Widespread loss of heterozygosity (LOH) in cancer cells is often thought to result from chromosomal instability caused by mutations affecting DNA repair/genome maintenance; however, the origin of LOH in most tumors is unknown. In a recent study, we examined the ability of carcinogenic agents to induce LOH in diploid mouse embryo-derived stem (ES) cells. Brief exposures to nontoxic levels of several carcinogens stimulated genome-wide LOH, with maximum per-gene frequencies approaching one percent. These results suggest that LOH contributes significantly to the carcinogenicity of a variety of mutagens, and that genome-wide LOH may result from prior exposure to genotoxic agents rather than from a state of chromosomal instability during the carcinogenic process. Mechanisms in stem cells that influence carcinogen-induced LOH are likely to play central roles in the etiology of nonhereditary cancers that often arise after extensive carcinogen exposures.
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