascular smooth muscle is associated with an increase in the phosphorylation of the small heat shock–related protein HSP20.3 These results have been independently confirmed by two other laboratories.4,5 HSP20 is highly and constitutively expressed in muscle tissues and can be phosphorylated in vitro by cGMP-dependent protein kinase.6,7 A more direct role for HSP20 in mediating smooth muscle relaxation has been suggested, as follows: (1) Physiological release of NO, induced by acetylcholine or increased flow, leads to measurable increases in the phosphorylation of HSP208; (2) HSP20 is not phosphorylated in muscles that are refractory to cGMP-dependent relaxation9; (3) pretreatment of smooth muscles with cyclic nucleotide activators leads to increases in the phosphorylation of HSP20 and inhibition of contraction responses to agonists10; (4) the introduction of phosphopeptide analogues of HSP20 into transiently permeabilized vascular smooth muscles inhibits contraction.3 Thus, cyclic nucleotide-dependent relaxation of smooth muscle seems to be modulated by increases in the phosphorylation of HSP20.
The family of small heat shock proteins, HSP20, HSP25, {alpha}s$y, http://www.100md.com
B-crystallin, and myotonic dystrophy kinase binding protein (MKBP), are expressed in muscle tissues and share considerable sequence homology, primarily at the c-terminus.11 These proteins are often associated in large macromolecular aggregates.12,13 Heat shock proteins have been implicated in modulating the cellular response to many stressors (heat, chemical, osmotic, oxidative, and mechanical) and in modulating protein–protein interactions. An additional recently described function of heat shock proteins is to modulate the activity of kinases. MKBP activates myotonic dystrophy protein kinase,11 and HSP90 modulates the activity of NO synthase.14 Three of the small heat shock proteins, HSP25, {alpha}s$y, http://www.100md.com
B-crystallin, and HSP20, are likely involved in cytoskeletal dynamics. HSP25 (the homologous human protein is referred to as HSP27) is an actin-associated protein and modulates actin filament dynamics.15–17 HSP20 is also an actin-associated protein.18,19 HSP25 and {alpha}
B-crystallin both associate with intermediate filament proteins and modulate the interactions that occur between filaments in cellular networks.20 The small heat shock proteins may function to preserve myofibrillar integrity in response to stress and may serve a physiological function in the dynamic cytoskeletal changes associated with contraction and relaxation.axqe\0, http://www.100md.com
Methodsaxqe\0, http://www.100md.com
Materialsaxqe\0, http://www.100md.com
Sodium dodecylsulfate (SDS), glycine, tris-(hydroxymethyl) aminomethane (Tris), and dithiothreitol (DTT) were from Research Organics. Coomassie brilliant blue was from ICN Biomedicals Inc. Recombinant HSP27 was from StressGen. Recombinant HSP20 was produced as previously described.18 Piperazine diacrylamide and other electrophoresis reagents were from BioRad. 3-[(3-Cholamidopropyl dimethylammonio]-1-propanesulfonate (CHAPS), ethylene glycol bis (ß-aminomethyl ether)-N,N,N',N'-tetra acetic acid (EGTA), ethylene diaminetetraacetic acid (EDTA), polyoxyethylene-sorbitan monolaurate (Tween-20), purified bovine {alpha}
B-crystallin, sodium nitroprusside, and all other reagent-grade chemicals were from Sigma. Protease inhibitor cocktail [2 µmol/L 4-(2-aminoethyl) benzenesulfonyl fluoride (AEBSF), 130 µmol/L Bestain, 14 µmol/L trans-epoxysuccinyl-L-leucylamido(4-guanidino)butane (E-64), 1 µmol/L leupeptin, and 0.3 µmol/L aprotinin, final concentrations] from Sigma was added to all homogenization buffers. Molecular weight standards were from Pharmacia. Immobilon was from Millipore. Antibodies against sarcomeric actin were from Sigma (St Louis, Mo); HSP20 and {alpha}|, 百拇医药
B-crystallin were from Dr Kanefusa Kato (Aichi, Japan)6; HSP25 was from Dr Michael Welsh (University of Michigan, Ann Arbor, Mich)21; and Accurate, StressGen, and myotonic dystrophy kinase binding protein were from Dr Atshushi Suzuki (Yokohama, Japan).11 Goat anti-mouse and anti-rabbit secondary antibodies were from Jackson Immunochemical (West Grove, Pa). Protein concentrations were determined with the Coomassie Plus Protein Assay Reagent (Pierce).
Isolation of Rat Heart Tissue#@{, http://www.100md.com
Adult rats (2 to 3 months of age) were killed with CO2 inhalation, and the hearts were dissected free from the thoracic cavity and placed in PBS (10 mmol/L phosphate, pH 7.5, 0.15 mol/L NaCl, 4°C). The atria were dissected free and the ventricle was cut into small strips and homogenized for biochemical analyses. For immunohistochemical analyses, the thoracic aorta was cannulated and perfused with PBS followed by 4% formalin in PBS at 100 mm Hg. Ventricular myocytes were isolated from the hearts of 2-day-old Sprague-Dawley rats by gentle trypsinization and placed in culture as previously described.22 Animal use was approved by the Institutional Animal Care and Use Committee.#@{, http://www.100md.com
Immunoblotting#@{, http://www.100md.com
Tissues were homogenized in 10 mmol/L EGTA, 2 mmol/L EDTA, 10 mmol/L ß-mercaptoethanol, 1% glycerol, and 4% SDS in 60 mmol/L Tris, pH 7.0, with the use of a polytron homogenizer (Brinkman Instruments). The homogenate was centrifuged (10 000g) to remove insoluble material. Proteins were separated on 15% SDS-PAGE gels and transferred to Immobilon (100 mAmp for 12 hours). The blots were air dried and subsequently blocked with tris-buffered saline (TBS, 10 mmol/L Tris, 150 mmol/L NaCl, pH 7.4) and 5% milk for 1 hour. The blots were then incubated with anti-HSP20 (1/1000), anti–{alpha}
B-crystallin (1/1000), anti-HSP25 (1/1000), or anti-MKBP (1/1000) antibodies in TBS/milk for 1 hour at room temperature. The blots were washed 3 times (5 minutes each) in TBS/Tween-20 (0.5%). The blots were then placed in goat anti-rabbit secondary antibody diluted in TBS/milk (1/2000) for 1 hour at room temperature. The blots were then washed 6 times (5 minutes each) in TBS/Tween-20. Immunoreactive protein was determined with enhanced chemiluminescence (DuPont NEN) exposed on x-ray film.n%we;'j, 百拇医药
Subcellular Fractionationn%we;'j, 百拇医药
Tissues were homogenized in homogenization buffer (HEPES buffer, 25 mmol/L HEPES, 150 mmol/L NaCl, 10 mmol/L EDTA, 1 mmol/L DTT, 2 mmol/L benzamidine, pH 7.4, and protease inhibitor cocktail [2 µmol/L 4-(2-aminoethyl) benzenesulfonyl fluoride (AEBSF), 130 µmol/L Bestain, 14 µmol/L trans-epoxysuccinyl-L-leucylamido(4-guanidino)butane (E-64), 1 µmol/L leupeptin, and 0.3 µmol/L aprotinin, final concentrations] from Sigma) (0.5 g tissue/1 mL buffer) at 4°C. The homogenate was centrifuged at 3000g to remove debris and the nuclear pellet. The supernatants were diluted to 5 µg of protein/µL, and 250 µL of supernatant was centrifuged at 10 000g for 10 minutes. The pellet (P1) was resuspended in 125 µL of homogenization buffer and 125 µL of 2x sample buffer (6.25 mmol/L Tris, pH 6.8, 2% SDS, 5% 2-ß mercaptoethanol, 10% glycerol, 0.025% bromophenol blue). To 125 µL of the 10 000g supernatant (S1), 125 µL of 2x sample buffer was added. The remaining 125 µL of 10 000g supernatant was centrifuged at 100 000g. The 100 000g pellet (P2) was resuspended in 125 µL of homogenization buffer and 125 µL of 2x sample buffer. A total of 125 µL of 2x sample buffer was added to the 100 000g supernatant (S2). The samples were boiled for 8 minutes after the addition of sample buffer, separated on 15% SDS-PAGE gels, transferred to Immobilon membranes, and probed with anti-actin antibodies (1/2000 dilution), anti-HSP20 antibodies (1/2000 dilution), anti–{alpha}
B-crystallin antibodies (1/2000 dilution), and anti-MKBP antibodies (1/2000 dilution).p/, http://www.100md.com
Gel Filtrationp/, http://www.100md.com
Gel filtration was performed as previously described.13 In brief, the tissues were homogenized in HEPES buffer (0.5 g tissue/1 mL buffer) at 4°C. The homogenate was centrifuged at 100 000g for 30 minutes at 4°C. 200 µL of supernatant (containing 200 µg total protein) was applied to a Superose-6 HR 10/30 fast protein liquid chromatography column (Pharmacia), eluted with column buffer, and 0.5-mL fractions collected. For calibration, 100 µL of catalase (232 kDa, 5 mg/mL) and BSA (67 kDa, 8 mg/mL) was applied to the column.p/, http://www.100md.com
Dot Blottingp/, http://www.100md.com
One hundred microliters of each fraction from the column was dot-blotted onto nitrocellulose. The blots were fixed with 20% methanol, dried, blocked with TBS, 5% milk, for 1 hour, washed 3 times with TBS, and then probed with anti-HSP20, anti-MKBP, and anti-{alpha}
B crystallin antibodies (1/2000 dilution in TBS, 5% milk) for 1 hour. Goat anti-rabbit secondary antibodies (1/2000 dilution) were added to the blots for 1 hour. The blots were then washed 6 times with TBS/0.5%Tween-20. Immunoreactive proteins were visualized as described above with enhanced chemiluminescence, and densitometric analysis was performed with UN-SCAN-IT automated digitizing software (Silk Scientific Corporation).5vu2, 百拇医药
Immunoprecipitation5vu2, 百拇医药
Tissue was homogenized in TBS (0.5 g tissue per mL of buffer), and then the samples were centrifuged at 10 000g for 15 minutes. The soluble proteins were then diluted 10-fold with TBS. The anti-HSP20 antiserum was added to the supernatants (1:50 dilution). The samples were shaken gently for 14 hours at 4°C. Protein A-Sepharose beads (1/10 volume) were added, and the samples were incubated for an additional 3 hours at 4°C. The beads were washed 6 times with TBS, 0.5% Tween-20. A final wash of 10 mmol/L Tris pH 7.4 was then done. The proteins were separated on 15% SDS-PAGE gels, transferred to Immobilon, and probed with anti-HSP20, anti–{alpha}
B-crystallin, or anti-MKBP antibodies as described above./k\2'h, http://www.100md.com
Immunofluorescence Microscopy/k\2'h, http://www.100md.com
Perfusion-fixed ventricular tissue was embedded in paraffin. Five-micron cross-sections were mounted on polylysine slides. The slides were deparaffinized with xylene and graded dilutions of ethanol. Neonatal cardiac myocytes were grown on glass coverslips and fixed with 4% paraformaldehyde. The sections were rinsed in PBS and blocked with donkey serum (Jackson Immunoresearch, West Grove, Pa) for 30 minutes. The slides were then incubated with anti-HSP20 (1/100), anti–{alpha}/k\2'h, http://www.100md.com
B-crystallin (1/100), anti-sarcomeric actin (1/100), or anti-MKBP (1/100) overnight at 4°C. The slides were then washed with PBS, 4 times (15 minutes each), at room temperature. Anti-mouse and anti-goat Cy3 secondary antibodies (1/100) were used to detect immunoreactive protein. The sections were imaged on a Zeiss Axiophot microscope interfaced with a SPOT camera (Diagnostic Instruments) and a Gateway computer.
Dimensional Gelsx, 百拇医药
Tissues were snap-frozen in liquid nitrogen and ground to a fine powder by mortar and pestle. The proteins were solubilized in 100 mmol/L DTT, 6 mol/L urea, 2% CHAPS overnight. Protein 30 µg was loaded onto 12x15-cm-slab isofocusing gels consisting of 4% acrylamide, 0.1% piperazine diacrylamide, 9 mol/L urea, 5% ampholines (5 parts 6 to 8, 3 parts 5 to 7, and 2 parts 3 to 10), and 2% CHAPS. The cathode buffer consisted of 20 mmol/L sodium hydroxide and the anode buffer 10 mmol/L phosphoric acid. The proteins were focused for 10 000 volt hours. The gels were fixed in 10% trichloroacetic acid and stained overnight with Neuhoff’s Coomassie stain. The lanes of stained proteins were cut from the isofocusing slab gels and equilibrated in 10 mmol/L Tris (pH 6.8), 3% SDS, 19% ethanol, 4% ß-mercaptoethanol, and 0.004% bromophenol blue for 10 minutes. The proteins were then separated on 12% acrylamide SDS gels and transferred to Immobilon 100 mAmp for 12 hours. The blots were probed for HSP20 as described above. The isoelectric focusing gradient was determined with BioRad IEF standards.
Peptide Synthesis;9zl, 百拇医药
The peptides, HSP20 phosphoserine analogue N-WLRRASphos APLPGLK (HSP20-PS), a scrambled phosphorylated peptide N-PRKSphosLWALGRPLA (HSP20-SC), and a nonphosphorylated peptide N-WLRRAAAPLPGLK (HSP20-NP), were synthesized on a Procise (Applied Biosystems, Model 492) instrument according to standard protocols. The peptides were purified with high-pressure liquid chromatography, and purity was assured with mass spectrometry, as previously described.3;9zl, 百拇医药
Permeabilization of Cardiac Myocytes;9zl, 百拇医药
Permeabilization of cardiac myocytes was performed as described.22 Briefly, cells were slowly cooled by sequential 2-minute incubations with room temperature PBS and then with 4°C PBS in an ice bath for 2 minutes. The PBS was discarded, and the cells were incubated with ATP (30 µL of 200 mmol/L ATP, pH 7.4) followed immediately by permeabilization buffer (20 mmol/L HEPES, pH 7.4, 10 mmol/L EGTA, 140 mmol/L KCl, 50 µg/mL saponin, 5 mmol/L oxalic acid dipotassium salt) containing the peptides (10 µmol/L) for 10 minutes in an ice bath. The cells were then washed 4 times on ice with chilled PBS. The cells were then returned to 37°C by incubations with room temperature PBS and 37°C PBS. The original cell media was then added at 37°C.
Measurement of Cardiac Myocyte Shortening Rate/Lengthening Ratert6u!)x, http://www.100md.com
The culture dishes containing the myocytes were placed on a Harvard Apparatus temperature-regulation device positioned on the stage of an inverted microscope (Carl Zeiss Inc) and maintained at 37°C with a jacketed water bath. The microscope was outfitted with a digital camera and Video Savant software. To determine the effects of HSP20 peptide analogues on shortening rate, individual cells were monitored before and after permeabilization. Shortening rates were determined every 2 minutes (for a 15-second period) for a total of 10 minutes, as previously described.23 Images of individual cells were captured at 30 frames/second.rt6u!)x, http://www.100md.com
Calcium Transientsrt6u!)x, http://www.100md.com
Ca2+ transients were measured as previously described in detail elsewhere with only minor modifications.24 For these experiments, myocytes were cultured on 25-mm glass coverslips. After permeabilization (as described above), each coverslip was mounted in a leak-proof circular holding chamber (Medical Systems Inc) and gently washed several times with a Ringer solution containing (in mmol/L) NaCl 142.5, KCl 4.0, MgCl2 1.8, CaCl2 1.8, N-2-hydroxyethypiperazine-N-2-ethanesulfonic acid 5.0 (HEPES, pH 7.0), and glucose 5.0. After washing, the myocytes were incubated in 1 mL Ringer solution with 1 µmol/L fura-2 AM for 10 minutes at 37°C in a rotating water bath. The myocytes were subsequently washed several times with dye-free Ringer solution and allowed to stand covered at room temperature for 30 minutes to facilitate deesterification.
Fluorescence measurements in individual rhythmically beating myocytes were carried out at 37°C with the use of a DeltaScan microspectrofluorometer (Photon Technology International) coupled with an Olympus IX70 microscope equipped with an Olympus UApo/340x40 oil immersion objective with a numerical aperture of 1.35. The fura-2 transients reported are the ratio of Ca2+ fluorescence transients measured at excitation wavelengths 340 and 380 nm. The myocytes were only illuminated at short intervals, and each sample preparation was used for <1 hour to reduce the possibility of photobleaching or fura-2 leakage.jp:, 百拇医药
Statistical Analysisjp:, 百拇医药
Values are reported as mean±SEM, and n refers to the number of animals examined. The statistical differences between 2 groups were determined by Student’s t test and between multiple groups by 1-way repeated-measures ANOVA with Sigma Stat software (Jandel Scientific). P<0.05 was considered significant.
Results}{fjn, http://www.100md.com
Specificity of Small HSP Antibodies}{fjn, http://www.100md.com
The small heat shock proteins are highly homologous11,25; thus, to determine the specificity of the antibodies, immunoblots of recombinant HSP20, recombinant HSP25, bovine lense {alpha}}{fjn, http://www.100md.com
B-crystallin, and homogenized rat heart were probed. The HSP20, {alpha}}{fjn, http://www.100md.com
B-crystallin, and MKBP antibodies recognized the corresponding purified or recombinant protein (). The anti-HSP20 antibodies recognized a major band at 20 kDa with a smaller band at a slightly lower relative mobility in heart homogenate proteins (, HSP20). This additional lower band may represent cross-reactivity with other proteins or may represent HSP20 that has been posttranslationally modified (eg, phosphorylated and nonphosphorylated HSP20). The anti–{alpha}}{fjn, http://www.100md.com
B-crystallin antibodies recognized a single band with a relative mobility of 20 kDa in heart homogenates (, Crystallin). The immunoreactive band above 20 kDa in the lane containing purified {alpha}
B-crystallin may represent dimerized {alpha}\wce#ag, 百拇医药
B-crystallin. The anti-MKBP antibodies recognized a band with a relative mobility of 20 kDa and another band with a higher relative mobility ({approx}\wce#ag, 百拇医药
35 kDa) in heart homogenates (, MKBP). The additional band may represent cross-reactivity with other proteins or dimerized MKBP. There were very low levels of immunoreactive HSP25 detected in adult rat heart with an affinity-purified mouse monoclonal antibody21 or commercially available antibodies (data not shown). It has been previously reported that HSP25 is highly expressed in neonatal cardiac tissue but is markedly downregulated in adult heart tissues.26 Only the associations between HSP20, {alpha}\wce#ag, 百拇医药
B-crystallin, and MKBP were examined in subsequent studies.\wce#ag, 百拇医药
fig.ommitted\wce#ag, 百拇医药
. Specificity of the small heat shock protein antibodies. Rat heart tissue homogenates (HH, 100 µg), bovine {alpha}
B-crystallin (crystalline, 1 µg), recombinant HSP25 (HSP25, 1 µg), and recombinant HSP20 (HSP20, 1 µg) were separated by SDS-PAGE and transferred to Immobilon as described in Methods. The blots were then probed with anti-HSP20 antibodies (HSP20, 1:1000 dilution), anti–{alpha}o, 百拇医药
B-crystallin antibodies (crystalline, 1:1000 dilution), or anti-MKBP antibodies (MKBP, 1:1000 dilution). The relative mobility of molecular weight standards is indicated on the left of each panel. Arrows depict the relative immunoreactive proteins. This blot is representative of 3 separate experiments.o, 百拇医药
Subcellular Localization and Macromolecular Associations of the Small HSPso, 百拇医药
To determine the intracellular distribution of the small heat shock proteins in cardiac myocytes, subcellular fractionation was performed as described in Methods. HSP20 and MKBP were in the cytosolic fraction in rat heart homogenates (, HSP20 and MKBP). {alpha}o, 百拇医药
B-crystallin was predominantly in the cytosolic fraction, but there was also a minor component of immunoreactive {alpha}
B-crystallin in the particulate fraction (, crystallin).y/m, 百拇医药
fig.ommittedy/m, 百拇医药
Figure 2. Subcellular fractionation of rat heart tissues. Rat heart tissues were homogenized as described in Methods. Proteins from the 10 000g supernatant (S1), 10 000g pellet in (P1), 100 000g supernatant (S2), and 100 000g pellet (P2) were probed with anti-HSP20 antibodies (HSP20, 1:1000 dilution), anti–{alpha}y/m, 百拇医药
B-crystallin antibodies (crystallin, 1:1000 dilution), or anti-MKBP antibodies (MKBP, 1:1000 dilution). The relative mobility of molecular weight standards is indicated on the left of each panel, and arrows depict the relative immunoreactive proteins. These results are representative of 3 separate experiments.y/m, 百拇医药
The small heat shock proteins have been shown to be associated with each other in macromolecular aggregates.12,13 Because the small HSPs were predominantly cytosolic proteins, gel filtration was performed on the cytosolic fractions of heart muscle homogenates with superose 6 columns.13 Fractions from the column were dot-blotted with antibodies against HSP20, {alpha}
B-crystallin, and MKBP. HSP20 and {alpha}8#8mf!, http://www.100md.com
B-crystallin were found in similar fractions that eluted from the column after the catalase standard (MW 232, A). MKBP eluted from the column in the same fraction as the BSA standard (MW 67 kDa, A).8#8mf!, http://www.100md.com
fig.ommitted8#8mf!, http://www.100md.com
A, Macromolecular associations of HSP20, {alpha}8#8mf!, http://www.100md.com
B-crystallin, and MKBP in rat heart. Cytosolic supernatants were separated on a molecular sieving column and immunoreactive HSP20 (), {alpha}8#8mf!, http://www.100md.com
B-crystallin ({circ}) or MKBP ({blacktriangleup} ) was measured in each of the column fractions (fraction number). The amount of immunoreactive protein in each fraction was determined with densitometry (densitometric units). The fraction of the catalase standard (232 kDa) and the BSA standard (67 kDa) is indicated on the top of the figure. These results are representative of 3 separate experiments. B, Coimmunoprecipitation of {alpha}8#8mf!, http://www.100md.com
B-crystallin and HSP20 in adult rat heart. Proteins were immunoprecipitated with anti-HSP20 antibodies as described in Methods. The blots were probed with anti-HSP20 antibodies (HSP20, 1:1000 dilution) or anti–{alpha}
B-crystallin antibodies (CRY, 1:1000 dilution). The relative mobility of molecular weight standards is indicated on the left of each panel, and the relative immunoreactive proteins are depicted with arrows. The upper bands represent cross-reactivity with the antibody light chains. These blots are representative of 3 separate experiments.!*$, 百拇医药
To confirm the associations of the small heat shock protein in rat heart, we performed coimmunoprecipitations. Immunoprecipitation was performed with antibodies against HSP20, the proteins separated and probed with antibodies against HSP20, {alpha}!*$, 百拇医药
B-crystallin, MKBP, and sarcomeric actin. {alpha}!*$, 百拇医药
B-crystallin coimmunoprecipitated with HSP20 (B). Neither MKBP nor sarcomeric actin coimmunoprecipitated with HSP20 from rat heart homogenates (data not shown). The secondary antibodies also recognized the light chains of the rabbit polyclonal antibodies used to perform the immunoprecipitations (B, 50-kDa band). HSP20, {alpha}
B-crystallin, and MKBP all have a relative mobility of 20 kDa; thus, they could readily be detected at a relative mobility lower on the gel than the rabbit polyclonal antibodies used in the immunoprecipitations. The antibodies used to probe for sarcomeric actin were mouse monoclonal. Thus, a signal from the immunoprecipitating antibody would not interfere with the actin probe. There was no nonspecific immunoreactive protein when heart homogenates were immunoprecipitated with preimmune rabbit serum (data not shown). The antibodies used to detect {alpha}#$\i, http://www.100md.com
B-crystallin did not immunoprecipitate {alpha}#$\i, http://www.100md.com
B-crystallin; thus, experiments to immunoprecipitate {alpha}#$\i, http://www.100md.com
B-crystallin and detect immunoreactive HSP20 were not performed.#$\i, http://www.100md.com
Cellular Localization of the Small HSPs With Immunofluorescence Microscopy#$\i, http://www.100md.com
To additionally localize the small HSPs in rat heart, immunofluorescence microscopy was performed. Immunoreactive sarcomeric actin was present in distinct transverse bands (A). Immunoreactive {alpha}
B-crystallin was also present in transverse bands, but the staining was more punctate (B). Immunoreactive HSP20 was present in transverse bands, and there was also staining of the cell membranes (C). MKBP was not included because of the limited specificity of the MKBP antibodies. Neonatal cardiac myocytes were also stained with anti-actin and anti-HSP20 antibodies, and similar staining patterns were observed (E). There was no specific pattern of immunoreactivity using preimmune serum or no primary antibody (data not shown).px.4;t, 百拇医药
fig.ommittedpx.4;t, 百拇医药
Immunofluorescence localization of HSP20, {alpha}px.4;t, 百拇医药
B-crystallin, and MKBP in rat heart. Rat hearts were perfusion fixed, and sections were stained with anti-sarcomeric actin antibodies (1:100 dilution, A), anti–{alpha}px.4;t, 百拇医药
B-crystallin antibodies (1:100 dilution, B), or anti-HSP20 antibodies (1:100 dilution, C; magnification x40). Neonatal rat cardiac myocytes were stained with anti-sarcomeric actin antibodies (1:100 dilution, D) or anti-HSP20 antibodies (1:100 dilution, E; magnification, x100). Cy3-conjugated secondary antibodies were used, and the slides were imaged with a fluorescence microscope. These images are representative of staining 5 different rat hearts.
Activation of Cyclic Nucleotide Signaling Pathways Leads to an Increase in the Phosphorylation of HSP20 in Cardiac Myocytess9i, 百拇医药
To determine if activation of cyclic nucleotide signaling pathways leads to increases in the phosphorylation of HSP20, two-dimensional immunoblotting was performed. Increases in the phosphorylation of HSP20 in vascular smooth muscle leads to a shift of HSP20 from a basic to more acidic isoforms.7 Rat cardiac myocytes were equilibrated in bicarbonate buffer for 1 hour. The myocytes were then treated with buffer alone or with the NO donor sodium nitroprusside (10 µmol/L, 10 minutes). The cells were homogenized and separated by two-dimensional electrophoresis, transferred to Immobilon, and probed with anti-HSP20 antibodies. Blots from cells treated with buffer alone demonstrated a single point of immunoreactive protein with a relative mobility of 20 kDa and an isoelectric focusing point of 6.5 (A). Blots from strips treated with sodium nitroprusside demonstrated a single point of immunoreactive protein with a relative mobility of 20 kDa and an isoelectric focusing point of 5.6 (B). These isoelectric values are consistent with nonphosphorylated and phosphorylated HSP20, respectively.5,7
fig.ommittedgy, 百拇医药
HSP20 is phosphorylated by activation of cyclic nucleotide signaling pathways in neonatal ventricular myocytes. Cardiac myocytes were treated with PBS (A) or sodium nitroprusside (10 µmol/L for 10 minutes) (B). The cells were then homogenized, solubilized, and separated by 2-dimensional electrophoresis. The proteins were then transferred to Immobilon and probed with anti-HSP20 antibodies (1:1000 dilution). The relative mobility of molecular weight standards is indicated to the left of each panel, and the mobility of IEF standards is on the top of panel B. The arrows represent immunoreactive HSP20. This blot is representative of 3 separate experiments.gy, 百拇医药
Phosphorylated Peptide Analogues of HSP20 Leads to an Increase in the Rate of Shortening in Cardiac Myocytesgy, 百拇医药
To determine if HSP20 has a direct role in myocyte function, a model of transient permeabilization of cultured myocytes was used.22 The rate of shortening and lengthening in unloaded isolated cells was used as a measure of contraction. Introduction of the phosphorylated peptide analogue of HSP20 resulted in a significant increase in the rate of shortening (37.6±2.4%, A). Similar increases in the rate of shortening occurred after treatment with sodium nitroprusside (10 µmol/L, 33.5±5.3%). In experiments where the myocytes were permeabilized in the absence of peptide (sham, 1.1±0.5% increase, A) or in the presence of scrambled phosphorylated peptide (5.9±1.9% increase, A) or nonphosphorylated peptide (5.5±2.4%, A), there was no significant change in the shortening rate.
fig.ommitted)i, 百拇医药
The effect of phosphopeptide analogues of HSP20 on myocyte function. The basal rate of shortening and lengthening of unloaded isolated cardiac myocytes was determined by computer-assisted digital microscopy imaging techniques. The cells were then transiently permeabilized and incubated with no peptide (sham, SM); N-PRKSphosLWALGRPLA (SC, a scrambled phosphorylated peptide); N-WLRRAAAPLPGLK (NP, a nonphosphorylated peptide); or N-WLRRASphosAPLPGLK (PS, the phosphoHSP20 peptide analogue). After permeabilization, the cells were placed back on the microscope stage and the rate of shortening and lengthening was again determined. The data represent the percent increase in rate of change over basal rate (percent increase in rate, A; n=25 cells per group from 5 different experiments; *P<0.05). With the use of digital camera and Video Savant software, images of individual cells were captured at 30 frames per second before (PRE) and after (POST) permeabilization and introduction of the PS peptide analogue. The time from contraction (maximal shortening) to relaxation (maximal lengthening) was measured (relaxation time in seconds; B, n=16 cells from 5 different experiments; *P<0.05).
Because phosphorylated HSP20 is associated with relaxation of vascular smooth muscle, we hypothesized that phosphopeptide analogues of HSP20 increased shortening rate by increasing the rate of relaxation of the cardiac myocytes. To determine the rate of relaxation of the cardiac myocytes, contractile properties were analyzed with the use of a digital camera and Video Savant software. The times for contraction and relaxation were measured before and after the transient permeabilization in the presence of peptide analogues. There was a significant decrease in the time of relaxation in the cells exposed to the phosphopeptide analogue of HSP20 (B). There were no significant changes in the relaxation rate in myocytes permeabilized in the absence of peptide (0.058±0.005 seconds) or incubated in the presence of the scrambled phosphorylated peptide (0.055±0.006 seconds).h^uj, 百拇医药
Calcium Transientsh^uj, 百拇医药
Because myocyte contractility at the level of the sarcomere is regulated by Ca2+ transients, we next examined Ca2+ fluxes in the transiently permeabilized myocytes with the Ca2+ fluoroprobe, fura-2. For these experiments, cultured myocytes were permeabilized before loading with fura-2. The results demonstrated a significant decrease in the time constant for exponential ({tau} ) decay of the Ca2+ transients in the group that was permeabilized in the presence of the phosphopeptide analogues of HSP20 (0.104±0.005 seconds, n=16; B) compared with the group treated with the scrambled phosphopeptide (0.236±0.011 seconds, n=18; B) or the myocytes permeabilized in the absence of any phosphopeptide (0.242±0.021 seconds, n=23). There were no differences in the peak systolic Ca2+ transients in the myocytes incubated with the HSP20 phosphopeptide analogue compared with the scrambled phosphopeptide analogues (P>0.05; A). However, the permeabilization with either of the phosphopeptides resulted in a decrease in the peak magnitude of the Ca2+ transient that was evident when comparing myocytes permeabilized with scrambled phosphopeptide (1.05±0.02 340/380 ratio units) or phosphopeptide HSP20 analogue (1.01±0.02) to permeabilized myocytes in the absence of peptide (1.16±0.02; P<0.05). These data indicated that permeabilization with phosphopeptides resulted in a nonspecific decrease in the magnitude of the transients. The diastolic Ca2+ level was not significantly different in any of the 3 groups.
fig.ommittedrcd*, 百拇医药
. The effect of phosphopeptide analogues of HSP20 on Ca2+ transients. Myocytes cultured on glass coverslips were permeabilized with HSP20 or scrambled phosphopeptides or permeabilized in the absence of peptides just before loading with fura-2 AM. Data were collected from individual rhythmically beating myocytes (A; ratio of light emitted at 510 nm when alternately excited at 340 and 380 nm). For each myocyte, data were collected for 20 to 25 seconds and used only if the basal level and the peak magnitudes of the Ca2+ transients remained stable over this period. The phosphorylated HSP20 analogue resulted in a significantly faster rate of decline of Ca2+ transient when determined by fitting the declining phase of the transient by a first-order exponential (B). For each data set, the time constants for the decay () were determined for 5 consecutive Ca2+ transients and averaged. The data were collected from 16 to 23 myocytes per group in 3 separate experiments (see text; *P<0.05).rcd*, 百拇医药
Discussionrcd*, 百拇医药
The small heat shock proteins share considerable homology and are often found in association with other small heat shock proteins. Despite the sequence homology, the antibodies used in these studies were specific for the individual heat shock protein (). The small HSPs HSP20, {alpha}
B-crystallin, and MKBP were predominantly cytosolic proteins, although some {alpha}3$6s^, 百拇医药
B-crystallin was in a particulate fraction (). Molecular sieving columns suggested that {alpha}3$6s^, 百拇医药
B-crystallin and HSP20 coexist in a macromolecular aggregate of {approx}3$6s^, 百拇医药
200 kDa (A). MKBP was in a much smaller aggregate (60 to 70 kDa). This association was confirmed in that {alpha}3$6s^, 百拇医药
B-crystallin coimmunoprecipitated with HSP20 (B). Immunofluorescence microscopy demonstrated that {alpha}3$6s^, 百拇医药
B-crystallin and HSP20 had a staining pattern of distinct transverse bands similar to the pattern observed after staining for sarcomeric actin (). Thus, both biochemical analyses and immunofluorescence microscopy suggest that HSP20 and {alpha}3$6s^, 百拇医药
B-crystallin are associated proteins in adult rat hearts. Other studies have suggested that HSP20 is an actin-associated protein in vascular smooth muscle.18,19 The localization of the small heat shock proteins to specific cytoskeletal domains suggests a role for these proteins in regulating cytoskeletal dynamics.
HSP25, HSP20, and {alpha}$z1, 百拇医药
B-crystallin can be posttranslationally modified by phosphorylation. HSP20 is phosphorylated by cAMP-dependent protein kinase (PKA) and cGMP-dependent protein kinase (PKG).7 Increases in the phosphorylation of HSP20 are associated with relaxation of vascular and skeletal muscle.4,5,7 In the present investigation, we demonstrate that treatment of neonatal ventricular tissue with sodium nitroprusside leads to increases in the rate of shortening and increases in the phosphorylation of HSP20 (). The addition of phosphopeptide analogues of HSP20 into transiently permeabilized cardiac myocytes led to increases in the rate of shortening of the myocytes (). These results are consistent with previously reported findings demonstrating that the NO-cGMP pathway increases beat rate by stimulating the hyperpolarization-activated pacemaker current, If.27 The present results suggest that the mechanism of NO stimulation of heart rate via If involves phosphorylation of HSP20 and that phosphorylated HSP20 may have a direct effect on If channels. The increased rate of shortening was also related to increases in the rate of relaxation of the myocytes (). Although there was no change in the magnitude of the Ca2+ transient after treatment with the phosphopeptide analogues of HSP20, there was an increase in the rate of decline of the Ca2+ transient (). This suggests that the phosphopeptide analogue of HSP20 facilitates the increased rate by stimulating a more rapid uptake of Ca2+ by the sarcoplasmic reticulum. Taken together, these data suggest that HSP20 may have a direct role in modulating the lusitropic actions of NO and NO donors.
In summary, HSP20 is biochemically associated with {alpha}}, http://www.100md.com
B-crystallin and localizes to distinct transverse bands in a similar pattern as {alpha}}, http://www.100md.com
B-crystallin and sarcomeric actin. The possible association of HSP20 and {alpha}}, http://www.100md.com
B-crystallin with actin suggests that these two small heat shock proteins may be involved in modulating cytoskeletal or contractile dynamics of cardiac myocytes. Specifically, our results show that the addition of phosphorylated peptide analogues of HSP20 leads to increases in the rate of shortening, which was associated with a more rapid uptake of Ca2+ in cardiac myocytes. This suggests that HSP20 may have a physiological role in cardiac myocyte function.}, http://www.100md.com
Acknowledgments}, http://www.100md.com
This work was supported by a VA Merit Review Award and NIH grant RO1 HL58027 to Dr Brophy and NIH grants RO1 HL 58861 and PO1 HL 36059 (Project 2) to Dr Creazzo. Dr Pipkin was the recipient of the Society of University Surgeons-Ethicon Scholarship.
Received September 26, 2002; accepted September 30, 2002.{[9!, http://www.100md.com
References{[9!, http://www.100md.com
Muller-Strahl G, Kottenberg K, Zimmer HG, et al. Inhibition of nitric oxide synthase augments the positive inotropic effect of nitric oxide donors in the rat heart. J Physiol. 2000; 522(pt 2): 311–320.{[9!, http://www.100md.com
Layland J, Li JM, Shah AM. Role of cyclic GMP-dependent protein kinase in the contractile response to exogenous nitric oxide in rat cardiac myocytes. J Physiol. 2002; 540(pt 2): 457–467.{[9!, http://www.100md.com
Beall A, Bagwell D, Woodrum DA, et al. The small heat shock-related protein, HSP20, is phosphorylated on serine 16 during cyclic nucleotide-dependent relaxation. J Biol Chem. 1999; 274: 11344–11351.{[9!, http://www.100md.com
Rembold CM, Foster DB, Strauss JD, et al. cGMP-mediated phosphorylation of heat shock protein 20 may cause smooth muscle relaxation without myosin light chain dephosphorylation in swine carotid artery. J Physiol. 2000; 524(pt 3): 865–878.{[9!, http://www.100md.com
Wang Y, Xu A, Cooper GJS. Phosphorylation of P20 is associated with the actions of insulin in rat skeletal and smooth muscle. Biochem J. 1999; 344: 971–976.
Kato K, Goto G, Inaguma Y, et al. Purification and characterization of a 20-kDa protein that is highly homologous to {alpha}(, 百拇医药
B-crystallin. J Biol Chem. 1994; 269: 15302–15309.(, 百拇医药
Beall AC, Kato K, Goldenring JR, et al. Cyclic nucleotide-dependent vasorelaxation is associated with the phosphorylation of a small heat shock-related protein. J Biol Chem. 1997; 272: 11283–11287.(, 百拇医药
Jerius H, Karolyi DR, Mondy JS, et al. Endothelial-dependent vasodilation is associated with increases in the phosphorylation of a small heat shock protein (HSP20). J Vasc Surg. 1999; 29: 678–684.(, 百拇医药
Brophy CM, Beall A, Lamb S, et al. Small heat shock proteins and vasospasm in human umbilical artery smooth muscle. Biol Reprod. 1997; 57: 1354–1359.(, 百拇医药
Woodrum D, Brophy CM, Wingard CJ, et al. The phosphorylation events associated with cyclic nucleotide-dependent inhibition of smooth muscle contraction. Am J Physiol. 1999; 277: H931–H939.(, 百拇医药
Suzuki A, Sugiyama Y, Hayashi Y, et al. MKBP, a novel member of the small heat shock protein family, binds and activates the myotonic dystrophy protein kinase. J Cell Biol. 1998; 140: 1113–1124.
Kato K, Hasegawa K, Goto S, et al. Dissociation as a result of phosphorylation of an aggregated form of the small stress protein, hsp27. J Biol Chem. 1994; 269: 11274–11278.a+&, 百拇医药
Brophy CM, Dickinson M, Woodrum D. Phosphorylation of the small heat shock-related protein, HSP20, in vascular smooth muscles is associated with changes in the macromolecular associations of HSP20. J Biol Chem. 1999; 274: 6324–6329.a+&, 百拇医药
Shah V, Wiest R, Garcia-Cardena G, et al. Hsp90 regulation of endothelial nitric oxide synthase contributes to vascular control in hypertension. Am J Physiol. 1999; 277: G463–G468.a+&, 百拇医药
Miron T, Vancompernoll K, Vanderkerckhove J, et al. A 25-kD inhibitor of actin polymerization is a low molecular mass heat shock protein. J Cell Biol. 1991; 114: 255–261.a+&, 百拇医药
Lavoie JN, Lambert H, Hickey E, et al. Modulation of cellular thermoresistance and actin filament stability accompanies phosphorylation-induced changes in the oligomeric structure of heat shock protein 27. Mol Cell Biol. 1995; 15: 505–516.a+&, 百拇医药
Guay J, Lambert H, Gingras-Breton G, et al. Regulation of actin filament dynamics by p38 map kinase-mediated phosphorylation of heat shock protein 27. J Cell Sci. 1997; 110(pt 3): 357–368.
Brophy CM, Lamb S, Graham A. The small heat shock-related protein-20 is an actin-associated protein. J Vasc Surg. 1999; 29: 326–333.tlt4zj, 百拇医药
Rembold CM, Zhang E. Localization of heat shock protein 20 in swine carotid artery. BMC Physiol. 2001; 1: 10.tlt4zj, 百拇医药
Perng MD, Cairns L, van den IJssel PR, et al. Intermediate filament interactions can be altered by HSP27 and {alpha}tlt4zj, 百拇医药
B-crystallin. J Cell Sci.,. 1999; 112: 2099–2112.tlt4zj, 百拇医药
Welsh MJ, Wu W, Parvinen M, et al. Variation in expression of hsp27 messenger ribonucleic acid during the cycle of the seminiferous epithelium and co-localization of hsp27 and microfilaments in Sertoli cells of the rat. Biol Reprod. 1996; 55: 141–151.tlt4zj, 百拇医药
Johnson JA, Gray MO, Karliner JS, et al. An improved permeabilization protocol for the introduction of peptides into cardiac myocytes: application to protein kinase C research. Circ Res. 1996; 79: 1086–1099.tlt4zj, 百拇医药
Johnson JA, Mochly-Rosen D. Inhibition of the spontaneous rate of contraction of neonatal cardiac myocytes by protein kinase C isozymes: a putative role for the epsilon isozyme. Circ Res. 1995; 76: 654–663.tlt4zj, 百拇医药
Brotto MA, Creazzo TL. Ca2+ transients in embryonic chick heart: contributions from Ca2+ channels and the sarcoplasmic reticulum. Am J Physiol. 1996; 270(2 pt 2): H518–H25.tlt4zj, 百拇医药
Welsh MJ, Gaestel M. Small heat-shock protein family: function in health and disease. Ann N Y Acad Sci. 1998; 851: 28–35.tlt4zj, 百拇医药
Lutsch G, Vetter R, Offhauss U, et al. Abundance and location of the small heat shock proteins HSP25 and {alpha}tlt4zj, 百拇医药
B-crystallin in rat and human heart. Circulation. 1997; 96: 3466–3476.tlt4zj, 百拇医药
Musialek P, Lei M, Brown HF, et al. Nitric oxide can increase heart rate by stimulating the hyperpolarization-activated inward current,If. Circ Res. 1997; 81: 60–68.(Walter Pipkin MD John A. Johnson PhD Tony L. Creazzo PhD Jarrett Burch BS Padmini Komalavilas PhD Co)
Abstract!]|#.5, 百拇医药
Background— The small heat shock proteins HSP20, HSP25, {alpha}!]|#.5, 百拇医药
B-crystallin, and myotonic dystrophy kinase binding protein (MKBP) may regulate dynamic changes in the cytoskeleton. For example, the phosphorylation of HSP20 has been associated with relaxation of vascular smooth muscle. This study examined the function of HSP20 in heart muscle.!]|#.5, 百拇医药
Methods and Results— Western blotting identified immunoreactive HSP20, {alpha}!]|#.5, 百拇医药
B-crystallin, and MKBP in rat heart homogenates. Subcellular fractionation demonstrated that HSP20, {alpha}
B-crystallin, and MKBP were predominantly in cytosolic fractions. Chromatography with molecular sieving columns revealed that HSP20 and {alpha}g-dr, 百拇医药
B-crystallin were associated in an aggregate of {approx}g-dr, 百拇医药
200 kDa, and {alpha}g-dr, 百拇医药
B-crystallin coimmunoprecipitated with HSP20. Immunofluorescence microscopy demonstrated that the pattern of HSP20, {alpha}g-dr, 百拇医药
B-crystallin, and actin staining was predominantly in transverse bands. Treatment with sodium nitroprusside led to increases in the phosphorylation of HSP20, as determined with 2-dimensional immunoblots. Incubation of transiently permeabilized myocytes with phosphopeptide analogues of HSP20 led to an increase in the rate of shortening. The increased shortening rate was associated with an increase in the rate of lengthening and a more rapid decay of the calcium transient.g-dr, 百拇医药
Conclusions— HSP20 is associated with {alpha}
B-crystallin, possibly at the level of the actin sarcomere. Phosphorylated HSP20 increases myocyte shortening rate through increases in calcium uptake and more rapid lengthening.qv0+(, 百拇医药
Key Words: myocytes muscle, smooth contractilityqv0+(, 百拇医药
Introductionqv0+(, 百拇医药
Several recent studies have demonstrated that nitric oxide (NO) has direct effects on myocardial contractile function. Exogenous NO donors characteristically enhance relaxation without major effects on peak systolic function.1 This selective relaxant action has been observed in intact hearts and cardiac myocytes, and the effects have been attributed to a direct action of NO on the heart.1,2 Increases in cGMP and activation of cGMP-dependent protein kinase have been implicated as the cellular mechanism.2 However, the specific protein that is phosphorylated by cGMP-dependent protein kinase that produces the relaxant effect in the heart has not been identified.
We have recently determined that cyclic nucleotide– dependent relaxation of vascular smooth muscle is associated with an increase in the phosphorylation of the small heat shock–related protein HSP20.3 These results have been independently confirmed by two other laboratories.4,5 HSP20 is highly and constitutively expressed in muscle tissues and can be phosphorylated in vitro by cGMP-dependent protein kinase.6,7 A more direct role for HSP20 in mediating smooth muscle relaxation has been suggested, as follows: (1) Physiological release of NO, induced by acetylcholine or increased flow, leads to measurable increases in the phosphorylation of HSP208; (2) HSP20 is not phosphorylated in muscles that are refractory to cGMP-dependent relaxation9; (3) pretreatment of smooth muscles with cyclic nucleotide activators leads to increases in the phosphorylation of HSP20 and inhibition of contraction responses to agonists10; (4) the introduction of phosphopeptide analogues of HSP20 into transiently permeabilized vascular smooth muscles inhibits contraction.3 Thus, cyclic nucleotide-dependent relaxation of smooth muscle seems to be modulated by increases in the phosphorylation of HSP20.
The family of small heat shock proteins, HSP20, HSP25, {alpha}s$y, http://www.100md.com
B-crystallin, and myotonic dystrophy kinase binding protein (MKBP), are expressed in muscle tissues and share considerable sequence homology, primarily at the c-terminus.11 These proteins are often associated in large macromolecular aggregates.12,13 Heat shock proteins have been implicated in modulating the cellular response to many stressors (heat, chemical, osmotic, oxidative, and mechanical) and in modulating protein–protein interactions. An additional recently described function of heat shock proteins is to modulate the activity of kinases. MKBP activates myotonic dystrophy protein kinase,11 and HSP90 modulates the activity of NO synthase.14 Three of the small heat shock proteins, HSP25, {alpha}s$y, http://www.100md.com
B-crystallin, and HSP20, are likely involved in cytoskeletal dynamics. HSP25 (the homologous human protein is referred to as HSP27) is an actin-associated protein and modulates actin filament dynamics.15–17 HSP20 is also an actin-associated protein.18,19 HSP25 and {alpha}
B-crystallin both associate with intermediate filament proteins and modulate the interactions that occur between filaments in cellular networks.20 The small heat shock proteins may function to preserve myofibrillar integrity in response to stress and may serve a physiological function in the dynamic cytoskeletal changes associated with contraction and relaxation.axqe\0, http://www.100md.com
Methodsaxqe\0, http://www.100md.com
Materialsaxqe\0, http://www.100md.com
Sodium dodecylsulfate (SDS), glycine, tris-(hydroxymethyl) aminomethane (Tris), and dithiothreitol (DTT) were from Research Organics. Coomassie brilliant blue was from ICN Biomedicals Inc. Recombinant HSP27 was from StressGen. Recombinant HSP20 was produced as previously described.18 Piperazine diacrylamide and other electrophoresis reagents were from BioRad. 3-[(3-Cholamidopropyl dimethylammonio]-1-propanesulfonate (CHAPS), ethylene glycol bis (ß-aminomethyl ether)-N,N,N',N'-tetra acetic acid (EGTA), ethylene diaminetetraacetic acid (EDTA), polyoxyethylene-sorbitan monolaurate (Tween-20), purified bovine {alpha}
B-crystallin, sodium nitroprusside, and all other reagent-grade chemicals were from Sigma. Protease inhibitor cocktail [2 µmol/L 4-(2-aminoethyl) benzenesulfonyl fluoride (AEBSF), 130 µmol/L Bestain, 14 µmol/L trans-epoxysuccinyl-L-leucylamido(4-guanidino)butane (E-64), 1 µmol/L leupeptin, and 0.3 µmol/L aprotinin, final concentrations] from Sigma was added to all homogenization buffers. Molecular weight standards were from Pharmacia. Immobilon was from Millipore. Antibodies against sarcomeric actin were from Sigma (St Louis, Mo); HSP20 and {alpha}|, 百拇医药
B-crystallin were from Dr Kanefusa Kato (Aichi, Japan)6; HSP25 was from Dr Michael Welsh (University of Michigan, Ann Arbor, Mich)21; and Accurate, StressGen, and myotonic dystrophy kinase binding protein were from Dr Atshushi Suzuki (Yokohama, Japan).11 Goat anti-mouse and anti-rabbit secondary antibodies were from Jackson Immunochemical (West Grove, Pa). Protein concentrations were determined with the Coomassie Plus Protein Assay Reagent (Pierce).
Isolation of Rat Heart Tissue#@{, http://www.100md.com
Adult rats (2 to 3 months of age) were killed with CO2 inhalation, and the hearts were dissected free from the thoracic cavity and placed in PBS (10 mmol/L phosphate, pH 7.5, 0.15 mol/L NaCl, 4°C). The atria were dissected free and the ventricle was cut into small strips and homogenized for biochemical analyses. For immunohistochemical analyses, the thoracic aorta was cannulated and perfused with PBS followed by 4% formalin in PBS at 100 mm Hg. Ventricular myocytes were isolated from the hearts of 2-day-old Sprague-Dawley rats by gentle trypsinization and placed in culture as previously described.22 Animal use was approved by the Institutional Animal Care and Use Committee.#@{, http://www.100md.com
Immunoblotting#@{, http://www.100md.com
Tissues were homogenized in 10 mmol/L EGTA, 2 mmol/L EDTA, 10 mmol/L ß-mercaptoethanol, 1% glycerol, and 4% SDS in 60 mmol/L Tris, pH 7.0, with the use of a polytron homogenizer (Brinkman Instruments). The homogenate was centrifuged (10 000g) to remove insoluble material. Proteins were separated on 15% SDS-PAGE gels and transferred to Immobilon (100 mAmp for 12 hours). The blots were air dried and subsequently blocked with tris-buffered saline (TBS, 10 mmol/L Tris, 150 mmol/L NaCl, pH 7.4) and 5% milk for 1 hour. The blots were then incubated with anti-HSP20 (1/1000), anti–{alpha}
B-crystallin (1/1000), anti-HSP25 (1/1000), or anti-MKBP (1/1000) antibodies in TBS/milk for 1 hour at room temperature. The blots were washed 3 times (5 minutes each) in TBS/Tween-20 (0.5%). The blots were then placed in goat anti-rabbit secondary antibody diluted in TBS/milk (1/2000) for 1 hour at room temperature. The blots were then washed 6 times (5 minutes each) in TBS/Tween-20. Immunoreactive protein was determined with enhanced chemiluminescence (DuPont NEN) exposed on x-ray film.n%we;'j, 百拇医药
Subcellular Fractionationn%we;'j, 百拇医药
Tissues were homogenized in homogenization buffer (HEPES buffer, 25 mmol/L HEPES, 150 mmol/L NaCl, 10 mmol/L EDTA, 1 mmol/L DTT, 2 mmol/L benzamidine, pH 7.4, and protease inhibitor cocktail [2 µmol/L 4-(2-aminoethyl) benzenesulfonyl fluoride (AEBSF), 130 µmol/L Bestain, 14 µmol/L trans-epoxysuccinyl-L-leucylamido(4-guanidino)butane (E-64), 1 µmol/L leupeptin, and 0.3 µmol/L aprotinin, final concentrations] from Sigma) (0.5 g tissue/1 mL buffer) at 4°C. The homogenate was centrifuged at 3000g to remove debris and the nuclear pellet. The supernatants were diluted to 5 µg of protein/µL, and 250 µL of supernatant was centrifuged at 10 000g for 10 minutes. The pellet (P1) was resuspended in 125 µL of homogenization buffer and 125 µL of 2x sample buffer (6.25 mmol/L Tris, pH 6.8, 2% SDS, 5% 2-ß mercaptoethanol, 10% glycerol, 0.025% bromophenol blue). To 125 µL of the 10 000g supernatant (S1), 125 µL of 2x sample buffer was added. The remaining 125 µL of 10 000g supernatant was centrifuged at 100 000g. The 100 000g pellet (P2) was resuspended in 125 µL of homogenization buffer and 125 µL of 2x sample buffer. A total of 125 µL of 2x sample buffer was added to the 100 000g supernatant (S2). The samples were boiled for 8 minutes after the addition of sample buffer, separated on 15% SDS-PAGE gels, transferred to Immobilon membranes, and probed with anti-actin antibodies (1/2000 dilution), anti-HSP20 antibodies (1/2000 dilution), anti–{alpha}
B-crystallin antibodies (1/2000 dilution), and anti-MKBP antibodies (1/2000 dilution).p/, http://www.100md.com
Gel Filtrationp/, http://www.100md.com
Gel filtration was performed as previously described.13 In brief, the tissues were homogenized in HEPES buffer (0.5 g tissue/1 mL buffer) at 4°C. The homogenate was centrifuged at 100 000g for 30 minutes at 4°C. 200 µL of supernatant (containing 200 µg total protein) was applied to a Superose-6 HR 10/30 fast protein liquid chromatography column (Pharmacia), eluted with column buffer, and 0.5-mL fractions collected. For calibration, 100 µL of catalase (232 kDa, 5 mg/mL) and BSA (67 kDa, 8 mg/mL) was applied to the column.p/, http://www.100md.com
Dot Blottingp/, http://www.100md.com
One hundred microliters of each fraction from the column was dot-blotted onto nitrocellulose. The blots were fixed with 20% methanol, dried, blocked with TBS, 5% milk, for 1 hour, washed 3 times with TBS, and then probed with anti-HSP20, anti-MKBP, and anti-{alpha}
B crystallin antibodies (1/2000 dilution in TBS, 5% milk) for 1 hour. Goat anti-rabbit secondary antibodies (1/2000 dilution) were added to the blots for 1 hour. The blots were then washed 6 times with TBS/0.5%Tween-20. Immunoreactive proteins were visualized as described above with enhanced chemiluminescence, and densitometric analysis was performed with UN-SCAN-IT automated digitizing software (Silk Scientific Corporation).5vu2, 百拇医药
Immunoprecipitation5vu2, 百拇医药
Tissue was homogenized in TBS (0.5 g tissue per mL of buffer), and then the samples were centrifuged at 10 000g for 15 minutes. The soluble proteins were then diluted 10-fold with TBS. The anti-HSP20 antiserum was added to the supernatants (1:50 dilution). The samples were shaken gently for 14 hours at 4°C. Protein A-Sepharose beads (1/10 volume) were added, and the samples were incubated for an additional 3 hours at 4°C. The beads were washed 6 times with TBS, 0.5% Tween-20. A final wash of 10 mmol/L Tris pH 7.4 was then done. The proteins were separated on 15% SDS-PAGE gels, transferred to Immobilon, and probed with anti-HSP20, anti–{alpha}
B-crystallin, or anti-MKBP antibodies as described above./k\2'h, http://www.100md.com
Immunofluorescence Microscopy/k\2'h, http://www.100md.com
Perfusion-fixed ventricular tissue was embedded in paraffin. Five-micron cross-sections were mounted on polylysine slides. The slides were deparaffinized with xylene and graded dilutions of ethanol. Neonatal cardiac myocytes were grown on glass coverslips and fixed with 4% paraformaldehyde. The sections were rinsed in PBS and blocked with donkey serum (Jackson Immunoresearch, West Grove, Pa) for 30 minutes. The slides were then incubated with anti-HSP20 (1/100), anti–{alpha}/k\2'h, http://www.100md.com
B-crystallin (1/100), anti-sarcomeric actin (1/100), or anti-MKBP (1/100) overnight at 4°C. The slides were then washed with PBS, 4 times (15 minutes each), at room temperature. Anti-mouse and anti-goat Cy3 secondary antibodies (1/100) were used to detect immunoreactive protein. The sections were imaged on a Zeiss Axiophot microscope interfaced with a SPOT camera (Diagnostic Instruments) and a Gateway computer.
Dimensional Gelsx, 百拇医药
Tissues were snap-frozen in liquid nitrogen and ground to a fine powder by mortar and pestle. The proteins were solubilized in 100 mmol/L DTT, 6 mol/L urea, 2% CHAPS overnight. Protein 30 µg was loaded onto 12x15-cm-slab isofocusing gels consisting of 4% acrylamide, 0.1% piperazine diacrylamide, 9 mol/L urea, 5% ampholines (5 parts 6 to 8, 3 parts 5 to 7, and 2 parts 3 to 10), and 2% CHAPS. The cathode buffer consisted of 20 mmol/L sodium hydroxide and the anode buffer 10 mmol/L phosphoric acid. The proteins were focused for 10 000 volt hours. The gels were fixed in 10% trichloroacetic acid and stained overnight with Neuhoff’s Coomassie stain. The lanes of stained proteins were cut from the isofocusing slab gels and equilibrated in 10 mmol/L Tris (pH 6.8), 3% SDS, 19% ethanol, 4% ß-mercaptoethanol, and 0.004% bromophenol blue for 10 minutes. The proteins were then separated on 12% acrylamide SDS gels and transferred to Immobilon 100 mAmp for 12 hours. The blots were probed for HSP20 as described above. The isoelectric focusing gradient was determined with BioRad IEF standards.
Peptide Synthesis;9zl, 百拇医药
The peptides, HSP20 phosphoserine analogue N-WLRRASphos APLPGLK (HSP20-PS), a scrambled phosphorylated peptide N-PRKSphosLWALGRPLA (HSP20-SC), and a nonphosphorylated peptide N-WLRRAAAPLPGLK (HSP20-NP), were synthesized on a Procise (Applied Biosystems, Model 492) instrument according to standard protocols. The peptides were purified with high-pressure liquid chromatography, and purity was assured with mass spectrometry, as previously described.3;9zl, 百拇医药
Permeabilization of Cardiac Myocytes;9zl, 百拇医药
Permeabilization of cardiac myocytes was performed as described.22 Briefly, cells were slowly cooled by sequential 2-minute incubations with room temperature PBS and then with 4°C PBS in an ice bath for 2 minutes. The PBS was discarded, and the cells were incubated with ATP (30 µL of 200 mmol/L ATP, pH 7.4) followed immediately by permeabilization buffer (20 mmol/L HEPES, pH 7.4, 10 mmol/L EGTA, 140 mmol/L KCl, 50 µg/mL saponin, 5 mmol/L oxalic acid dipotassium salt) containing the peptides (10 µmol/L) for 10 minutes in an ice bath. The cells were then washed 4 times on ice with chilled PBS. The cells were then returned to 37°C by incubations with room temperature PBS and 37°C PBS. The original cell media was then added at 37°C.
Measurement of Cardiac Myocyte Shortening Rate/Lengthening Ratert6u!)x, http://www.100md.com
The culture dishes containing the myocytes were placed on a Harvard Apparatus temperature-regulation device positioned on the stage of an inverted microscope (Carl Zeiss Inc) and maintained at 37°C with a jacketed water bath. The microscope was outfitted with a digital camera and Video Savant software. To determine the effects of HSP20 peptide analogues on shortening rate, individual cells were monitored before and after permeabilization. Shortening rates were determined every 2 minutes (for a 15-second period) for a total of 10 minutes, as previously described.23 Images of individual cells were captured at 30 frames/second.rt6u!)x, http://www.100md.com
Calcium Transientsrt6u!)x, http://www.100md.com
Ca2+ transients were measured as previously described in detail elsewhere with only minor modifications.24 For these experiments, myocytes were cultured on 25-mm glass coverslips. After permeabilization (as described above), each coverslip was mounted in a leak-proof circular holding chamber (Medical Systems Inc) and gently washed several times with a Ringer solution containing (in mmol/L) NaCl 142.5, KCl 4.0, MgCl2 1.8, CaCl2 1.8, N-2-hydroxyethypiperazine-N-2-ethanesulfonic acid 5.0 (HEPES, pH 7.0), and glucose 5.0. After washing, the myocytes were incubated in 1 mL Ringer solution with 1 µmol/L fura-2 AM for 10 minutes at 37°C in a rotating water bath. The myocytes were subsequently washed several times with dye-free Ringer solution and allowed to stand covered at room temperature for 30 minutes to facilitate deesterification.
Fluorescence measurements in individual rhythmically beating myocytes were carried out at 37°C with the use of a DeltaScan microspectrofluorometer (Photon Technology International) coupled with an Olympus IX70 microscope equipped with an Olympus UApo/340x40 oil immersion objective with a numerical aperture of 1.35. The fura-2 transients reported are the ratio of Ca2+ fluorescence transients measured at excitation wavelengths 340 and 380 nm. The myocytes were only illuminated at short intervals, and each sample preparation was used for <1 hour to reduce the possibility of photobleaching or fura-2 leakage.jp:, 百拇医药
Statistical Analysisjp:, 百拇医药
Values are reported as mean±SEM, and n refers to the number of animals examined. The statistical differences between 2 groups were determined by Student’s t test and between multiple groups by 1-way repeated-measures ANOVA with Sigma Stat software (Jandel Scientific). P<0.05 was considered significant.
Results}{fjn, http://www.100md.com
Specificity of Small HSP Antibodies}{fjn, http://www.100md.com
The small heat shock proteins are highly homologous11,25; thus, to determine the specificity of the antibodies, immunoblots of recombinant HSP20, recombinant HSP25, bovine lense {alpha}}{fjn, http://www.100md.com
B-crystallin, and homogenized rat heart were probed. The HSP20, {alpha}}{fjn, http://www.100md.com
B-crystallin, and MKBP antibodies recognized the corresponding purified or recombinant protein (). The anti-HSP20 antibodies recognized a major band at 20 kDa with a smaller band at a slightly lower relative mobility in heart homogenate proteins (, HSP20). This additional lower band may represent cross-reactivity with other proteins or may represent HSP20 that has been posttranslationally modified (eg, phosphorylated and nonphosphorylated HSP20). The anti–{alpha}}{fjn, http://www.100md.com
B-crystallin antibodies recognized a single band with a relative mobility of 20 kDa in heart homogenates (, Crystallin). The immunoreactive band above 20 kDa in the lane containing purified {alpha}
B-crystallin may represent dimerized {alpha}\wce#ag, 百拇医药
B-crystallin. The anti-MKBP antibodies recognized a band with a relative mobility of 20 kDa and another band with a higher relative mobility ({approx}\wce#ag, 百拇医药
35 kDa) in heart homogenates (, MKBP). The additional band may represent cross-reactivity with other proteins or dimerized MKBP. There were very low levels of immunoreactive HSP25 detected in adult rat heart with an affinity-purified mouse monoclonal antibody21 or commercially available antibodies (data not shown). It has been previously reported that HSP25 is highly expressed in neonatal cardiac tissue but is markedly downregulated in adult heart tissues.26 Only the associations between HSP20, {alpha}\wce#ag, 百拇医药
B-crystallin, and MKBP were examined in subsequent studies.\wce#ag, 百拇医药
fig.ommitted\wce#ag, 百拇医药
. Specificity of the small heat shock protein antibodies. Rat heart tissue homogenates (HH, 100 µg), bovine {alpha}
B-crystallin (crystalline, 1 µg), recombinant HSP25 (HSP25, 1 µg), and recombinant HSP20 (HSP20, 1 µg) were separated by SDS-PAGE and transferred to Immobilon as described in Methods. The blots were then probed with anti-HSP20 antibodies (HSP20, 1:1000 dilution), anti–{alpha}o, 百拇医药
B-crystallin antibodies (crystalline, 1:1000 dilution), or anti-MKBP antibodies (MKBP, 1:1000 dilution). The relative mobility of molecular weight standards is indicated on the left of each panel. Arrows depict the relative immunoreactive proteins. This blot is representative of 3 separate experiments.o, 百拇医药
Subcellular Localization and Macromolecular Associations of the Small HSPso, 百拇医药
To determine the intracellular distribution of the small heat shock proteins in cardiac myocytes, subcellular fractionation was performed as described in Methods. HSP20 and MKBP were in the cytosolic fraction in rat heart homogenates (, HSP20 and MKBP). {alpha}o, 百拇医药
B-crystallin was predominantly in the cytosolic fraction, but there was also a minor component of immunoreactive {alpha}
B-crystallin in the particulate fraction (, crystallin).y/m, 百拇医药
fig.ommittedy/m, 百拇医药
Figure 2. Subcellular fractionation of rat heart tissues. Rat heart tissues were homogenized as described in Methods. Proteins from the 10 000g supernatant (S1), 10 000g pellet in (P1), 100 000g supernatant (S2), and 100 000g pellet (P2) were probed with anti-HSP20 antibodies (HSP20, 1:1000 dilution), anti–{alpha}y/m, 百拇医药
B-crystallin antibodies (crystallin, 1:1000 dilution), or anti-MKBP antibodies (MKBP, 1:1000 dilution). The relative mobility of molecular weight standards is indicated on the left of each panel, and arrows depict the relative immunoreactive proteins. These results are representative of 3 separate experiments.y/m, 百拇医药
The small heat shock proteins have been shown to be associated with each other in macromolecular aggregates.12,13 Because the small HSPs were predominantly cytosolic proteins, gel filtration was performed on the cytosolic fractions of heart muscle homogenates with superose 6 columns.13 Fractions from the column were dot-blotted with antibodies against HSP20, {alpha}
B-crystallin, and MKBP. HSP20 and {alpha}8#8mf!, http://www.100md.com
B-crystallin were found in similar fractions that eluted from the column after the catalase standard (MW 232, A). MKBP eluted from the column in the same fraction as the BSA standard (MW 67 kDa, A).8#8mf!, http://www.100md.com
fig.ommitted8#8mf!, http://www.100md.com
A, Macromolecular associations of HSP20, {alpha}8#8mf!, http://www.100md.com
B-crystallin, and MKBP in rat heart. Cytosolic supernatants were separated on a molecular sieving column and immunoreactive HSP20 (), {alpha}8#8mf!, http://www.100md.com
B-crystallin ({circ}) or MKBP ({blacktriangleup} ) was measured in each of the column fractions (fraction number). The amount of immunoreactive protein in each fraction was determined with densitometry (densitometric units). The fraction of the catalase standard (232 kDa) and the BSA standard (67 kDa) is indicated on the top of the figure. These results are representative of 3 separate experiments. B, Coimmunoprecipitation of {alpha}8#8mf!, http://www.100md.com
B-crystallin and HSP20 in adult rat heart. Proteins were immunoprecipitated with anti-HSP20 antibodies as described in Methods. The blots were probed with anti-HSP20 antibodies (HSP20, 1:1000 dilution) or anti–{alpha}
B-crystallin antibodies (CRY, 1:1000 dilution). The relative mobility of molecular weight standards is indicated on the left of each panel, and the relative immunoreactive proteins are depicted with arrows. The upper bands represent cross-reactivity with the antibody light chains. These blots are representative of 3 separate experiments.!*$, 百拇医药
To confirm the associations of the small heat shock protein in rat heart, we performed coimmunoprecipitations. Immunoprecipitation was performed with antibodies against HSP20, the proteins separated and probed with antibodies against HSP20, {alpha}!*$, 百拇医药
B-crystallin, MKBP, and sarcomeric actin. {alpha}!*$, 百拇医药
B-crystallin coimmunoprecipitated with HSP20 (B). Neither MKBP nor sarcomeric actin coimmunoprecipitated with HSP20 from rat heart homogenates (data not shown). The secondary antibodies also recognized the light chains of the rabbit polyclonal antibodies used to perform the immunoprecipitations (B, 50-kDa band). HSP20, {alpha}
B-crystallin, and MKBP all have a relative mobility of 20 kDa; thus, they could readily be detected at a relative mobility lower on the gel than the rabbit polyclonal antibodies used in the immunoprecipitations. The antibodies used to probe for sarcomeric actin were mouse monoclonal. Thus, a signal from the immunoprecipitating antibody would not interfere with the actin probe. There was no nonspecific immunoreactive protein when heart homogenates were immunoprecipitated with preimmune rabbit serum (data not shown). The antibodies used to detect {alpha}#$\i, http://www.100md.com
B-crystallin did not immunoprecipitate {alpha}#$\i, http://www.100md.com
B-crystallin; thus, experiments to immunoprecipitate {alpha}#$\i, http://www.100md.com
B-crystallin and detect immunoreactive HSP20 were not performed.#$\i, http://www.100md.com
Cellular Localization of the Small HSPs With Immunofluorescence Microscopy#$\i, http://www.100md.com
To additionally localize the small HSPs in rat heart, immunofluorescence microscopy was performed. Immunoreactive sarcomeric actin was present in distinct transverse bands (A). Immunoreactive {alpha}
B-crystallin was also present in transverse bands, but the staining was more punctate (B). Immunoreactive HSP20 was present in transverse bands, and there was also staining of the cell membranes (C). MKBP was not included because of the limited specificity of the MKBP antibodies. Neonatal cardiac myocytes were also stained with anti-actin and anti-HSP20 antibodies, and similar staining patterns were observed (E). There was no specific pattern of immunoreactivity using preimmune serum or no primary antibody (data not shown).px.4;t, 百拇医药
fig.ommittedpx.4;t, 百拇医药
Immunofluorescence localization of HSP20, {alpha}px.4;t, 百拇医药
B-crystallin, and MKBP in rat heart. Rat hearts were perfusion fixed, and sections were stained with anti-sarcomeric actin antibodies (1:100 dilution, A), anti–{alpha}px.4;t, 百拇医药
B-crystallin antibodies (1:100 dilution, B), or anti-HSP20 antibodies (1:100 dilution, C; magnification x40). Neonatal rat cardiac myocytes were stained with anti-sarcomeric actin antibodies (1:100 dilution, D) or anti-HSP20 antibodies (1:100 dilution, E; magnification, x100). Cy3-conjugated secondary antibodies were used, and the slides were imaged with a fluorescence microscope. These images are representative of staining 5 different rat hearts.
Activation of Cyclic Nucleotide Signaling Pathways Leads to an Increase in the Phosphorylation of HSP20 in Cardiac Myocytess9i, 百拇医药
To determine if activation of cyclic nucleotide signaling pathways leads to increases in the phosphorylation of HSP20, two-dimensional immunoblotting was performed. Increases in the phosphorylation of HSP20 in vascular smooth muscle leads to a shift of HSP20 from a basic to more acidic isoforms.7 Rat cardiac myocytes were equilibrated in bicarbonate buffer for 1 hour. The myocytes were then treated with buffer alone or with the NO donor sodium nitroprusside (10 µmol/L, 10 minutes). The cells were homogenized and separated by two-dimensional electrophoresis, transferred to Immobilon, and probed with anti-HSP20 antibodies. Blots from cells treated with buffer alone demonstrated a single point of immunoreactive protein with a relative mobility of 20 kDa and an isoelectric focusing point of 6.5 (A). Blots from strips treated with sodium nitroprusside demonstrated a single point of immunoreactive protein with a relative mobility of 20 kDa and an isoelectric focusing point of 5.6 (B). These isoelectric values are consistent with nonphosphorylated and phosphorylated HSP20, respectively.5,7
fig.ommittedgy, 百拇医药
HSP20 is phosphorylated by activation of cyclic nucleotide signaling pathways in neonatal ventricular myocytes. Cardiac myocytes were treated with PBS (A) or sodium nitroprusside (10 µmol/L for 10 minutes) (B). The cells were then homogenized, solubilized, and separated by 2-dimensional electrophoresis. The proteins were then transferred to Immobilon and probed with anti-HSP20 antibodies (1:1000 dilution). The relative mobility of molecular weight standards is indicated to the left of each panel, and the mobility of IEF standards is on the top of panel B. The arrows represent immunoreactive HSP20. This blot is representative of 3 separate experiments.gy, 百拇医药
Phosphorylated Peptide Analogues of HSP20 Leads to an Increase in the Rate of Shortening in Cardiac Myocytesgy, 百拇医药
To determine if HSP20 has a direct role in myocyte function, a model of transient permeabilization of cultured myocytes was used.22 The rate of shortening and lengthening in unloaded isolated cells was used as a measure of contraction. Introduction of the phosphorylated peptide analogue of HSP20 resulted in a significant increase in the rate of shortening (37.6±2.4%, A). Similar increases in the rate of shortening occurred after treatment with sodium nitroprusside (10 µmol/L, 33.5±5.3%). In experiments where the myocytes were permeabilized in the absence of peptide (sham, 1.1±0.5% increase, A) or in the presence of scrambled phosphorylated peptide (5.9±1.9% increase, A) or nonphosphorylated peptide (5.5±2.4%, A), there was no significant change in the shortening rate.
fig.ommitted)i, 百拇医药
The effect of phosphopeptide analogues of HSP20 on myocyte function. The basal rate of shortening and lengthening of unloaded isolated cardiac myocytes was determined by computer-assisted digital microscopy imaging techniques. The cells were then transiently permeabilized and incubated with no peptide (sham, SM); N-PRKSphosLWALGRPLA (SC, a scrambled phosphorylated peptide); N-WLRRAAAPLPGLK (NP, a nonphosphorylated peptide); or N-WLRRASphosAPLPGLK (PS, the phosphoHSP20 peptide analogue). After permeabilization, the cells were placed back on the microscope stage and the rate of shortening and lengthening was again determined. The data represent the percent increase in rate of change over basal rate (percent increase in rate, A; n=25 cells per group from 5 different experiments; *P<0.05). With the use of digital camera and Video Savant software, images of individual cells were captured at 30 frames per second before (PRE) and after (POST) permeabilization and introduction of the PS peptide analogue. The time from contraction (maximal shortening) to relaxation (maximal lengthening) was measured (relaxation time in seconds; B, n=16 cells from 5 different experiments; *P<0.05).
Because phosphorylated HSP20 is associated with relaxation of vascular smooth muscle, we hypothesized that phosphopeptide analogues of HSP20 increased shortening rate by increasing the rate of relaxation of the cardiac myocytes. To determine the rate of relaxation of the cardiac myocytes, contractile properties were analyzed with the use of a digital camera and Video Savant software. The times for contraction and relaxation were measured before and after the transient permeabilization in the presence of peptide analogues. There was a significant decrease in the time of relaxation in the cells exposed to the phosphopeptide analogue of HSP20 (B). There were no significant changes in the relaxation rate in myocytes permeabilized in the absence of peptide (0.058±0.005 seconds) or incubated in the presence of the scrambled phosphorylated peptide (0.055±0.006 seconds).h^uj, 百拇医药
Calcium Transientsh^uj, 百拇医药
Because myocyte contractility at the level of the sarcomere is regulated by Ca2+ transients, we next examined Ca2+ fluxes in the transiently permeabilized myocytes with the Ca2+ fluoroprobe, fura-2. For these experiments, cultured myocytes were permeabilized before loading with fura-2. The results demonstrated a significant decrease in the time constant for exponential ({tau} ) decay of the Ca2+ transients in the group that was permeabilized in the presence of the phosphopeptide analogues of HSP20 (0.104±0.005 seconds, n=16; B) compared with the group treated with the scrambled phosphopeptide (0.236±0.011 seconds, n=18; B) or the myocytes permeabilized in the absence of any phosphopeptide (0.242±0.021 seconds, n=23). There were no differences in the peak systolic Ca2+ transients in the myocytes incubated with the HSP20 phosphopeptide analogue compared with the scrambled phosphopeptide analogues (P>0.05; A). However, the permeabilization with either of the phosphopeptides resulted in a decrease in the peak magnitude of the Ca2+ transient that was evident when comparing myocytes permeabilized with scrambled phosphopeptide (1.05±0.02 340/380 ratio units) or phosphopeptide HSP20 analogue (1.01±0.02) to permeabilized myocytes in the absence of peptide (1.16±0.02; P<0.05). These data indicated that permeabilization with phosphopeptides resulted in a nonspecific decrease in the magnitude of the transients. The diastolic Ca2+ level was not significantly different in any of the 3 groups.
fig.ommittedrcd*, 百拇医药
. The effect of phosphopeptide analogues of HSP20 on Ca2+ transients. Myocytes cultured on glass coverslips were permeabilized with HSP20 or scrambled phosphopeptides or permeabilized in the absence of peptides just before loading with fura-2 AM. Data were collected from individual rhythmically beating myocytes (A; ratio of light emitted at 510 nm when alternately excited at 340 and 380 nm). For each myocyte, data were collected for 20 to 25 seconds and used only if the basal level and the peak magnitudes of the Ca2+ transients remained stable over this period. The phosphorylated HSP20 analogue resulted in a significantly faster rate of decline of Ca2+ transient when determined by fitting the declining phase of the transient by a first-order exponential (B). For each data set, the time constants for the decay () were determined for 5 consecutive Ca2+ transients and averaged. The data were collected from 16 to 23 myocytes per group in 3 separate experiments (see text; *P<0.05).rcd*, 百拇医药
Discussionrcd*, 百拇医药
The small heat shock proteins share considerable homology and are often found in association with other small heat shock proteins. Despite the sequence homology, the antibodies used in these studies were specific for the individual heat shock protein (). The small HSPs HSP20, {alpha}
B-crystallin, and MKBP were predominantly cytosolic proteins, although some {alpha}3$6s^, 百拇医药
B-crystallin was in a particulate fraction (). Molecular sieving columns suggested that {alpha}3$6s^, 百拇医药
B-crystallin and HSP20 coexist in a macromolecular aggregate of {approx}3$6s^, 百拇医药
200 kDa (A). MKBP was in a much smaller aggregate (60 to 70 kDa). This association was confirmed in that {alpha}3$6s^, 百拇医药
B-crystallin coimmunoprecipitated with HSP20 (B). Immunofluorescence microscopy demonstrated that {alpha}3$6s^, 百拇医药
B-crystallin and HSP20 had a staining pattern of distinct transverse bands similar to the pattern observed after staining for sarcomeric actin (). Thus, both biochemical analyses and immunofluorescence microscopy suggest that HSP20 and {alpha}3$6s^, 百拇医药
B-crystallin are associated proteins in adult rat hearts. Other studies have suggested that HSP20 is an actin-associated protein in vascular smooth muscle.18,19 The localization of the small heat shock proteins to specific cytoskeletal domains suggests a role for these proteins in regulating cytoskeletal dynamics.
HSP25, HSP20, and {alpha}$z1, 百拇医药
B-crystallin can be posttranslationally modified by phosphorylation. HSP20 is phosphorylated by cAMP-dependent protein kinase (PKA) and cGMP-dependent protein kinase (PKG).7 Increases in the phosphorylation of HSP20 are associated with relaxation of vascular and skeletal muscle.4,5,7 In the present investigation, we demonstrate that treatment of neonatal ventricular tissue with sodium nitroprusside leads to increases in the rate of shortening and increases in the phosphorylation of HSP20 (). The addition of phosphopeptide analogues of HSP20 into transiently permeabilized cardiac myocytes led to increases in the rate of shortening of the myocytes (). These results are consistent with previously reported findings demonstrating that the NO-cGMP pathway increases beat rate by stimulating the hyperpolarization-activated pacemaker current, If.27 The present results suggest that the mechanism of NO stimulation of heart rate via If involves phosphorylation of HSP20 and that phosphorylated HSP20 may have a direct effect on If channels. The increased rate of shortening was also related to increases in the rate of relaxation of the myocytes (). Although there was no change in the magnitude of the Ca2+ transient after treatment with the phosphopeptide analogues of HSP20, there was an increase in the rate of decline of the Ca2+ transient (). This suggests that the phosphopeptide analogue of HSP20 facilitates the increased rate by stimulating a more rapid uptake of Ca2+ by the sarcoplasmic reticulum. Taken together, these data suggest that HSP20 may have a direct role in modulating the lusitropic actions of NO and NO donors.
In summary, HSP20 is biochemically associated with {alpha}}, http://www.100md.com
B-crystallin and localizes to distinct transverse bands in a similar pattern as {alpha}}, http://www.100md.com
B-crystallin and sarcomeric actin. The possible association of HSP20 and {alpha}}, http://www.100md.com
B-crystallin with actin suggests that these two small heat shock proteins may be involved in modulating cytoskeletal or contractile dynamics of cardiac myocytes. Specifically, our results show that the addition of phosphorylated peptide analogues of HSP20 leads to increases in the rate of shortening, which was associated with a more rapid uptake of Ca2+ in cardiac myocytes. This suggests that HSP20 may have a physiological role in cardiac myocyte function.}, http://www.100md.com
Acknowledgments}, http://www.100md.com
This work was supported by a VA Merit Review Award and NIH grant RO1 HL58027 to Dr Brophy and NIH grants RO1 HL 58861 and PO1 HL 36059 (Project 2) to Dr Creazzo. Dr Pipkin was the recipient of the Society of University Surgeons-Ethicon Scholarship.
Received September 26, 2002; accepted September 30, 2002.{[9!, http://www.100md.com
References{[9!, http://www.100md.com
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