Relaxin Signalling In The Endometrium And The Regulation Of Early Pregnancy
Funder
National Health and Medical Research Council
Funding Amount
$466,125.00
Summary
Relaxin is a hormone, that is made in the ovary and the uterus, and plays a very important role in supporting the growth and development of the uterus so that the young embryo can implant properly. In fact, early pregnancy loss is associated with altered levels of relaxin in the blood. Very little is known about how relaxin works in the uterus. This project aims to address this important function, and makes use of cultured uterine cells prepared from tissues taken from women undergoing hysterect ....Relaxin is a hormone, that is made in the ovary and the uterus, and plays a very important role in supporting the growth and development of the uterus so that the young embryo can implant properly. In fact, early pregnancy loss is associated with altered levels of relaxin in the blood. Very little is known about how relaxin works in the uterus. This project aims to address this important function, and makes use of cultured uterine cells prepared from tissues taken from women undergoing hysterectomy for fibroids or similar illnesses. When these cells are grown in culture, we can mimic in vitro many of the events that occur in early pregnancy, causing the cells to differentiate and grow just as they would in vivo. Relaxin appears to exert its important effects on these cells by causing the concentration of the second messenger cAMP in the so-called stromal cells to increase greatly and in a sustained manner. It is this cAMP which is then responsible for many of the changes which are essential for healthy pregnancy. A knowledge of the molecular mechanisms behind these effects would help us firstly to understand how the uterus becomes receptive to an implanting embryo, and may explain why some women lose their babies in early pregnancy, or develop some of the negative symptoms associated with placental development such as growth restriction and preeclampsia. Relaxin appears to stimulate cells through the mediation of a new type of cell surface receptor, called LGR7. Whilst structurally this receptor looks like those for many other hormones, belonging to the group of so-called G-protein coupled receptors, it does not behave like these in natural uterine cells. Instead it appears to make use of completely new signaling pathways inside the cells. This project aims to unravel and understand these new pathways, thus providing information not only of importance for diagnosis and treatment of early pregnancy problems, but also of relevance for all other similar receptors.Read moreRead less
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