DNA-protein crosslink formation in rat nasal epithelial cells by hexamethylphosphoramide and its correlation with formaldehyde production.

Hexamethylphosphoramide (HMPA) is an aprotic polar solvent and nasal carcinogen in rats. The metabolism of HMPA to formaldehyde, another nasal carcinogen in rats, was found to be approximately 6 times greater in microsomes from olfactory tissues than from respiratory tissues (isolated from both male and female rats). HMPA was shown to induce formation of DNA-protein crosslinks (DPXLS) in isolated rat nasal epithelial cells. Using a filter binding assay, we demonstrated that microsomal activation is necessary for HMPA-induced crosslink formation between plasmid DNA and calf thymus histones, presumably through metabolic N-demethylation of HMPA and the formation of formaldehyde. Both formaldehyde production and DPXL formation were inhibited by pre-incubation of nasal mucosal extracts with metyrapone, an inhibitor of cytochrome P-450. Significant dose-dependent increases in DPXL formation were observed in respiratory and olfactory epithelial cells exposed to > or = 0.5 and 1 mM HMPA, respectively, for 3 h at 37 degrees C. This resulted in DPXL accumulation at 18-20% higher levels than untreated cells. Increases in DPXL formation in rat nasal epithelial cells cultured with 1 mM HMPA were inhibited by over 70% by co-administration of metyrapone. These data suggest that metabolic liberation of formaldehyde from HMPA is involved in the mechanism of HMPA-induced nasal carcinogenesis. Comparative studies showed formaldehyde to be more potent than HMPA in the induction of DPXL in nasal epithelium. However, induction of tumor formation after two years at 50 ppb HMPA and 6 ppm formaldehyde show the former to be active at several-fold lower concentrations. Therefore, other mechanisms are likely to be involved in HMPA nasal carcinogenesis.