Antigen Recognition By CD1a-restricted T Cells In The Human Immune System
Funder
National Health and Medical Research Council
Funding Amount
$615,520.00
Summary
Human immunity requires protective T cells that target foreign molecules for removal. Even though substantial populations of T cells exist that recognise lipid molecules, little is known about their basic biology. We will identify and characterise lipid reactive human T cells and examine their response to foreign or self-lipids expressed by infectious organisms and host cells. This work will have important implications in understanding lipid reactive T cells in health and disease.
L-amino Acid Sensing By The Extracellular Calcium-sensing Receptor: Molecular, Cellular And In Vivo Studies
Funder
National Health and Medical Research Council
Funding Amount
$362,545.00
Summary
Recent work by Dr Conigrave and colleagues demonstrates for the first time that protein and calcium metabolism are linked at the molecular level by the widely distributed calcium-sensing receptor. The project will aim to demonstrate the physiological significance of this finding by testing whether L-amino acids, the building blocks of body protein, exert receptor-dependent control over the secretion and blood levels of hormones that regulate body calcium levels. It will further test the hypothes ....Recent work by Dr Conigrave and colleagues demonstrates for the first time that protein and calcium metabolism are linked at the molecular level by the widely distributed calcium-sensing receptor. The project will aim to demonstrate the physiological significance of this finding by testing whether L-amino acids, the building blocks of body protein, exert receptor-dependent control over the secretion and blood levels of hormones that regulate body calcium levels. It will further test the hypothesis by determining whether amino acids exert receptor-dependent control over the proliferation of bone forming cells and urinary excretion of calcium.Read moreRead less
Regulation Of Natural Killer Cell Activation By MHC Class I Molecules
Funder
National Health and Medical Research Council
Funding Amount
$697,084.00
Summary
Natural killer cells are important components of innate responses to viral infection and cancer. This project aims to better understand how these immune cells discriminate between healthy cells and those that have been infected with viruses or become cancerous.
Hormones are essential chemical messengers that regulate the normal functions of the body. Reproduction in particular is widely influenced by hormones. The development of the very early embryo and its implantation into the uterus is not well understood. A new class of hormone has been implicated in this process. This hormone, known as platelet-activating factor (or PAF) is special among hormones since it belongs to a class of chemicals known as phospholipids. This is quite uncommon. This hormone ....Hormones are essential chemical messengers that regulate the normal functions of the body. Reproduction in particular is widely influenced by hormones. The development of the very early embryo and its implantation into the uterus is not well understood. A new class of hormone has been implicated in this process. This hormone, known as platelet-activating factor (or PAF) is special among hormones since it belongs to a class of chemicals known as phospholipids. This is quite uncommon. This hormone can act in an apparently contradictory fashion. Its production by the embryo allows it to act back on the embryo to stimulate embryo growth and survival. The embryo (of some species) then releases other hormones which prevents the PAF from acting on the uterus. If this repression of the uterine response to PAF does not occur then PAF acts on the uterus to stop further progression of the pregnancy (luteolysis). Hormones act on cells via special cell proteins known as receptors. It seems that the receptor for PAF in the embryo and the uterus are different and may therefore result in triggering different cellular responses by these 2 tissues. We have available to us mice with mutations that stop the functioning of these two likely classes of receptors. The progress of pregnancy and the development of embryos in mice with these mutations will be studied as a means of defining how PAF acts in pregnancy. The embryo will be studied in detail to determine the nature of the changes induced within the embryo by PAF acting via its receptor. One of these receptors is an entirely new class of molecules not previously understood to be able to act as a cell signalling devise. This study will describe if and how this potential new receptor acts in the embryo, allowing future detailed investigation of its role in normal cell function. It will show how this single hormone can regulate both the uterus and embryo to have contradictory roles in the establishment of pregnancy.Read moreRead less
Macrophages are a key component of the immune system; thier functions include killing of pathogens as well as cancerous cells. Macrophage lineage cells are derived from stem cells within the bone marrow and thier differentiation, proliferation and survival is mediated by a particular growth factor termed colony stimulating factor-1 (CSF-1). The understanding of how macrophage lineage cells develop will help us to treat many diseases including certain cancers (such as leukemia), arthritis and inf ....Macrophages are a key component of the immune system; thier functions include killing of pathogens as well as cancerous cells. Macrophage lineage cells are derived from stem cells within the bone marrow and thier differentiation, proliferation and survival is mediated by a particular growth factor termed colony stimulating factor-1 (CSF-1). The understanding of how macrophage lineage cells develop will help us to treat many diseases including certain cancers (such as leukemia), arthritis and inflammation, and disorders of the immune system. The action of CSF-1 is mediated by the CSF-1 receptor (CSF-1R) which, when activated, controls gene regulation. In this proposal we will study CSF-1R activation and identify the genes regulated by CSF-1 with a view to characterize genes critical for macrophage development. These genes may provide potential targets for new pharmacological agents.Read moreRead less
Lipid Antigen Recognition By Diverse CD1-restricted T Cells
Funder
National Health and Medical Research Council
Funding Amount
$312,625.00
Summary
Natural Killer T (NKT) cells are a specialized T cell lineage that form a key part of the adaptive immune response required for protection against infection, allergy, cancer and autoimmune diseases. Different types of NKT cells exist, expressing distinct T cell receptors that recognize a large array of lipid antigens presented during disease conditions. Understanding the mechanisms involved in lipid recognition is crucial in deciphering how NKT cells can be manipulated for desired immune respons ....Natural Killer T (NKT) cells are a specialized T cell lineage that form a key part of the adaptive immune response required for protection against infection, allergy, cancer and autoimmune diseases. Different types of NKT cells exist, expressing distinct T cell receptors that recognize a large array of lipid antigens presented during disease conditions. Understanding the mechanisms involved in lipid recognition is crucial in deciphering how NKT cells can be manipulated for desired immune responses.Read moreRead less
Significance And Mechanisms Of Relative Progesterone Receptor Isoform Expression In Normal And Malignant Target Tissues
Funder
National Health and Medical Research Council
Funding Amount
$737,248.00
Summary
The ovarian hormone progesterone has a pivotal role in normal female physiology, in the uterus and ovary; in the mammary gland and in the brain. Human progesterone receptor, through which progesterone exerts its physiological effects, is expressed as two receptor proteins (PRB and PRA). These are identical except that PRA is shorter than PRB and present knowledge supports a role for both proteins in normal physiology. PR is also expressed in breast cancers, where one of its roles may be to inhib ....The ovarian hormone progesterone has a pivotal role in normal female physiology, in the uterus and ovary; in the mammary gland and in the brain. Human progesterone receptor, through which progesterone exerts its physiological effects, is expressed as two receptor proteins (PRB and PRA). These are identical except that PRA is shorter than PRB and present knowledge supports a role for both proteins in normal physiology. PR is also expressed in breast cancers, where one of its roles may be to inhibit oestrogen action and thereby limit tumour growth. A tumour which lacks PR would lack this capacity and this may be clinically associated with poorer prognosis. We have shown that primary tumours lacking PR are more likely to progress to secondary sites and this may provide support for this possibility. In addition, we have shown that over-expression of one PR isoform in breast cancers can be as biologically significant as lack of PR: tumours expressing predominantly one isoform were associated with poorer prognosis features.This project is aimed at investigating how PRA and PRB exert their effects on the range of progesterone targets in normal and malignant tissues. We will do this by determining whether PR isoforms are located in the same nuclear site in cells expressing one versus cells expressing both PR isoforms, to explore whether the proteins act separately in target cells. We will then ask whether the PR activity is different if only one isoform (PRA or PRB) is expressed versus both PRA and PRB. Another major issue which will be explored is the way in which the relative levels of PRA and PRB are controlled, and whether this is altered in breast cancers. Finally, we will explore the clinical significance of PR isoform expression. If achieved, the aims of this project will delineate the individual and combined action of - THIS FIELD WAS OVER 2000 CHARS, TEXT WAS REMOVED TO LODGE THE APPLICATION. A COPY OF THE ORIGINAL APPLICATION IS AVAILABLE FROM ARCHIVE-HARDCOPYRead moreRead less