Progesterone inhibits basal production of follicle-stimulating hormone in ovine pituitary cell culture

Surinder K. Batra, William L. Miller

Research output: Contribution to journalArticle

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Abstract

Progesterone (P4) regulation of FSH production was studied in dispersed ovine pituitary cell culture. FSH secretion into culture media was decreased by 30–70% in the presence of 10-7 m P4. The ED50 of P4 was 2 × 10-10 m. Decreased FSH secretion was observed as early as 9–12 h after treatment with P4 (10-7 m). FSH secretion rebounded to control levels after P4 was removed for 4 days. The intracellular FSH content also decreased after P4 treatment, suggesting that decreased FSH secretion is due to decreased biosynthesis. Two progesterone metabolites, 5α-dihydroprogesterone and 17α-hydroxyprogesterone, showed relative activities of 39% and 28%, respectively, compared to P4. Although testosterone (10-7 m) inhibited FSH secretion by 10%, it may have done so only via conversion to estradiol. Dihydrotestosterone, androstanedione, and cortisol had no effect on FSH secretion. P4 consistently showed activity in 2-day-old ovine culture, but its effect essentially disappeared by day 10 or 12 of culture. When insulin was included in the culture medium (medium 199 plus 10% charcoal-treated anestrous ewe serum), the effect of P4 was maintained for up to 20 days, and FSH production, in general, was augmented with insulin. These results indicate that P4 can specifically inhibit FSH production in ovine pituitary cell culture, but there is no long term maintenance of the P4 response unless insulin is present. Finally, it is known that 17β-estradiol also inhibits FSH production in ovine pituitary cultures. Therefore, our results establish that FSH production is a phenomenon that is regulated similarly by both estradiol and P4.

Original languageEnglish (US)
Pages (from-to)2443-2448
Number of pages6
JournalEndocrinology
Volume117
Issue number6
DOIs
StatePublished - Jan 1 1985

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Follicle Stimulating Hormone
Progesterone
Sheep
Cell Culture Techniques
Estradiol
Insulin
Culture Media
20-alpha-Dihydroprogesterone
17-alpha-Hydroxyprogesterone
Dihydrotestosterone
Charcoal
Hydrocortisone
Testosterone
Serum

ASJC Scopus subject areas

  • Endocrinology

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Progesterone inhibits basal production of follicle-stimulating hormone in ovine pituitary cell culture. / Batra, Surinder K.; Miller, William L.

In: Endocrinology, Vol. 117, No. 6, 01.01.1985, p. 2443-2448.

Research output: Contribution to journalArticle

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abstract = "Progesterone (P4) regulation of FSH production was studied in dispersed ovine pituitary cell culture. FSH secretion into culture media was decreased by 30–70{\%} in the presence of 10-7 m P4. The ED50 of P4 was 2 × 10-10 m. Decreased FSH secretion was observed as early as 9–12 h after treatment with P4 (10-7 m). FSH secretion rebounded to control levels after P4 was removed for 4 days. The intracellular FSH content also decreased after P4 treatment, suggesting that decreased FSH secretion is due to decreased biosynthesis. Two progesterone metabolites, 5α-dihydroprogesterone and 17α-hydroxyprogesterone, showed relative activities of 39{\%} and 28{\%}, respectively, compared to P4. Although testosterone (10-7 m) inhibited FSH secretion by 10{\%}, it may have done so only via conversion to estradiol. Dihydrotestosterone, androstanedione, and cortisol had no effect on FSH secretion. P4 consistently showed activity in 2-day-old ovine culture, but its effect essentially disappeared by day 10 or 12 of culture. When insulin was included in the culture medium (medium 199 plus 10{\%} charcoal-treated anestrous ewe serum), the effect of P4 was maintained for up to 20 days, and FSH production, in general, was augmented with insulin. These results indicate that P4 can specifically inhibit FSH production in ovine pituitary cell culture, but there is no long term maintenance of the P4 response unless insulin is present. Finally, it is known that 17β-estradiol also inhibits FSH production in ovine pituitary cultures. Therefore, our results establish that FSH production is a phenomenon that is regulated similarly by both estradiol and P4.",
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