Differential effects of estrogen on luteinizing hormone-releasing hormone gene expression in slice explant cultures prepared from specific rat forebrain regions.

Five serially sectioned tissue slices (400 microns) from the preoptic area/hypothalamus of postnatal day 4 rats were cultured using a slice explant roller culture technique. After 18 days in culture, these slices thinned sufficiently to allow immunocytochemical and in situ hybridization histochemical assays for LHRH peptide and LHRH mRNA, respectively. Large numbers of neurons containing mRNA encoding LHRH were detected in these slices using in situ hybridization histochemistry (ISHH). These 35S-labeled cells were distributed in the cultured slices in a pattern similar to that found with LHRH immunocytochemistry and ISHH in vivo, indicating that LHRH neurons were maintained in these cultures in an organotypic manner. Densitometric single cell analyses after ISHH of the culture slices were performed using a Loats image analysis system, so as to provide a density value per cell (density/cell). Comparisons of these density values from the slice explants cultured in presence or absence of 10(-7) M estradiol found that: 1) under basal (control) culture conditions there were no consistent differences in the frequency distributions of the density/cell values between all the five slices derived from either male or female rats, 2) mean density/culture values under control conditions did not differ significantly between slices and sexes, 3) the presence of estradiol in the culture media resulted in an overall decrease in density/cell values, with the most significant decrease occurring in slice 3 which is comparable to the level of the organum vasculosum lamina terminalis/rostral preoptic area (OVLT/rPOA) in vivo, and 4) this decrease in density/cell values in slice 3 due to estradiol treatment, was greater in cultures derived from female vs. male tissues.(ABSTRACT TRUNCATED AT 250 WORDS)