Gender- and Age-Specific Cytotoxic Susceptibility to Benzene Metabolites in Vitro

Benzene, a widely used compound, is a known carcinogen and hematopoietictoxicant. Several studies have shown gender and age differencesin the responses to benzene-induced hematotoxic-ity. It is notknown if these differences in response are due to age-or gender-associatedmetabolic differences or to age- or gender-associated differencesin the susceptibilities of the target cells. In order to addressthis issue, mouse colony-forming units-erythroid (CFU-e, anerythroid precursor cell particularly susceptible to benzenetoxicity) were cultured in the presence of either individualbenzene metabolites or binary mixtures of these metabolites.CFU-e were obtained from unexposed age-matched adult male andfemale (both virgin and pregnant) Swiss Webster (SW) mice andfrom SW male and female 16-day fetuses. The metabolites usedwere phenol, hydroquinone, catechol, benzoquinone, and trans,trans-muconic acid. The concentrations of the individual metabolitesused were 10, 20, and 40 µM. Binary mixtures of metaboliteswere prepared using the lowest concentrations of the individualmetabolites that caused cytotoxicity. These concentrations were10 µM for hydroquinone, catechol, and benzoquinone, and40 µM for phenol and muconic acid. In general, the CFU-efrom adult females (both virgin and pregnant) were more resistantto the toxic effects of the individual metabolites than CFU-efrom other subjects. CFU-e from adult males were more susceptibleto the cytotoxic effects of hydroquinone and benzoquinone thanCFU-e from other subjects and CFU-e from both male and femalefetuses were highly sensitive to the toxic effects of catechol.On the other hand, CFU-e from adult males were less susceptibleto the cytotoxic effects of catechol than CFU-e from other subjects.Similar results were observed with binary mixtures of metabolites.CFU-e from adult males were more susceptible to the binary mixturesthan CFU-e from virgin females and CFU-e from fetal males weremore susceptible than CFU-e from fetal females. In addition,CFU-e from fetuses were more resistant than CFU-e from adultsto the cytotoxic effects of those binary mixtures that did notcontain catechol. In contrast, binary mixtures containing catecholwere more toxic to fetal cells than to adult cells. These resultssuggest that differences in benzene hematotoxicity associatedwith gender and age may be due, at least in part, to intrinsicfactors at the level of the target cell rather than solely toage- or gender-related differences in the metabolism of benzene.