Mechanisms Of Long Term Excitability Changes In Enteric Neurons
Funder
National Health and Medical Research Council
Funding Amount
$308,250.00
Summary
The intestine contains within its walls a nerve circuitry, the enteric nervous system, that controls many of its activities. The intestine itself adapts to circumstances, such as diet, and to pathological changes, such as infection or inflammation. In fact, changes in the intestine can outlast the events that cause them. This implies that there are prolonged changes in properties of control systems in the intestine. We have discovered that the intrinsic sensory neurons of the intestine exhibit l ....The intestine contains within its walls a nerve circuitry, the enteric nervous system, that controls many of its activities. The intestine itself adapts to circumstances, such as diet, and to pathological changes, such as infection or inflammation. In fact, changes in the intestine can outlast the events that cause them. This implies that there are prolonged changes in properties of control systems in the intestine. We have discovered that the intrinsic sensory neurons of the intestine exhibit long-term excitability increases following prolonged, low frequency, stimulation of their inputs from other neurons. This phenomenon has been called sustained slow postsynaptic excitation (SSPE). We have begun to examine the mechanisms behind the SSPE, and have discovered that it involves the enzymatic modification of molecules in the intrinsic sensory neurons. In this work, we will identify the enzymes and their molecular targets. This will add to basic knowledge of how the digestive system performs its task and adapts over time. It will provide data that can be used to predict molecules that might be of therapeutic value in dealing with chronic disorders in the intestine, such as irritable bowel syndrome.Read moreRead less
Characterisation Of Ion Channels That Are Potential Therapeutic Targets In Enteric Neurons
Funder
National Health and Medical Research Council
Funding Amount
$535,141.00
Summary
Disorders of intestinal movement (motility) are common and cause considerable suffering, absenteeism and social disruption. Disorders include motility disturbances that occur in irritable bowel syndrome (IBS); constipation, which is a considerable problem in the aged; slow transit disorders; and diarrhoea. The movements of the intestine are controlled by the enteric nervous system. This project aims to find targets for therapy of motility disorders within the enteric nervous system
Modulation Of Autonomic Nerve Growth By Guidance Factors
Funder
National Health and Medical Research Council
Funding Amount
$393,277.00
Summary
Our goal is to understand how adult nerves are affected by injury so that we can devise therapies to make them regrow better. We will focus on nerves that control the urogenital organs because these are often injured during surgical procedures (e.g. prostatectomy, hysterectomy), with devastating effects on patients' quality of life. In this project we will investigate how naturally-occurring growth-inhibitory molecules affect nerve regrowth after injury in the pelvic nervous system.
Do Postjunctional Alterations Explain The Effects Of Diabetes On Neurovascular Transmission?
Funder
National Health and Medical Research Council
Funding Amount
$390,886.00
Summary
Diabetes produces disordered skin blood flow that increases risk of skin ulcers and gangrene. The project investigates nervous control of skin blood vessels in diabetes. It is assumed that all affects of diabetes on nerve function are explained by loss of nerves. We hypothesize that some affects of diabetes are due to dysfunction of blood vessels and not to nerve loss. The objective is to identify drug targets to improve blood flow in skin and thereby reduce the risk of skin ulcers and gangrene.