The Tisch Cancer Institute and Institute for Translational Epidemiology, Mount Sinai School of Medicine, NY 10029, USA.
Ann Oncol. 2013 Apr;24(4):901-8. doi: 10.1093/annonc/mds543. Epub 2012 Nov 7.
The use of biological-based markers of exposure, intermediate effect, outcome, and susceptibility has become standard practice in cancer epidemiology, which has contributed to identification of several carcinogenic agents. Nevertheless, with the exception of biological agents, this contribution, in terms of providing sufficiently strong evidence as required by the International Agency for Research on Cancer (IARC) monographs, has been modest.
We discuss the overall contribution of molecular epidemiology to identification of carcinogens, with focus on IARC monographs.
For many carcinogens, valid biological markers of exposure and mechanisms of actions are not available. Molecular markers are usually assessed in single biological samples, which may not represent the actual exposure or biological events related to carcinogens. The contribution of molecular epidemiology to identification of carcinogens has mainly been limited to the carcinogens acting through a genotoxic mechanism, i.e. when carcinogens induce DNA damage. A number of factors, including certain hormones and overweight/obesity, may show carcinogenic effects through nongenotoxic pathways, for which mechanisms of carcinogenicity are not well identified and their biomarkers are sparse.
Longitudinal assessment of biomarkers may provide more informative data in molecular epidemiology studies. For many carcinogens and mechanistic pathways, in particular nongenotoxic carcinogenicity, valid biological markers still need to be identified.
在癌症流行病学中,使用基于生物学的暴露、中间效应、结果和易感性标志物已成为标准做法,这有助于确定几种致癌剂。然而,除了生物制剂外,就国际癌症研究机构 (IARC) 专论所要求的提供足够有力的证据而言,这种贡献是微不足道的。
我们讨论了分子流行病学在确定致癌物方面的总体贡献,重点是 IARC 专论。
对于许多致癌物,有效的暴露生物学标志物和作用机制尚不可用。分子标志物通常在单个生物样本中进行评估,而这些样本可能并不代表实际的暴露或与致癌物相关的生物学事件。分子流行病学在确定致癌物方面的贡献主要限于通过遗传毒性机制起作用的致癌物,即当致癌物诱导 DNA 损伤时。一些因素,包括某些激素和超重/肥胖,可能通过非遗传毒性途径表现出致癌作用,对于这些致癌机制尚未很好地确定,其生物标志物也很少。
对生物标志物的纵向评估可能会为分子流行病学研究提供更具信息量的数据。对于许多致癌物和机制途径,特别是非遗传毒性致癌性,仍需要确定有效的生物学标志物。
