Understanding Cell Signalling Mechanisms Activated By Relaxin Family Peptides: Targets With Therapeutic Potential
Funder
National Health and Medical Research Council
Funding Amount
$306,842.00
Summary
One of the most powerful ways that the activity of the cells that make up the tissues and organs of the body can be changed is by the interaction of chemicals with proteins called receptors located at the cell surface. The commonest type of receptor is called a G-protein coupled receptor as it is linked to mechanisms inside the cell by the G-proteins. These receptors are the most commonly targeted by pharmaceutical companies that wish to alter the responses of cells for therapeutic purposes and ....One of the most powerful ways that the activity of the cells that make up the tissues and organs of the body can be changed is by the interaction of chemicals with proteins called receptors located at the cell surface. The commonest type of receptor is called a G-protein coupled receptor as it is linked to mechanisms inside the cell by the G-proteins. These receptors are the most commonly targeted by pharmaceutical companies that wish to alter the responses of cells for therapeutic purposes and almost 2-3 of all drugs currently marketed work through these proteins. This project will examine the mechanisms whereby certain types of G-protein coupled receptor produce signals in cells and determine what are the critical areas of the receptor for these interactions. The receptors involved have been discovered only in the last 4 years and little is known of the ways these change the activity of cells. The substances acting on these receptors have potential for development as targets for drugs that have the potential to treat fibrosis which is a feature of many diseases including cardiac failure, kidney failure and lung disease.Read moreRead less
Effects Of Atrial Natriuretic Peptide On The Sarcolemmal Na-K Pump In Rabbit Myocytes
Funder
National Health and Medical Research Council
Funding Amount
$225,500.00
Summary
The sodium pump transports sodium ions across cell membranes from the inside of cells to the outside. This maintains the concentration of sodium more than ten-fold lower on the inside than the outside. This transmembrane concentration gradient is essential for normal cell function. It is well established that the sodium pump is regulated by a variety of hormones. In a pilot study we have demonstrated that a hormone secreted by the heart, atrial natriuretic peptide, stimulates the sodium pump in ....The sodium pump transports sodium ions across cell membranes from the inside of cells to the outside. This maintains the concentration of sodium more than ten-fold lower on the inside than the outside. This transmembrane concentration gradient is essential for normal cell function. It is well established that the sodium pump is regulated by a variety of hormones. In a pilot study we have demonstrated that a hormone secreted by the heart, atrial natriuretic peptide, stimulates the sodium pump in single heart cells. This has not been reported previously. This study will examine the cellular mechanisms that mediate the stimulation of the sodium pump by atrial natriuretic peptide. A study on the effect of atrial natriuretic peptide on the regulation of sodium in heart cells is particularly important from the perspective of heart failure, a condition characterised by an inability of the heart to pump a sufficient amount of blood. While the underlying causes of heart failure vary widely activation of several hormone systems is a common feature regardless of the aetiology. It has already been well established in clinical practice that interfering with hormone activation by drugs improves symptoms as well as survival. Drugs have recently been developed that can increase levels of atrial natriuretic peptide. Since raised levels of sodium may contribute to important heart cell abnormalities in heart failure the effect of atrial natriuretic peptide on sodium export from the cells by the pump may have important implications for treatment of this serious and common condition.Read moreRead less
This project will unleash the potential of peptide drugs by overcoming their final barrier to widespread use, their synthesis. Plants naturally produce ultra-stable cyclic peptides. We will co-opt their machinery to produce in seeds, two drug leads that have potential as treatments for prostate cancer and chronic neuropathic pain. As an �organic� drug source, seeds have the potential to improve patient compliance and low-tech production systems will allow technology transfer to third-world natio ....This project will unleash the potential of peptide drugs by overcoming their final barrier to widespread use, their synthesis. Plants naturally produce ultra-stable cyclic peptides. We will co-opt their machinery to produce in seeds, two drug leads that have potential as treatments for prostate cancer and chronic neuropathic pain. As an �organic� drug source, seeds have the potential to improve patient compliance and low-tech production systems will allow technology transfer to third-world nations.Read moreRead less