The Effect Of Ghrelin, Leptin And Orexins On The Function Of Pituitary Somatotropes In Rat, Mouse And Human.
Funder
National Health and Medical Research Council
Funding Amount
$447,000.00
Summary
Malnutrition such as obesity or wasting syndrome is accompanied by GH deficiency. Three newly discovered metabolic regulatory hormones, leptin from fat tissue, ghrelin from stomach and orexins from hypothalamus, play important roles in regulating appetite, energy expenditure, and adiposity. Receptors for three metabolic regulatory hormones are all present in pituitary GH secreting cells (somatotropes) and accumulated laboratory data indicate a modification of GH secretion by three hormones. Cont ....Malnutrition such as obesity or wasting syndrome is accompanied by GH deficiency. Three newly discovered metabolic regulatory hormones, leptin from fat tissue, ghrelin from stomach and orexins from hypothalamus, play important roles in regulating appetite, energy expenditure, and adiposity. Receptors for three metabolic regulatory hormones are all present in pituitary GH secreting cells (somatotropes) and accumulated laboratory data indicate a modification of GH secretion by three hormones. Contradictory results have however been reported. Mechanisms of action of these three hormones are not clear and the interrelationship between metabolic regulatory hormones and intrinsic GH regulatory system is unknown. We propose to clarify this issue by investigating the effect of in vivo treatment of mice and in vitro treatment of cultured pituitary cells with leptin, ghrelin, and orexins. GH secretion, GH and GH-regulatory hormones' receptor synthesis in pituitary somatotropes will be measured. We will also use GH-GFP transgenic mice, in which somatotropes are specifically marked with green fluorescent signal, to study morphological change of somatotropes in mouse pituitary glands after in vivo treatment. By completing this project, we will be able (1) to clarify the physiological role of metabolic regulatory hormones in control of GH levels and (2) to clarify the pathological role of metabolic regulatory hormones in GH deficiency occurred in malnutritional conditions.Read moreRead less
Functional Modulation Of Ovine And Human Somatotropes By In Vitro Application Of Leptin
Funder
National Health and Medical Research Council
Funding Amount
$227,036.00
Summary
Obesity is a common disorder in developed countries and a prevalent condition which is often stigmatized. Actuarial data indicate that life expectancy is reduced when body-mass index (body mass in kg-square of the height in metres) is 20% or more above the ideal (obesity is >28% above ideal). Growth hormone (GH) from pituitary gland is the major anabolic hormone to increase muscle and reduce fat. A significant reduction in GH is found in obesity. Indeed, visceral fat mass is primary negative ....Obesity is a common disorder in developed countries and a prevalent condition which is often stigmatized. Actuarial data indicate that life expectancy is reduced when body-mass index (body mass in kg-square of the height in metres) is 20% or more above the ideal (obesity is >28% above ideal). Growth hormone (GH) from pituitary gland is the major anabolic hormone to increase muscle and reduce fat. A significant reduction in GH is found in obesity. Indeed, visceral fat mass is primary negative statistical determinant of GH secretion in middle age men and women. It is clear that the reduction in GH is due to a low sensitivity of GH cells to GH-releasing hormone (GHRH) from brain. It is therefore necessary to understand the change of pituitary GH cells in obesity. A recently identified, fat cell secreted, polypeptide (leptin) is demonstrated to reduce food intake and increase energy expenditure. Receptors for leptin have been found in pituitary gland, mainly in GH secreting cells. In our preliminary experiments, leptin reduces GH secretion by decreasing GHRH receptor synthesis. Meanwhile, this leptin treatment increased the receptors for GH-releasing peptide (GHRP), a synthetic peptide stimulating GH secretion. We aim to investigate the effect of leptin on cultured ovine and human GH cells by studying important cell functions including hormone and receptors synthesis, intracellular signaling molecules, membrane ion channels and cellular secreting machinery. The results will clarify the mechanism underlying GH deficiency in obese patients. We will also test the effect of synthetic GHRP in combination with leptin in vitro. The relationship between GHRP and leptin on the functional modification of GH cells will also be studied. It is likely to see that GHRP reduces the inhibitory effect of leptin on GH cells. This may end up an effective therapeutical use of GHRP (oral available) in the treatment of obesity.Read moreRead less
Pathways For Estrogen Feedback To Gonadotropin Releasing Hormone Neurons
Funder
National Health and Medical Research Council
Funding Amount
$466,980.00
Summary
Gonadotropin releasing hormone (GnRH) is the brain hormone that drives the reproductive process. In the female, a surge in the secretion of GnRH is the trigger for ovulation. An understanding of the mechanisms that regulate the secretion of GnRH is, therefore, extremely important if we are to decipher abnormalities that lead to infertility. Understanding of the ovulatory process is also important for the development of new (possibly simpler) means of contraception. Our research is intended to pr ....Gonadotropin releasing hormone (GnRH) is the brain hormone that drives the reproductive process. In the female, a surge in the secretion of GnRH is the trigger for ovulation. An understanding of the mechanisms that regulate the secretion of GnRH is, therefore, extremely important if we are to decipher abnormalities that lead to infertility. Understanding of the ovulatory process is also important for the development of new (possibly simpler) means of contraception. Our research is intended to provide a full understanding of the brain circuits that provide input to the GnRH neurons. In particular, we will focus on the microcircuitry in the preoptic area, where GnRH cells are found. In addition to providing a full understanding of the circuits that are primarily involved in regulating GnRH secretion, this work will provide a substrate upon which we can expand knowledge of how factors such as emotion and stress can impact on the reproductive process.Read moreRead less
Molecular Regulation Of CRH Gene Expression In The Human Placenta
Funder
National Health and Medical Research Council
Funding Amount
$70,285.00
Summary
Approximately 70% of infant death is a result of premature birth. Preterm delivery occurs in 6-10% of pregnancies, and there has been no reduction in this rate in the last 30 years. This is largely because we remain ignorant of how normal and preterm birth is controlled. Understanding the physiology of human pregnancy is a critical step in the development of ways to detect and prevent preterm birth. Our group has demonstrated a link between production of a hormone (corticotropin releasing hormon ....Approximately 70% of infant death is a result of premature birth. Preterm delivery occurs in 6-10% of pregnancies, and there has been no reduction in this rate in the last 30 years. This is largely because we remain ignorant of how normal and preterm birth is controlled. Understanding the physiology of human pregnancy is a critical step in the development of ways to detect and prevent preterm birth. Our group has demonstrated a link between production of a hormone (corticotropin releasing hormone, CRH) in the placenta and the length of time the baby is carried in the mother. In women who will deliver prematurely the rise in CRH production occurs earlier and more rapidly, while in women who deliver late the rise occurs more slowly. This work has led to the concept of a biological clock that determines the length of time the fetus will be carried by the mother before birth, and in which production of CRH in the placenta plays a central role. We have been studying how the CRH gene is controlled in placental cells. We have discovered some regions in the DNA of the CRH gene which have important roles in controlling how much CRH is made by the placenta. The experiments described in this project will determine the molecular mechanisms that control the production of CRH in the human placenta. This will be done by examining the DNA sequences involved in controlling the CRH gene and by identifying the proteins that actually perform the regulating functions that result in either increased or decreased amounts of CRH being produced by the placenta. This important information will help us better understand how normal and preterm birth is controlled, and from that knowledge new ways to detect and prevent premature birth can be developed.Read moreRead less
The Role Of Ghrelin And Growth Hormone Releasing Hormone In The Autocrine Regulation Of Prostate Cancer Cell Growth
Funder
National Health and Medical Research Council
Funding Amount
$240,990.00
Summary
Insulin-like growth factor-I (IGF-I) is an important growth factor with a major role in the growth and development of many normal and tumour cells. Its production is controlled by growth hormone (GH), released from the pituitary gland at the base of the brain. GH releasing hormone (GHRH), a hormone released from higher centres in the brain, regulates the production of GH itself and now it is recognised that a second pathway, the ghrelin-GH secretagogue receptor (GHS-R) axis is also important in ....Insulin-like growth factor-I (IGF-I) is an important growth factor with a major role in the growth and development of many normal and tumour cells. Its production is controlled by growth hormone (GH), released from the pituitary gland at the base of the brain. GH releasing hormone (GHRH), a hormone released from higher centres in the brain, regulates the production of GH itself and now it is recognised that a second pathway, the ghrelin-GH secretagogue receptor (GHS-R) axis is also important in regulating GH release. There is growing evidence that the GHRH-GH-IGF axis has a significant role in prostate cancer, but little is known about how this happens. We also have evidence that the ghrelin-GHS-R axis is involved in prostate cancer, as prostate cancer cell lines produce both ghrelin and the receptor through which it acts. Our preliminary studies show that ghrelin enhances cell growth in these cells. GHRH blocking agents (antagonists) are potential treatments for prostate cancer, as they slow the growth of prostate tumours. How they act is unclear, but they might interfere with a locally active GHRH pathway in the prostate. This study aims to explore the role of ghrelin and GHRH in prostate cancer. Since there is an increase in the use of GHRH, GH and-or IGF-I and potentially ghrelin for the treatment of a variety of medical conditions, including some in the aging male, the need for a fuller understanding of the role of this axis in prostate cancer is increasingly important. Such information will lead to a deeper understanding of the actions of ghrelin and GHRH and provide potential opportunities for design of new therapies for prostate and other GH-IGF-responsive tumours.Read moreRead less
Neuroendocrine Functions Of PrRP, A Novel Hypothalamic Peptide
Funder
National Health and Medical Research Council
Funding Amount
$183,928.00
Summary
This project investigates the role of a newly discovered chemical (peptide) that is found in a part of the brain called the hypothalamus which regulates the activity of the pituitary gland. The hypothalamus and pituitary gland work together to control many of the body?s essential processes such as growth, metabolism and reproduction. Some human diseases are caused by abnormalities of the hypothalamus and pituitary gland while many other diseases affect the functions of these glands, leading to w ....This project investigates the role of a newly discovered chemical (peptide) that is found in a part of the brain called the hypothalamus which regulates the activity of the pituitary gland. The hypothalamus and pituitary gland work together to control many of the body?s essential processes such as growth, metabolism and reproduction. Some human diseases are caused by abnormalities of the hypothalamus and pituitary gland while many other diseases affect the functions of these glands, leading to widespread complications such as weight loss, wasting, abnormal immune responses, infertility or failure of lactation. While many of the hormones and chemicals of the hypothalamus and pituitary gland have been extensively studied, recent advances in molecular biology have led to the discovery of new chemicals that may have important regulatory functions. One of these newly discovered substances which was named Prolactin-Releasing Peptide or PrRP is the topic of this project. PrRP will be tested in a series of experiments in animals in order to determine how important it is in regulating the pituitary gland, particularly in stress and during lactation which are conditions when PrRP could be secreted. It is hoped that this research will lead to a more detailed understanding of how the reproductive and endocrine system are controlled in humans and to new methods for the manipulation of these systems under normal and disease conditions.Read moreRead less