PROJECT 1 - INTEGRATION OF HORMONE SIGNALING IN THE PITUITARY GONADOTROPE
University Of California, San Diego, La Jolla CA
Investigators
Linked publications & trials
Abstract
The precise interplay of hormonal influences that governs gonadotropin hormone production by the pituitary ncludes endocrine, paracrine and autocrine actions of activin and follistatin, hypothalamic gonadotropin- [unreadable]eleasing hormone (GnRH), and gonadal steroid hormones. Our focus will be the cellular and molecular mechanisms of activin, GnRH, and steroid hormone regulation of the pituitary gonadotropins: luteinizing hormone (LH) and follicle-stimulating hormone (FSH), using cultured cells in vitro, and their roles in physiology and pathophysiology, in vivo, using targeted gene deletion in mice. In Aim 1, we will focus on the regulation of the gonadotropin genes by activin, its interactions with GnRH, and the physiological role of activin signaling in the gonadotrope, in vivo, in targeted Smad-deficient mice. In Aim 2, we address the roles of progestins and androgens in both negative and positive regulation of the gonadotropin genes and their nteractions with activin signaling. Further, we will utilize targeted disruption of the progesterone and androgen receptor genes, in vivo, to assess their role within the pituitary and brain, in normal female reproductive function. Both clinical and animal studies underscore the prenatal origin of premature puberty and polycystic ovary syndrome with the common thread being abnormal androgen exposure in utero. We will use models of high-fat feeding and in utero exposure to androgens to invesigate the hypothesis that androgens, acting through the androgen receptor, are causative for advancement of puberty and for development of the hallmarks of polycystic ovary syndrome. Our overall goal is to understand the integration of activin, GnRH, and steroid hormone action in the regulation of LH and FSH in the gonadotrope in normal and pathopysiological states. Thus, the interplay of peptide hormones, growth factors, steroids, receptors, and hypothalamic releasing factors directly and indirectly controlling gonadotropin synthesis will be investigated using the armamentarium of molecular, cellular, genetic, and mouse technologies with the goal of developing a detailed understanding of the molecular mechanisms mediating normal and disordered female reproductive function.
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