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Recent developments in gene transfer: risk and ethics
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     1 Clinical Trials Research Group, Biomedical Ethics Unit, Faculty of Medicine, McGill University, 3647 Peel Street, Montreal, QC, Canada H3A 1X1 jonathan.kimmelman@mcgill.ca

    Introduction

    The risk associated with human gene transfer has five conceptual characteristics that, although not unique, arise more often with this type of therapy (see box). Firstly, active agents rather than chemicals are used to transfer genetic material. These vectors (usually retroviruses or adenoviruses) are therefore potentially capable of propagating themselves, recombining with other viruses, or carrying out complex programmes.6 Secondly, gene transfer functions on the basis of genetic information rather than on chemical structure. Thus, whereas chemical structures indirectly affect genetic functions, gene transfer directly participates in gene expression. Although this partly accounts for its therapeutic potential, it also underscores the possible potency of risks. Thirdly, many agents act simultaneously as delivery devices through their vector as well as pharmacological agents through their transgene. Not only does this complicate the assessment of risk but each component can cooperate to worsen risks. For instance, the leukaemia that occurred in the X linked severe combined immunodeficiency trial may be attributable to the combined toxicity of the vector (which integrated near an oncogene) and the transgene (which may have helped transform T cells).7 Fourthly, gene transfer agents that stably modify a person's tissues can involve risks with long latencies. Continuous, life long exposure to transgenes or vectors increases the probability of subtle toxic properties becoming manifest over the long term. Finally, much of the toxicity related to gene transfer is mediated through the immune system. Immune over reaction resulted in the death of a participant in a trial of an adenovirus vector in 1999.8 Induced immunity against standard treatments (for example, factor IX protein in participants in the haemophilia B trial) or autoimmunity are also concerns with human gene transfer.

    Several methodological issues need consideration when testing the safety of gene transfer. Animal models, for example, present major problems because viruses that are pathogenic in humans often have different risk profiles in animals.9 A person's prior exposure to viruses similar to the vector can influence their response to gene transfer. This observation, combined with a non-linear dose-toxicity curve, led investigators in the 1999 adenovirus trial to conclude that the evaluation of vector safety was problematic in a traditional phase 1 trial design.8

    Few of these features are unique to gene transfer. For example, trials of live vaccines involve active agents, conventional drugs can be immunotoxic, and animal models often fail to predict toxicity. What makes the risk with gene transfer distinctive is the frequency with which these hazards arise in trials, their co-occurrence in a trial, and our limited experience of assessing and managing such hazards.

    Ethics of risk in clinical trials

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