Cohen S M, Ellwein L B
University of Nebraska Medical Center, Department of Pathology and Microbiology, Omaha 68198.
Environ Health Perspect. 1993 Dec;101 Suppl 5(Suppl 5):111-3. doi: 10.1289/ehp.93101s5111.
A multistage, probabilistic, biologically based model of carcinogenesis has been developed involving qualitative and quantitative aspects of the process. A chemical can affect the risk of cancer by directly damaging DNA and/or increasing the number of cell divisions during which errors in DNA replication can occur. Based on this model, carcinogens are classified as genotoxic versus nongenotoxic; nongenotoxic chemicals are further divided on the basis of whether or not they act through a specific cell receptor. Nongenotoxic compounds, particularly those acting through a nonreceptor mechanism, are likely to have dose and/or species-specific thresholds. This classification also implies the existence of chemicals that will be carcinogenic at high doses in animal models, but because of dose and/or mechanistic considerations, will not be carcinogenic to humans at levels of exposure. N-[4-(5-nitro-2-furyl)-2-thiazolyl] formamide (FANFT) and 2-acetylaminofluorene (AAF) are classical genotoxic bladder carcinogens that also cause proliferative effects at higher doses. Although there is an apparent no-effect level for the urinary bladder carcinogenicity of these two compounds at low doses, in reality, DNA adducts form at these low levels, and it is likely that there is a cancer effect (no threshold), but it is below the level of detection of the bioassay. These conclusions are based on studies involving multiple doses and time points in rodents, including results from the ED01. Pellets implanted directly into the rodent bladder lumen or calculi formed in the urine as a result of an administered chemical cause abrasion of the urothelium, and a marked increase in cell proliferation and cell number, and ultimately tumors.(ABSTRACT TRUNCATED AT 250 WORDS)
已经建立了一个基于生物学的多阶段概率致癌模型,该模型涉及该过程的定性和定量方面。一种化学物质可通过直接损伤DNA和/或增加DNA复制过程中可能出现错误的细胞分裂数量来影响癌症风险。基于此模型,致癌物被分为遗传毒性致癌物和非遗传毒性致癌物;非遗传毒性化学物质根据其是否通过特定细胞受体起作用进一步细分。非遗传毒性化合物,特别是那些通过非受体机制起作用的化合物,可能具有剂量和/或物种特异性阈值。这种分类还意味着存在一些化学物质,它们在动物模型中高剂量时会致癌,但由于剂量和/或作用机制的考虑,在人类暴露水平下不会致癌。N-[4-(5-硝基-2-呋喃基)-2-噻唑基]甲酰胺(FANFT)和2-乙酰氨基芴(AAF)是经典的遗传毒性膀胱致癌物,在较高剂量时也会产生增殖效应。尽管这两种化合物在低剂量时对膀胱致癌性似乎有一个明显的无效应水平,但实际上,在这些低水平下会形成DNA加合物,很可能存在癌症效应(无阈值),但低于生物测定的检测水平。这些结论基于对啮齿动物进行的涉及多个剂量和时间点的研究,包括ED01的结果。直接植入啮齿动物膀胱腔的药丸或因施用化学物质而在尿液中形成的结石会导致尿路上皮磨损,细胞增殖和细胞数量显著增加,最终导致肿瘤。(摘要截断于250字)