This study deals with the role of glutathione transferase (GST)-mediated conjugation of (+)-7 beta,8 alpha-dihydroxy-9 alpha,10 alpha-oxy-7,8,9,10- tetrahydrobenzo[a]pyrene (BPDE) in two mammalian cell lines, human mammary carcinoma cells (MCF-7) and rat hepatoma cells (H4IIE), in relation to their capacity to metabolize (-)-trans-7,8-dihydroxy-7,8-dihydrobenzo[a]pyrene [(-)-BP-7,8-diol] to products that induce mutations in co-cultivated V79 cells. Both MCF-7 and H4IIE cells metabolized (-)-BP-7,8-diol to BPDE, but mutations in co-cultivated V79 cells were only detected with MCF-7 cells. However, depletion of glutathione (GSH) in H4IIE cells increased the mutagenicity of (-)-BP-7,8-diol to a similar level to that found with MCF-7 cells. Measurements of GST activity using GSH and post-microsomal supernatants from H4IIE, V79 and MCF-7 cells indicated a substantial difference in conjugation capacity. Although preparations from all three cell-lines showed GST activity with 1-chloro-2,4-dinitrobenzene as the substrate, GST activity towards BPDE could only be detected in supernatants from H4IIE cells. This is consistent with the presence of GST 7-7 an isoenzyme highly efficient in catalysing BPDE-GSH conjugation. The difference in GSH-conjugation activity towards BPDE was confirmed using intact H4IIE and MCF-7 cells in culture. These results indicate that GSH-conjugation plays a pivotal role in mutagenesis induced by polycyclic aromatic hydrocarbons (PAH). Accordingly, a deficiency in GSH-conjugation capacity may be regarded as one important factor in defining a target cell population with an increased risk for tumour initiation following exposure to PAH.
Syrian Golden hamster dams were administered 203Hg-labelled methyl mercury (MeHg; 1.6 mumol/kg) 1 day after parturition and milk was collected twice during the 1st week. The excretion of 203Hg in milk and the uptake, retention and tissue distribution of 203Hg in the pups was studied using gamma counting. The fraction of inorganic Hg in milk and in the kidneys of the pups was determined following separation of inorganic Hg and MeHg by ion exchange chromatography. The concentration of 203Hg in milk on the 1st day after MeHg administration was 0.12 nmol/g. 203Hg was mainly (80-90%) excreted as MeHg during the first 6 days of lactation. The whole body and tissue concentration of 203Hg in the pups increased for 10-15 days and decreased thereafter. The content of 203Hg in the pelt and the fraction of inorganic Hg in the kidney increased throughout the study period (4 weeks). The excretion of MeHg in milk corresponded to at least 5% of the dose administered to the dam. Our study demonstrates that breast milk may be a significant source of MeHg exposure during the critical neonatal period.
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