Muscarinic Receptor Signalling, Transglutaminase And Diabetes
Funder
National Health and Medical Research Council
Funding Amount
$518,210.00
Summary
Diabetes is a major and increasing cuase of death and disability in our society. This studies aims to understand the cellular and molecular mechaisms controlling insulin secretion from the pancreas, since defects in this secretion are involved in causing diabetes. The proposed studies are of relevance to both juvenile and adult-onset diabetes, and may lead to new treatment modalities, as well as potentially being relevant to the use of pencreatic islet cell transplantation in the treatment of di ....Diabetes is a major and increasing cuase of death and disability in our society. This studies aims to understand the cellular and molecular mechaisms controlling insulin secretion from the pancreas, since defects in this secretion are involved in causing diabetes. The proposed studies are of relevance to both juvenile and adult-onset diabetes, and may lead to new treatment modalities, as well as potentially being relevant to the use of pencreatic islet cell transplantation in the treatment of diabetes.Read moreRead less
The co-ordinated regulation of cellular functions by hormones is vital to be able to respond to both immediate and long-term environmental changes and stresses. The stress hormone, adrenaline, affects in particular, the cardiovascular system, causing constriction of small arteries and increases in the force and rate of contraction of the heart, by binding to, and activating, adrenergic receptor proteins present on the cell surface. Activation of these receptors is implicated in the development o ....The co-ordinated regulation of cellular functions by hormones is vital to be able to respond to both immediate and long-term environmental changes and stresses. The stress hormone, adrenaline, affects in particular, the cardiovascular system, causing constriction of small arteries and increases in the force and rate of contraction of the heart, by binding to, and activating, adrenergic receptor proteins present on the cell surface. Activation of these receptors is implicated in the development of cardiac hypertrophy, as well as ventricular arrhthymias following ischaemia and reperfusion. Understanding the precise mechanisms or pathways of activation of these receptors is, therefore, of direct relevance to the treatment of these important clinical disorders. We have recently discovered a new protein, Gh, involved in the regulation of cellular functions by adrenergic receptors. The aims of this proposal are to determine the importance of Gh in the heart and understand the molecular mechanisms that control the function of this protein. Such insights are of paramount importance as they have direct applicability to our understanding of the heart s response to stress and may lead to new diagnostic or therapeutic approaches for the treatment of cardiac diseases.Read moreRead less