Opposing actions of two transforming growth factor-beta isoforms on pituitary lactotropic cell proliferation.

Abstract

Three transforming growth factor-beta protein isoforms (TGFbeta1, TGFbeta2, and TGFbeta3) have been identified in mammals. These isoforms appear to have similar actions on cell growth in various tissues. In rat pituitary tissue, TGFbeta1 is localized in PRL-secreting lactotropes and has been shown to act on lactotropes to inhibit estradiol-induced cell proliferation. The steroid inhibits the production and secretion of TGFbeta1. It is not known whether the other two isoforms are produced in and/or act on lactotropes. Using immunocytochemical detection techniques, we determined that, like TGFbeta1, TGFbeta3 is colocalized with PRL in the anterior pituitary of Fischer-344 female rats. Administration of estradiol increased TGFbeta3-immunoreactive cell numbers, TGFbeta3 protein, and TGFbeta3 messenger RNA levels in the pituitary. Determinations of TGFbeta3 actions in vitro in primary cultures of pituitary cells indicated that TGFbeta3 concentration dependently increases lactotropic cell proliferation. The growth-promoting action of TGFbeta3 was potentiated by estradiol. Immunoneutralization studies indicated that although TGFbeta1 antibody failed to prevent estradiol's mitogenic action, it potentiated the mitogenic action of TGFbeta3. In contrast, TGFbeta3-neutralizing antibody inhibited lactotropic cell proliferation by estradiol. These data indicate that unlike many other tissues, TGFbeta1 and TGFbeta3 have opposite actions on lactotropic proliferation in the pituitary. Furthermore, TGFbeta1 and TGFbeta3 may be involved in estradiol's mitogenic action on lactotropes.