BACKGROUND: Benzene is a ubiquitous toxic environmental pollutant. Biological effects have been detected as a result of low-level environmental exposures, suggesting that a large proportion of the population may potentially suffer ill health effects. Polymorphisms in genes involved in benzene metabolism are thought to influence individual susceptibility to various levels of benzene exposure. METHODS: Medline literature database search for articles relating to benzene exposure and polymorphisms in genes known to be involved in benzene metabolism (NQO1, CYP2E1, GSTT1, GSTM1 and MPO). Twenty-two reports were included in this review. RESULTS: A modest effect of the studied gene polymorphisms on the analyzed biomarkers was observed. GSTM1 and GSTT1 showed some consistent associations with both biomarkers of exposure and effect. CONCLUSION: Genetic polymorphisms on the benzene metabolism pathway should be taken into account when studying the biological effects of benzene exposure. Unique combinations of genetic polymorphisms may increase susceptibility of individuals and/or population subgroups. However, gene-gene interactions, and the biological effects of long-term and low-level exposure to benzene are not yet analyzed with well-designed studies that incorporate multiple biological end-points and multiple genes.
BACKGROUND:Benzene is a ubiquitous toxic environmental pollutant. Biological effects have been detected as a result of low-level environmental exposures, suggesting that a large proportion of the population may potentially suffer ill health effects. Polymorphisms in genes involved in benzene metabolism are thought to influence individual susceptibility to various levels of benzene exposure. METHODS: Medline literature database search for articles relating to benzene exposure and polymorphisms in genes known to be involved in benzene metabolism (NQO1, CYP2E1, GSTT1, GSTM1 and MPO). Twenty-two reports were included in this review. RESULTS: A modest effect of the studied gene polymorphisms on the analyzed biomarkers was observed. GSTM1 and GSTT1 showed some consistent associations with both biomarkers of exposure and effect. CONCLUSION: Genetic polymorphisms on the benzene metabolism pathway should be taken into account when studying the biological effects of benzene exposure. Unique combinations of genetic polymorphisms may increase susceptibility of individuals and/or population subgroups. However, gene-gene interactions, and the biological effects of long-term and low-level exposure to benzene are not yet analyzed with well-designed studies that incorporate multiple biological end-points and multiple genes.
Authors: Scott M Arnold; Juergen Angerer; Peter J Boogaard; Michael F Hughes; Raegan B O'Lone; Steven H Robison; A Robert Schnatter Journal: Crit Rev Toxicol Date: 2013-02 Impact factor: 5.635
Authors: Jian-Min Yuan; Sharon E Murphy; Irina Stepanov; Renwei Wang; Steven G Carmella; Heather H Nelson; Dorothy Hatsukami; Stephen S Hecht Journal: Cancer Prev Res (Phila) Date: 2016-04-20