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生长因子与心肌缺血及血管再生关系的研究进展
http://www.100md.com 《心血管病学进展》 2000年第2期
     作者:卫洪超 朱洪生

    单位:(上海第二医科大学附属仁济医院胸心外科 上海 200025)

    关键词:

    心血管病学进展000216文章编号:1004-3934(2000)02-0111-02 分类号:Q516;R541.4

    文献标识码:A

    Advance in Research of the Relation Between Growth Factor and Myocardium Ischemia and Vessel Growth

    WEI Hong-chao,ZHU Hong-sheng

    (Department of Thoracic Cardiac Surgery,The Affiliated Renji Hospital of Shanghai Second Medical University,Shanghai,200025)▲
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    基础与临床研究均表明,冠状动脉粥样硬化,必然导致程度不同的心肌缺血。在冠心病自然病程中,心肌能够逐渐建立起自身的侧枝循环,靠部分代偿性血管再生,适应或抵御心肌局部的缺血缺氧[1]。心肌缺血时的血管再生,现在认为,是由生长因子引起的血管新生。这些生长因子绝大部分是肽类生长因子家族的成员[2]。临床研究证明,靠再生新的血管以适应缺血变化的过程非常缓慢,且一般情况下,只能部分代偿冠状动脉阻塞引起的心肌缺血。因此,在血管成形术、冠状动脉旁路术不能奏效的时候,人为的增加心肌局部生长因子的浓度,对缓解以致解除心肌缺血有潜在的可行性。这种人工控制的血管再生的方法曾一度叫做“治疗性血管再生”,或“分子搭桥术”。有人在犬的心肌[3,4]、猪的心肌[5,6]、家兔后肢肌缺血模型[7-9]、大鼠的心肌及后肢肌缺血等模型[10,11]中,应用生长因子进行了实验性治疗。结果表明,缺血的骨骼肌可建立大量的侧枝循环;在心肌中,微血管密度的增加,会引起冠脉血流量的增加,梗塞面积的显著缩小及心功能的明显改善。
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    一种能够引起血管再生的生长因子是血管内皮生长因子(vascular endothelial growth factor;VEGF),它也可以使血管的通透性增加。VEGF是内皮细胞特异性的生长因子,在缺血组织及肿瘤组织中均有高度特异性。VEGF有五型,这是因为同一基因可产生五种类型的mRNA[12]。目前,VEGF-B[13]、VEGF-C[14]的基因已经克隆出来。但是它们在血管再生时对血管内皮细胞功能的调节机制尚未明了。现在知道。在机体缺氧或缺血条件下,VEFD-A表达上调[15,16],且这种作用发生在转录后水平[17]。研究发现[18],缺氧及缺血条件下,VEGF的受体KDR/Flt-1也上调。实验表明,这种作用不但发生在转录水平,而且在翻译水平及靶器官水平,VEGF的作用均有变化。Flt-1[19]的确切功能尚不清楚,但它可以诱导内皮细胞及单核细胞表达大量的组织因子。同时,Flt-1与单核细胞的趋化性有关[20]。VEGF应用于缺血肢体及缺血心肌有很强的再血管化作用。表现为组织灌注增加,肌肉的舒缩力显著增强[21]。另外,在血管成形术后,VEGF还可以促使血管内膜的再生及保护内膜不至于朔形[22,23]。除了KDR及Flt-1,另外两种受体,Tie-1及Tie-2在内皮细胞中也有特异性表达。这种表达在胚胎心血管系统的发育过程中起关键作用[24]。但它们在代偿性血管再生中的作用尚不清楚。
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    基本的成纤维细胞生长因子(bFGF)直接作用于平滑肌细胞及血管内皮细胞,但无细胞特异性[25]。bFGF是高效能的血管再生刺激因子,在不同的动物模型中都可引起血管再生[3-11]。但另有一些实验却得出相反的结果。仔细分析知道,这些实验的原始数据,如药物的剂量、用药的方式均不相同。因此,应用生长因子的时间点、药物剂量及用药方式的不同可能是产生两者差别的原因。bFGF除能使血管再生外,对心血管系统也有其它作用。在犬的冠状动脉阻塞后再通模型中,于冠脉内应用bFGF,术后第七天梗塞面积明显缩小,但没有发现新生血管[25]。近年来有人[26]用成纤维细胞生长因子(FGF)家族的另一成员FGF-5,介导以腺病毒载体进行FGF-5基因转移,用于治疗猪的心肌缺血,ECG等心功能指标测定结果显示有积极效果。但是,毛细血管的数量及密度与自身缺血前对照,统计学上没有显著差异。离体实验研究表明,VEGF及bFGF合并应用方可发挥最大的效能。另外,bFGF使VEGF表达上调[27]。然而,bFGF可以促进动脉粥样硬化的形成,血管内膜过度增厚[25,28]。这种特点可能会限制bFGF与VEGF的合并应用。同样,对于血小板源性生长因子(PDGF)来说,尤其是PDGF-BB对侧枝循环及血管间吻合支的形成有很强的刺激作用[28]。研究表明,血管内皮细胞可以表达PDGF的受体,介导PDGF引起血管再生。PDGF-BB可使bFGF、FGFR-1及VEGF上调。因此可以说PDGF,是血管再生的间接诱导剂[29]
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    缺血心肌或肢体中侧枝循环的形成,对心肌或骨骼肌收缩功能的恢复无疑是有利的。但在动脉粥样硬化斑块中,新生血管的增加是斑块破裂的原因之一[30]。在动脉粥样硬化斑块中,哪种物质引起血管再生,尚不清楚。动脉壁平滑肌细胞可以产生VEGF,所以VEGF可能参与粥样斑块的形成与发展。同样,FGF家族的另一位成员FGF-1与动脉粥样硬化斑块的进展亦有密切关系。FGF-1在血管壁中的过度表达会引起新毛细血管的形成。研究表明,斑块内血管的再生与新内膜的过度形成有关。斑块内过多的血液灌注势必会加速动脉粥样硬化进展[30]。因此,抑制粥样硬化斑块内的血管再生,对缓解动脉粥样硬化的严重程度,防治并发症有积极意义。■

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    收稿日期:1999-01-20, 百拇医药