Evidence for an autocrine role of activin B within rat anterior pituitary cultures.

Activins, dimers of inhibin beta subunits, are potent stimulators of FSH secretion in vivo and in vitro and of FSH beta mRNA expression in rat anterior pituitary cultures. In this study, we investigated the possibility that locally secreted activin B (beta B beta B) may function as an autocrine modulator of basal FSH secretion and expression based on the previous observation that beta B is expressed within gonadotropes. The incubation of cultured rat anterior pituitary cells with a m mouse monoclonal antibody specific for the activin B homodimer (MAb-activin B) significantly attenuated the basal secretion of FSH in a concentration- and time-dependent manner, without influencing LH secretion. Moreover, MAb-activin B selectively inhibited FSH beta mRNA accumulation without affecting either LH beta or alpha subunit mRNAs. The MAb-activin B completely blocked the stimulation of FSH secretion by exogenous activin B, but not by activin A, confirming its specificity. As previously shown, inhibin A and follistatin significantly suppressed basal FSH secretion in these cultures. This inhibitory effect, albeit of lower magnitude, was still evident even in the presence of the MAb-activin B which by itself suppressed basal FSH secretion. These data suggest that the secretion of activin B by the gonadotropes of the anterior pituitary may serve as an autocrine signal in the selective modulation of FSH expression and secretion. Furthermore, the inhibitory actions of inhibins and follistatins on gonadotropes may, in part, be explained by their ability to interfere with the actions of endogenous activin B.