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Role Of Calcium Channels And Small-conductance Potassium Channels In Myenteric Neurons
Funder
National Health and Medical Research Council
Funding Amount
$131,717.00
Summary
This proposal will investigate the electrical properties of neurons in the wall of the intestine that control movements of the bowel. These neurons form an extensive network that runs the length of the gastrointestinal tract and control mixing and propulsion of food along the intestine. We will determine the basic electrical properties of these neurons and investigate why some of them transmit signals in a continuous manner while others transmit signals intermittently and how these patterns of a ....This proposal will investigate the electrical properties of neurons in the wall of the intestine that control movements of the bowel. These neurons form an extensive network that runs the length of the gastrointestinal tract and control mixing and propulsion of food along the intestine. We will determine the basic electrical properties of these neurons and investigate why some of them transmit signals in a continuous manner while others transmit signals intermittently and how these patterns of activity fit into the overall activity of the gut. This study will build on a large body of data obtained from our laboratory that has shown that some of these neurons act as sensors of the presence-absence of food in the intestine while others send signals to the muscle in the wall of the intestine to either relax or contract it so that the food can be processed properly. By knowing what makes these neurons different from each other we will be able to understand what goes wrong in functional bowel disorders where motility is affected, resulting in pain and discomfort.Read moreRead less
Professor Lewis is a molecular pharmacologist interested in discovering new venom peptides and ciguatoxins and determining how they interact with the membrane proteins they target using advanced biochemical and spectroscopic methods. Peptides of interest are then modified to improve potency and selectivity. Those with appropriate properties are patented and developed for clinical applications using approaches successfully applied to Xen2174, a conopeptide analogue I co-discovered that is now in ....Professor Lewis is a molecular pharmacologist interested in discovering new venom peptides and ciguatoxins and determining how they interact with the membrane proteins they target using advanced biochemical and spectroscopic methods. Peptides of interest are then modified to improve potency and selectivity. Those with appropriate properties are patented and developed for clinical applications using approaches successfully applied to Xen2174, a conopeptide analogue I co-discovered that is now in Phase II clinical trials for severe pain.Read moreRead less
Effects Of Muscle Inflammation On Sensory Neuron Excitability
Funder
National Health and Medical Research Council
Funding Amount
$397,398.00
Summary
Muscle pain is a common and poorly treated health problem for many Australians. This project examines the properties of nerves that sense muscle pain and looks at how these change during inflammation, a common cause of muscle pain. We are looking specifically at jaw muscles, which are one of the most common sites of chronic muscle pain. By understanding how muscle nerves are changed by injury, we hope to be able to develop treatments to prevent or reverse these changes.
EPITHELIAL ION TRANSPORT DEFECTS IN CYSTIC FIBROSIS: PATHOPHYSIOLOGY AND TREATMENT
Funder
National Health and Medical Research Council
Funding Amount
$290,440.00
Summary
The thin layer of fluid covering the surface of the air passages acts to protect the airway surface from drying. This fluid also allows the hair-like projections, or cilia, on the top of the airway cells to beat more effectively. The volume and composition of this fluid is determined by the movement of salt and water across the mucous membranes of the air passages. The importance of this fluid is shown by the problems that occur in Cystic Fibrosis (CF), the most common lethal inherited disease a ....The thin layer of fluid covering the surface of the air passages acts to protect the airway surface from drying. This fluid also allows the hair-like projections, or cilia, on the top of the airway cells to beat more effectively. The volume and composition of this fluid is determined by the movement of salt and water across the mucous membranes of the air passages. The importance of this fluid is shown by the problems that occur in Cystic Fibrosis (CF), the most common lethal inherited disease affecting Australians. In CF, altered salt transport causes drying of the airway surface which impairs the working of the cilia. This leads to retention of mucous in the airway with repeated bacterial infections damaging the lungs. Simple tests have been designed to directly measure the movement of salt across the surface of the nasal passage using a fine soft rubber tube. Movement of mucous in the nose is measured using other simple techniques that are currently used diagnostically. Together, these tests in the nose provide vital information about how the surface of normal human airway moves salt, water and mucous. Any differences found in CF patients will then give us a good idea of the problems found in the CF lung. We will study the interactions between calcium, sodium and chloride in the fluid lining the airways, measuring changes in salt and mucous movement. A range of testing procedures will be used in human volunteers, anaesthetised mice and isolated tissues from sheep. We have already demonstrated important links between the fluid lining the airways and salt movement, and we expect that this may lead to the development of new treatments for Cystic Fibrosis. This therapy will focus on treating the lung problems of CF patients, the major cause of disability. We anticipate that this preventative therapy may offer real benefits in the fight to cure CF.Read moreRead less
The primary aim of my research has been to understand how biological ion channels work. All electrical activities in the nervous system, including communication between cells and influences of hormones and drugs on cell function, are regulated by the opening and closing of ion channels. Thus, understanding how these ion channels operate will ultimately help us find the causes of, and possibly cures for, many neurological, muscular and cardiac disorders.
Dynamic Action Potential Clamp Studies Of Drugs That Affect The Cardiac Action Potential
Funder
National Health and Medical Research Council
Funding Amount
$343,976.00
Summary
The development of drugs to treat and.or prevent cardiac arrhythmias have been plagued by the side-effect of actually increasing the risk of sudden death. One of the reasons for this is that drugs that work well in one part of the heart may cause problems in another part. We are developing a system called “dynamic action potential clamp” that will make it easier for researchers to assess the effect of drugs in different regions of both normal and diseased hearts.