Several intermediate forms in the processing of rat lutropin subunits as shown by sodium dodecyl sulphate polyacrylamide gel electrophoresis

Testosterone inhibits the basal and gonadotropin-releasing hormone-stimulated synthesis and release of newly synthesized alpha- and lutropin (LH) beta-subunit but not release of stored LH in cultured rat pituitary cells

To further explore the mechanism of steroid feedback in male, the effects of testosterone (T) and gonadotropin-releasing hormone (GnRH) on the rates of alpha- and lutropin (LH)beta-chain synthesis, neosynthesized subunits and radioimmunoassayable LH release into the medium were studied in the cultures of anterior pituitary cells from orchiectomized and intact rats. Polypeptides were [35S]methionine-labeled, immunoprecipitated separately in the medium and cells, then after SDS-PAGE precisely quantified. The total (medium + cells) radioactivity incorporated in the absence of GnRH into alpha- and LH beta-subunit was increased in orchiectomized rat cells vs. intact rat cells. GnRH stimulated the synthesis of both subunits, whether cells were from normal or castrated rat. T suppressed basal and GnRH-enhanced synthesis of both subunits in castrated rat cells. The values became closed to those observed in the normal rat cells. Also release of neosynthesized subunits from castrated rat cells into the culture medium was inhibited by T. In contrast, T did not change the basal and GnRH-induced radioimmunoassayed LH release. These results show that T can inhibit directly, at the pituitary level, alpha- and LH beta-subunit synthesis and neosynthesized but not stored LH release. They could explain, at least in part, no correlation between modifications of GnRH and LH secretion observed in vivo in response to T replacement.

[Focus on the biogenesis of hypophyseal gonadotropins]

We have studied the regulation of the biosynthesis of pituitary gonadotropins in the rat by gonadal steroids and a hypothalamic hormone, GnRH. The methodology used for studying the action of steroids, was either cell-free translation of pituitary messenger RNAs, or hybridization (Northern blot) with synthetic oligodeoxynucleotides (ODN), and for studying the effect of GnRH, primary anterior pituitary cell culture. Our results show that gonadectomy increases and injection of gonadal steroids into gonadectomized rats diminishes the rate of synthesis of the gonadotropin subunit precursors. Progesterone acts only after induction of its pituitary receptors in ovariectomized rats with estradiol benzoate. Thyroxine modulates the action of steroids. Hybridization experiments suggest that gonadal steroids act on the expression of genes encoding the precursors of gonadotropin subunits. GnRH significantly increases incorporation of the labeled amino acids into polypeptide chains of both alpha and LH beta subunits. Intracellular mediators of hormone action, such as cyclic AMP and diacylglycerols, mimic the stimulatory action of GnRH on the synthesis of LH subunits. However, we have no evidence that these products intervene in the effect of GnRH on the LH subunit synthesis. In conclusion, the synthesis of LH and FSH subunits is regulated, with opposite effects, by gonadal steroids which exert their negative control at the genomic level and by GnRH which proceeds via different, yet unknown mechanisms.