Regulation of steady-state follistatin mRNA levels in rat granulosa cells in vitro.

The regulation of steady-state follistatin mRNA levels by different pituitary hormones and peptide factors was examined in granulosa cell cultures derived from diethylstilboestrol-treated immature rats. Cytosolic RNA from cell cultures was prepared by lysis and equal amounts of RNA from all samples were analysed with a solution-hybridization assay using a 32P-labelled antisense probe corresponding to a part of exon 5 together with a part of the 5' end of exon 6 of the rat follistatin gene. In addition, a specific 35S-labelled probe for cyclophilin was used as an internal standard. The results show that 5 micrograms FSH/l for 24 to 72 h stimulated steady-state follistatin mRNA levels, reaching levels 18.5-fold higher than controls. LH (0.2-100 micrograms/l) had only minor effects on follistatin mRNA levels in FSH-primed granulosa cells and prolactin, GH and IGF-I did not show any significant effects. Activin raised basal as well as FSH-stimulated steady-state follistatin mRNA levels up to ten- and twofold above controls respectively, whereas epidermal growth factor was found to inhibit FSH-stimulated follistatin mRNA levels in a dose-dependent manner. It is concluded that follistatin mRNA levels in granulosa cells are regulated by FSH rather than LH, and that the stimulation by FSH can be inhibited by epidermal growth factor but enhanced by activin. Activin alone was also capable of stimulating follistatin mRNA.

Serum FSH-suppressing activity of human recombinant inhibin A in male and female rats.

After a single i.v. injection of purified human recombinant inhibin A (hr-inhibin) or bovine follicular fluid (bFF) to 3-day castrated 35-day-old male rats, serum FSH concentrations fell (P less than 0.05) between 4 and 8 h, returning to control concentrations by 16-24 h. Administration of graded doses of hr-inhibin (0.625-10 micrograms/100 g body wt) and bFF (31.3-250 microliters/100 g body wt) resulted in a parallel dose-related suppression of serum FSH with a maximum suppression 50% of controls. Similar experiments in 2-day ovariectomized 85-day-old female rats also showed a dose-related suppression with a maximum suppression approximately 30% of controls. Serum LH concentrations remained unchanged in all studies with male or female rats. The biological activity of hr-inhibin in vivo was determined for male and female rats in terms of a standard bFF preparation defined by an in-vitro bioassay based on the suppression of FSH content in rat pituitary cells in culture. In males hr-inhibin exhibited a biopotency of 407 (159:1050; fiducial limits) U/micrograms protein and in females the biopotency was 358 (226:565) U/micrograms protein. These potencies are lower than that measured in the in-vitro bioassay (1120 (1040:1210) U/micrograms protein) and differences between in-vivo and in-vitro systems were attributed to the use of bFF rather than a purified human inhibin preparation as standard. These results indicate that hr-inhibin behaves similarly in vivo to bFF. Furthermore, based on the large working range and relatively good precision, the female rat system provides a good basis for an inhibin in-vivo bioassay method.

Ovarian inhibin content in immature female rats following hypophysectomy: control by exogenous gonadotrophins.

The effect of exogenous ovine gonadotrophins on ovarian inhibin content in hypophysectomized immature female rats was studied to determine which of the pituitary gonadotrophins control ovarian inhibin production in vivo. Inhibin and steroid contents of 27,000 g ovarian supernatants were measured by specific radioimmunoassay. Whereas injection of ovine (o)FSH resulted in dose-dependent increases in ovarian weight, progesterone and oestradiol content above that of control animals injected with diethylstilbestrol alone, injection of oLH was without significant effect. Similarly, ovarian inhibin content was not altered significantly by injection of oLH, but was increased in a dose-dependent manner by injection of oFSH. Concentrations of inhibin in serum were correlated directly with ovarian inhibin content. The results of this study indicate that ovarian inhibin content is increased by injection of oFSH but not oLH. It is likely, therefore, that inhibin production by small antral follicles is controlled by FSH activity alone.