Pituitary lactotrope expresses transforming growth factor beta (TGF beta) type II receptor mRNA and protein and contains 125I-TGF beta 1 binding sites.

Abstract

Transforming growth factor beta 1 (TGF beta 1) has recently been shown to be produced in the prolactin (PRL)-secreting lactotropes of the pituitary gland. TGF beta 1 inhibits lactotropic secretion and proliferation, and the production of TGF beta 1 in lactotropes is reduced during lactotropic growth following estrogen treatment in ovariectomized rats. In many estrogen-responsive tissues, TGF beta 1 has been shown to exert its effect by binding to TGF beta 1 type II receptors (T beta R II) at the cell surface. In this study, we sought to ascertain whether T beta R II is involved in TGF beta 1 action on lactotropes by determining the changes of T beta R II mRNA and protein levels and specific 125I-TGF beta 1 binding sites on the lactotropes during estrogen-induced proliferation of lactotropes in Fischer 344 rats. Double immunohistochemical procedures were employed to identify immunoreactive T beta R II in PRL-reactive cells. The majority of T beta R II-reactive cells in the anterior pituitary were observed to be lactotropes. Dual immunohistochemistry and in situ hybridization procedures also indicated that lactotropes were the major cell types containing T beta R II mRNA hybrids. Both the levels of immunoreactive T beta R II protein and in situ T beta R II mRNA hybrids in the pituitary were significantly decreased in ovariectomized rats after 15 days of estrogen treatment. Determination of 125I-TGF beta 1 binding sites in lactotropes by double immunohistochemistry and receptor autoradiography also revealed specific binding sites of 125I-TGF beta 1 in lactotropes in the anterior pituitary. 125I-TGF beta 1 binding in the anterior pituitary was also reduced following estrogen treatment in ovariectomized rats. These data suggest that down-regulation of T beta R II may be an important mechanism of estrogen action on lactotropic cell growth and PRL secretion, and further support the notion that TGF beta 1 controls lactotropic function by autocrine/paracrine mechanisms.