Are immediate early genes involved in gonadotropin-releasing hormone receptor gene regulation? Characterization of changes in GnRH receptor (GnRH-R), c-fos, and c-jun messenger ribonucleic acids during the ovine estrous cycle.

GnRH regulates the secretion and synthesis of gonadotropins by binding to specific receptors located in the plasma membrane of the pituitary gonadotroph. Like the concentration of the signaling ligand GnRH, the number of GnRH receptors (GnRH-R) varies dynamically with the changing endocrine milieu during the ovine estrous cycle. With the recent success in cloning of the mammalian GnRH-R gene, it is becoming increasingly evident that some of the changes in GnRH-R numbers may be mediated at least in part via changes in GnRH-R gene transcription.

Pit-1/ghf-1 transcription factor expression in rodent pituitaries.

The Pit-1/GHF-1 (Pit-1) transcription factor is important for the development of anterior pituitary cells that produce GH and PRL. We examined the expression of Pit-1 mRNA in pituitary tissues from rats and mice. Analysis of pituitaries from normal and GHRH transgenic mice showed that Pit-1 transcripts were readily detected in normal, hyperplastic, and neoplastic pituitaries.

Circulating bioactive follicle-stimulating hormone and less acidic follicle-stimulating hormone isoforms increase during experimental induction of puberty in the female lamb.

The pubertal process with its multifaceted neuroendocrine control provides an excellent model for the study of the regulation of FSH heterogeneity. We tested the hypothesis that during the pubertal transition in the female lamb 1) an increase in both pituitary and circulating bioactive FSH concentrations occur and 2) that the increase in bioactivity is associated with a change in the distribution pattern of both pituitary and circulating FSH isoforms. Pituitary and serum immunoreactive (I), and bioactive (B, Sertoli cell bioassay) FSH concentrations were measured in six prepubertal lambs (18 +/- 1 weeks, 29.

Effect of nutritional repletion on pituitary and serum follicle-stimulating hormone isoform distribution in growth-retarded lambs.

Using nutritionally restricted ovariectomized lambs, we tested the hypothesis that nutritionally regulated endogenous increases in GnRH secretion (as assessed by LH pulsatility) not only alter the quantity of FSH present in the pituitary and serum, but also alter the pituitary and serum FSH isoform distribution. Eleven lambs were nutritionally restricted from weaning and ovariectomized at 12 wk of age. Beginning at 56 wk, 6 were fed ad libitum for 14 days, and the other 5 were continued on the restricted diet.

The effects of estrogen on prolactin gene methylation in normal and neoplastic rat pituitary tissues.

The effects of estrogen treatment on rat prolactin (PRL) gene methylation were analyzed in normal pituitaries and in three transplantable rat pituitary tumors. Northern analysis showed increased PRL mRNA expression in estrogen-treated pituitary and in MtT/F4 and MtT/F-DMBA tumors. Prolactin mRNA amounts in MtT/W15 tumor were decreased by estrogen treatment.