The ovarian steroid progesterone affects reproductive physiology by regulating the expression of specific genes in target tissues. In an attempt to address the question of whether the ovary itself is a target tissue for progesterone action, we have examined the localization and regulation of progesterone receptor (PR) mRNA in the rat ovary. We used the polymerase chain reaction to clone the steroid-binding domain of the rat PR from uterine cDNA and used this as a probe to isolate a larger cDNA from a rat placental cDNA library. We used RNA filter hybridization, a quantitative reverse transcription-polymerase chain reaction amplification assay, and in situ hybridization to detect PR mRNA in the rat ovary. Expression of the PR gene was initially studied in an immature animal model; 23-day-old rats were treated with either PMSG or PMSG followed by hCG. We found little or no PR mRNA in the ovaries of control or PMSG-treated animals; however, the mRNA was highly expressed in the granulosa cells of large follicles in the ovaries of animals treated with PMSG followed by hCG. Other cell types, including thecal and interstitial cells, did not express detectable levels of PR mRNA. The PR mRNA was induced more than 20-fold in the immature ovary 5 h after hCG administration and was down-regulated to near-basal levels by 12 h after hCG administration. In a subsequent series of experiments, we examined PR gene expression in adult rats during the estrous cycle. The expression of PR mRNA was transient and was tightly coupled to the preovulatory LH surge on proestrous evening. PR mRNA was localized to the granulosa cells of mature ovarian follicles during the estrous cycle. In cycling animals treated with pentobarbital to block the preovulatory LH surge, no induction of PR mRNA on proestrous evening was observed. This transient, hormonally regulated, and cell-specific expression of the PR gene in the rat ovary strongly suggests an important intraovarian function for progesterone during the rat reproductive cycle.
Although hypothalamic GnRH release is known to be modulated by neural and hormonal factors, the relationship between altered GnRH secretion and GnRH synthesis remains unclear. In an attempt to address this question, we examined GnRH gene expression in the rat hypothalamus using in situ hybridization histochemistry. An 25S-labeled antisense RNA probe was used to identify neurons expressing GnRH mRNA in an area that included the diagonal band of Broca, the organum vasculosum of the lamina terminalis, and the preoptic area. The number of GnRH mRNA-expressing cells was determined at various times during the rat estrous cycle. During proestrus, the number of GnRH mRNA-expressing cells decreased somewhat at 1400-1600 h, increased significantly at 1800 h (the time of the LH surge), then gradually returned to basal levels at 2200 h. Expression did not change substantially at other times during the estrous cycle. To understand this close temporal relationship between the LH surge and increased GnRH mRNA levels, we examined GnRH gene expression in proestrous animals in which the LH surge was blocked with pentobarbital. Pentobarbital treatment blocked the increase in the number of GnRH mRNA-expressing cells normally observed at 1800 h in saline-treated controls, suggesting that the increase in GnRH gene expression is closely coupled to secretion of GnRH from the hypothalamus. Finally, we addressed the question of whether ovarian steroids have direct effects on GnRH gene expression by examining GnRH mRNA levels in ovariectomized steroid-treated rats at a time before (1100 h) and a time after (1800 h) hypothalamic GnRH hypersecretion. At 1100 h, no significant changes were observed, but at 1800 h, estrogen-treated rats showed a significant increase in both the number of GnRH mRNA-expressing cells and serum LH levels. This suggests that estrogen influences GnRH gene expression indirectly, perhaps by altering hypothalamic GnRH release. Our results in each of these models suggest that GnRH mRNA levels increase in response to GnRH hypersecretion at the time of the LH surge.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.
hi@scite.ai
10624 S. Eastern Ave., Ste. A-614
Henderson, NV 89052, USA
Copyright © 2024 scite LLC. All rights reserved.
Made with 💙 for researchers
Part of the Research Solutions Family.