Glucocorticoid-progesterone Interactions In The Control Of Fetal And Placental Growth
Funder
National Health and Medical Research Council
Funding Amount
$227,036.00
Summary
The growth and function of the placenta is of critical importance to the successful maintenance and completion of human pregnancy. The placenta is effectively the lifeline of the growing fetus through its supply of nutrients, removal of wastes, and coordination of homone signals that regulate fetal growth and development. If the placenta does not perform these functions adequately, the growth rate of the fetus is compromised and can lead to difficulties before and after birth. This project exami ....The growth and function of the placenta is of critical importance to the successful maintenance and completion of human pregnancy. The placenta is effectively the lifeline of the growing fetus through its supply of nutrients, removal of wastes, and coordination of homone signals that regulate fetal growth and development. If the placenta does not perform these functions adequately, the growth rate of the fetus is compromised and can lead to difficulties before and after birth. This project examines how two important steroid hormones, progesterone and glucocorticoids, interact with growth factors in the placenta to control its growth and function. Progesterone is recognized as 'the hormone of pregnancy' as it helps the mother adapt to pregnancy. Progesterone may also affect the placenta by regulating its synthesis and breakdown of other hormones, and the balance between placental cell proliferation and death. These effects of progesterone will be studied in this project. We will also examine how glucocorticoid hormones regulate the growth and function of the placenta. Glucocorticoids are structurally very similar to progesterone, and are secreted by the adrenal gland in increased quantities during pregnancy. Glucocorticoids exert a wide range of effects on the mother, placenta and fetus; indeed, glucocorticoids are recognized clinically as the single-most importnat signal for fetal maturation in late pregnancy. However, too much glucocorticoid retards fetal and placental growth, and in this project we will study how this occurs in the placenta, and how the placenta may protect itself from detrimental effects of glucocorticoids. We will test whether placental growth is restricted by glucocorticoids through their effects on placental growth factor hormones. Overall, these studies could have important implications for the clinical management of pregnancy, particularly in relation to fetal and placental growth.Read moreRead less
Novel Actions Of Leptin In Implantation And Placental Function
Funder
National Health and Medical Research Council
Funding Amount
$220,500.00
Summary
The establishment, growth and function of the placenta is of critical importance to the successful maintenance and completion of pregnancy. The placenta is effectively the lifeline of the growing fetus through its supply of nutrients, removal of wastes and coordination of hormone signals that regulate fetal growth and development. Among these signals the hormone leptin, which is produced primarily by fat cells and regulates food intake, has been identified as a crucial player in the control of f ....The establishment, growth and function of the placenta is of critical importance to the successful maintenance and completion of pregnancy. The placenta is effectively the lifeline of the growing fetus through its supply of nutrients, removal of wastes and coordination of hormone signals that regulate fetal growth and development. Among these signals the hormone leptin, which is produced primarily by fat cells and regulates food intake, has been identified as a crucial player in the control of fetal growth. In human pregnancy, the placenta becomes an additional major source of leptin, and this is secreted into the mother and the fetus. Recent work in animal models also indicates that the process of implantation, whereby the embryo embeds itself in the lining of the uterus and establishes a placenta, cannot proceed in the absence of leptin. But how leptin exerts these critical effects on the implantation process and placental function is not known. In this study we will explore several potential actions of leptin in the uterus and placenta, and examine whether the leptin signaling system is aberrant in cases where the fetus does not grow normally. Of particular interest is the possible interaction of leptin with another group of important signaling molecules called the peroxisome proliferator-activated receptors, or PPARs. One of these, PPAR-gamma, plays an indispensable role in the establishment of the placenta, particularly in relation to the formation of blood vessels, a process that is also a target for leptin action. Several lines of evidence, most notably in fat cells, suggest that both PPAR-gamma and leptin regulate common aspects of cell function. Such interactions provide us with important clues as to how leptin and the PPARs could work together to promote the optimal establishment, growth and function of the placenta, and these will be explored in this project.Read moreRead less