Regulation of growth hormone action by oestrogen and selective oestrogen receptor modulators [ 2003 - 2005 ]

Research Grant

Researchers: Prof Ken Ho (Principal investigator) ,  Dr Kin-Chuen Leung

Brief description Growth hormone (GH) is essential for body growth and development. In adult life, it plays a key role in regulating the ratio of body fat to muscle, thus influencing health. Disruption of GH action decreases muscle mass and increases body fat. These changes lead to reduced muscle strength and fitness, and increase the risk of diabetes, hypertension and cardiovascular mortality. Our laboratory has reported that oestrogens taken orally blunt GH action and cause unfavourable changes in body fat and muscle. How this happens is not known. As oral oestrogens are widely used in our society, it is important to understand the basis of their impact on GH action. SERMs, or selective oestrogen receptor modulators, are a group of drugs used in the treatment of breast cancer and osteoporosis. These substances mimic oestrogen action in some tissues, and block oestrogen action in others. Whether SERMs interfere with GH action as oestrogens do have not been studied, but such knowledge would have therapeutic significance because of their widespread and long-term use. GH action is mediated by a protein, called the GH receptor, located on the surface of target tissues. We propose that oestrogens and SERMs alter the production and function of this protein to control GH action. Thereby, this project is designed to test, in cultured cells of human origin, how oestrogens and SERMs modulate abundance of the GH receptor and its ability to mediate GH action. This work is anticipated to gain novel insights into the interaction of GH with oestrogens and SERMs. This information may also be useful for the design of new drugs devoid of adverse effects on GH action, and hence would have potentially significant implications in women s health and disease.

Funding Amount $AUD 474,750.00

Funding Scheme NHMRC Project Grants

Notes Standard Project Grant