Prolactin

About: Prolactin is a research topic. Over the lifetime, 22356 publications have been published within this topic receiving 609537 citations. The topic is also known as: lactotropin, & PRL,.

Epidermal growth factor rapidly stimulates prolactin gene transcription

Abstract: Epidermal growth factor (EGF) was originally characterized as a growth factor for various cell types1,2 and was subsequently shown to affect a number of cellular and molecular processes3,4, of which many might be considered as a part of the pleiotropic growth response (enhanced uptake of glucose, uridine and amino acids and stimulated synthesis of protein, RNA and DNA). Very early responses to EGF, such as increased sodium fluxes5 and stimulation of tyrosine phosphorylation6, have been proposed to mediate some or all of EGF's effects. In a number of tissues, EGF has been shown to increase the synthesis of specific proteins7-10. We have investigated the effects of EGF on prolactin synthesis in the GH4 rat pituitary cell line to gain further insight into the mechanism of EGF's actions on cellular functions. Addition of EGF to GH4 cells results in a three- to sixfold stimulation of prolactin synthesis, as well as a partial inhibition of cell growth7,8. In this report, we demonstrate that the increased prolactin synthesis appears to be the result of a rapid stimulation of prolactin gene transcription by EGF. It is tempting to speculate that very early transcription by EGF. It is tempting to speculate that very early transcriptional effects on specific genes, such as reported here in te case of the prolactin gene in GH4 cells, may mediate some or all of the later effects of EGF on cell cycle regulation in those cells for which it serves as a growth factor.

Dopamine infusion acutely inhibits the tsh and prolactin response to trh

Abstract: Ten normal males were given 100 mug TRH, and blood samples obtained for serum TSH and serum prolactin. After a period of at least one week, the TRH test was repeated while the patients were receiving a dopamine infusion. Both the TSH and prolactin response to TRH were inhibited by dopamine. Dopaminergic neurons may act through the pituitary-portal system to play a role in the regulation of TSH and prolactin secretion.

Serum Prolactin During Various Physiological States and Its Relationship to Milk Production in the Bovine

Abstract: Serum prolactin was measured in 55 cows 2–4 hr before, immediately after and 1 hr after milking for the duration of lactation or week 44, whichever occurred first. Serum prolactin increased in response to stimuli associated with milking, but this response was largest at 8 weeks; of lactation (77 ng/ml) and then gradually decreased as lactation advanced until at 32 weeks prolactin was no longer released. As prolactin concentrations increased in the pre—milking serum samples the amount subsequently released by the milking stimulus was reduced (p < 0.01). The correlation between serum prolactin measured 2 to 4 hr before milking and milk yield was very low (r = -0.03), although similar calculations for samples collected immediately after and 1 hour after milking (r = 0.36 and 0.18, respectively) were significant (p < 0.01). Within—stageof— lactation correlations between serum prolactin and milk yield were very low and sometimes negative during early lactation, but after 12 to 24 weeks of lactation the correla...

Transgenic Mice Overexpressing the Prolactin Gene Develop Dramatic Enlargement of the Prostate Gland

Abstract: An altered endocrine status of elderly men has been hypothesized to be important for development of prostate hyperplasia. The present study addresses the question whether increased PRL expression is of importance for development of prostate hyperplasia in mice. Three lines of PRL transgenic mice were generated having serum levels of PRL of approximately 15 ng/ml, 100 ng/ml, and 250 ng/ml, respectively. These mice developed dramatic enlargement of the prostate gland, approximately 20 times the normal prostate weight and they had a 4- to 5-fold increased DNA content. Histologically, the prostate glands in the transgenic mice were distended from secretion, and the amount of interstitial tissue was increased. The levels oftestosterone and IGF-I were increased in the PRL transgenic animals. In mice overexpressing the bovine GH gene, displaying elevated IGF-I levels, the prostate gland was slightly larger compared with normal mice, indicating that the effect of PRL was not primarily mediated through elevated plasma IGF-I levels. The present study suggests that PRL is an important factor in the development of prostate hyperplasia acting directly on the prostate gland or via increased plasma levels of testosterone.

The mating-induced release of prolactin: a unique neuroendocrine response.

Abstract: I. Introduction IN THE RAT, the corpus luteum is formed on the morning of estrus in response to the surge of luteinizing hormone released on the previous day, proestrus. However, unlike other mammals whose corpora lutea secrete increasing amounts of progesterone for several days (1), the newly formed corpora lutea of the rat secrete progesterone for only 2 days after formation (2, 3). In the absence of all other input, the corpora lutea subsequently fail and progesterone secretion wanes (3). It has long been appreciated that rodent corpora lutea could be maintained by either coital stimulation (4) or injection of pituitary extracts containing prolactin (PRL) activity (5, 6). An overwhelming literature now indicates that the mating stimulus induces the release of PRL which in turn “rescues” the corpora lutea of the cycle and prolongs the ability of these structures to secrete progesterone (3, 7–11). The mating stimulus or copulomimetic stimuli applied to the uterine cervix with a glass rod or appropriately...