Vineis Paolo, Perera Frederica
Department of Epidemiology and Public Health, Imperial College London, London, United Kingdom.
Cancer Epidemiol Biomarkers Prev. 2007 Oct;16(10):1954-65. doi: 10.1158/1055-9965.EPI-07-0457.
The purpose of this review is to evaluate progress in molecular epidemiology over the past 24 years in cancer etiology and prevention to draw lessons for future research incorporating the new generation of biomarkers. Molecular epidemiology was introduced in the study of cancer in the early 1980s, with the expectation that it would help overcome some major limitations of epidemiology and facilitate cancer prevention. The expectation was that biomarkers would improve exposure assessment, document early changes preceding disease, and identify subgroups in the population with greater susceptibility to cancer, thereby increasing the ability of epidemiologic studies to identify causes and elucidate mechanisms in carcinogenesis. The first generation of biomarkers has indeed contributed to our understanding of risk and susceptibility related largely to genotoxic carcinogens. Consequently, interventions and policy changes have been mounted to reduce risk from several important environmental carcinogens. Several new and promising biomarkers are now becoming available for epidemiologic studies, thanks to the development of high-throughput technologies and theoretical advances in biology. These include toxicogenomics, alterations in gene methylation and gene expression, proteomics, and metabonomics, which allow large-scale studies, including discovery-oriented as well as hypothesis-testing investigations. However, most of these newer biomarkers have not been adequately validated, and their role in the causal paradigm is not clear. There is a need for their systematic validation using principles and criteria established over the past several decades in molecular cancer epidemiology.
本综述的目的是评估过去24年中分子流行病学在癌症病因学和预防方面取得的进展,以便为纳入新一代生物标志物的未来研究提供经验教训。分子流行病学于20世纪80年代初被引入癌症研究,人们期望它能帮助克服流行病学的一些主要局限性,并促进癌症预防。人们期望生物标志物能改善暴露评估,记录疾病发生前的早期变化,并识别出人群中对癌症更易感的亚组,从而提高流行病学研究识别致癌原因和阐明致癌机制的能力。第一代生物标志物确实有助于我们理解主要与遗传毒性致癌物相关的风险和易感性。因此,已经采取了干预措施和政策变革来降低几种重要环境致癌物带来的风险。由于高通量技术的发展和生物学理论的进步,现在有几种新的、有前景的生物标志物可用于流行病学研究。这些包括毒理基因组学、基因甲基化和基因表达的改变、蛋白质组学和代谢组学,它们允许进行大规模研究,包括探索性研究和假设检验研究。然而,这些更新的生物标志物大多尚未得到充分验证,它们在因果关系范式中的作用尚不清楚。需要根据过去几十年分子癌症流行病学确立的原则和标准对它们进行系统验证。