The present study was aimed at examining, by reverse transcription polymerase chain reaction, the expression of germ cell-specific genes in cocultures of Sertoli cells with either pachytene spermatocytes (PS) or round spermatids (RS). In situ hybridization studies showed that the mRNAs encoding phosphoprotein p19 and the testis-specific histone TH2B were specifically expressed in PS whereas those encoding the transition proteins TP1 and TP2 were specific to RS. This resulted in p19:TP1 and TH2B:TP2 ratios that were much higher in PS fractions than in RS fractions prepared by elutriation. When PS or RS were seeded on Sertoli cell monolayers in bicameral chambers, both the number and the viability of the cells decreased during the coculture. However, both parameters were equal to, or higher than, 60% after 2 wk. In PS-Sertoli cell cocultures, the ratios of p19:TP1 and TH2B:TP2 decreased dramatically during the second week of culture; this was due not only to a decrease in the levels of p19 and TH2B mRNAs but also to an enhancement in the relative amounts of TP1 and TP2 as compared to the amounts present on the first day of the coculture. Conversely, both ratios remained low in RS-Sertoli cell cocultures; this was due to a decrease in the levels of the four mRNAs studied during the coculture period. DNA flow cytometry studies showed the occurrence of a haploid cell population (1C) in PS-Sertoli cell cocultures from Day 2 onward, together with a decrease in the tetraploid cell population (4C). No such changes were observed in Sertoli cell-only cultures. By contrast, the haploid population decreased 3-fold during the first week in RS-Sertoli cell cocultures. Immunocytochemical studies demonstrated further that 5-bromo-2'-deoxyuridine-labeled PS of stages V-VIII were able to differentiate into RS under the present coculture conditions. Hence, although clearly imperfect, the present coculture system should help to clarify the local regulations governing spermatogenesis and should allow easier study of spermatogenic cell gene expression.
Environmental contaminants are suspected to be involved in the epidemic incidence of metabolic disorders, food ingestion being a primarily route of exposure. We hypothesized that life-long consumption of a high-fat diet that contains low doses of pollutants will aggravate metabolic disorders induced by obesity itself. Mice were challenged from preconception throughout life with a high-fat diet containing pollutants commonly present in food (2,3,7,8-tetrachlorodibenzo-p-dioxin, polychlorinated biphenyl 153, diethylhexyl phthalate, and bisphenol A), added at low doses in the tolerable daily intake range. We measured several blood parameters, glucose and insulin tolerance, hepatic lipid accumulation, and gene expression in adult mice. Pollutant-exposed mice exhibited significant sex-dependent metabolic disorders in the absence of toxicity and weight gain. In males, pollutants increased the expression of hepatic genes (from 36 to 88%) encoding proteins related to cholesterol biosynthesis and decreased (40%) hepatic total cholesterol levels. In females, there was a marked deterioration of glucose tolerance, which may be related to the 2-fold induction of estrogen sulfotransferase and reduced expression of estrogen receptor α (25%) and estrogen target genes (>34%). Because of the very low doses of pollutants used in the mixture, these findings may have strong implications in terms of understanding the potential role of environmental contaminants in food in the development of metabolic diseases.
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