Factors Controlling Leucocyte Migration In Healthy Intestine And In Inflammatory Bowel Disease
Funder
National Health and Medical Research Council
Funding Amount
$195,217.00
Summary
Inflammatory bowel diseases (IBD) are relapsing and remitting disorders of the intestine that create substantial disability in a relatively young population of patients. Our treatments for these conditions have changed little in the last 30 years and they are commonly accompanied by side effects. Research into the mechanisms controlling the gut inflammation offers promise for the development of novel, targeted and less toxic therapies. The major mediators of damage in IBD are white blood cells r ....Inflammatory bowel diseases (IBD) are relapsing and remitting disorders of the intestine that create substantial disability in a relatively young population of patients. Our treatments for these conditions have changed little in the last 30 years and they are commonly accompanied by side effects. Research into the mechanisms controlling the gut inflammation offers promise for the development of novel, targeted and less toxic therapies. The major mediators of damage in IBD are white blood cells recruited from the circulation to affected intestine. This recruitment is induced by the production in damaged intestine of chemokines, proteins of the immune system that attract and activate white blood cells. Chemokines act through chemokine receptors on the surface of white blood cells, and earlier research by our group has demonstrated that these chemokine receptors can be functionally modulated by neuropeptides, proteins unrelated to chemokines that normally transmit messages within the nervous system. This project aims to explore the chemokines and chemokine receptors responsible for the recruitment of white blood cells to normal and IBD-affected intestine, in order to determine therapeutic targets for novel treatments. Moreover, the role of neuropeptides in modulating the recruitment of white blood cells to the intestine will be examined in cells from the human intestine, both normal and IBD-affected, as well as in an animal model of IBD. This project will provide an understanding of the signals responsible for the attraction of damaging white blood cells to sites of inflammation in the bowel and will indicate mechanisms used by the immune system to regulate those signals. It has the potential to direct us to new therapies that use highly targeted and physiologically appropriate approaches to controlling white blood cell trafficking in health and disease.Read moreRead less
Spatio-temporal Analysis Of Rat Intestinal Motility In Physiological And Disease Models
Funder
National Health and Medical Research Council
Funding Amount
$358,750.00
Summary
This project addresses the question of how the movements of the gut are controlled in health and disease. The progress of food along the gut is due to movements of the involuntary muscle of the wall of the intestine. Three fundamental mechanisms are involved. One is the spontaneous ability of the intestinal muscle to contract rhythmically and is driven by a delicate net of pacemaker cells. Fast propulsion of food contents depends on nerve circuits in the gut wall that generate a powerful pumping ....This project addresses the question of how the movements of the gut are controlled in health and disease. The progress of food along the gut is due to movements of the involuntary muscle of the wall of the intestine. Three fundamental mechanisms are involved. One is the spontaneous ability of the intestinal muscle to contract rhythmically and is driven by a delicate net of pacemaker cells. Fast propulsion of food contents depends on nerve circuits in the gut wall that generate a powerful pumping behaviour to prevent over-filling or to eject toxic or irritating substances (eg: some laxatives activate this mechanisms). This is often called peristalsis. A third mechanism consists of activity of nerve cells in the gut, that slowly propagates along the intestine and causes the muscle to contract, sweeping along any remnants. The movements generated by these three mechanisms occur in segments of intestine isolated from rats. The major difficulty up until now has been to relate the actual movements in living animals to these fundamental mechanisms. It is now possible to bridge this gap because we have developed methods to record, display and measure graphically the actual movements. Movements are transformed into spatio-temporal maps which show all of the contractions over a period of time. Coordinated activity is visible in these maps as recognisable patterns or visual objects. Measurements can be readily made with conventional statistics. The literature in gastroenterology is full of descriptions of motility based on indirect methods of recordings. In this project we will be able to correlate the previous indirect methods with the new graphic methods and thus establish a clearer, simpler and more accurate classification of normal patterns of intestinal motility. We will then use this to establish what goes wrong in a number of experimental diseases known to affect adversely the movements of the intestine.Read moreRead less
Effects Of Ischemia/ Reperfusion Injury On Enteric Neurons And Neuroprotective Strategies
Funder
National Health and Medical Research Council
Funding Amount
$566,277.00
Summary
The intestine can suffer restricted blood flow, creating a region of damaged or dead bowel. This leads to severe medical emergencies, complications and even death. Loss of blood flow and damage can be a serious complication for intestinal transplant surgery, which compromises patient survival and recovery. The project brings together transplant surgeons and basic scientists to solve problems caused by intestinal ischemia. A major result will be to improve outcomes for Australian patients
The Role Of Transferrin Receptor, Divalent Metal Transporter, Ferroportin And Hemochromatosis Protein In Iron Absorption
Funder
National Health and Medical Research Council
Funding Amount
$195,990.00
Summary
Within Australia 1 in 300 people of Caucasian origin have a genetic defect which makes them absorb more iron from the diet than they need. Excess iron is a major problem because it damages cells and this is most obvious in the pancreas where the cells make insulin are destroyed and diabetes mellitus develop. In the liver cirrhosis and cancer often occur. Iron also accumulates in other tissues such as the heart and joints resulting in damage to these organs. The genetic defect has recently been i ....Within Australia 1 in 300 people of Caucasian origin have a genetic defect which makes them absorb more iron from the diet than they need. Excess iron is a major problem because it damages cells and this is most obvious in the pancreas where the cells make insulin are destroyed and diabetes mellitus develop. In the liver cirrhosis and cancer often occur. Iron also accumulates in other tissues such as the heart and joints resulting in damage to these organs. The genetic defect has recently been identified but how the defective protein causes the cells of the intestine to absorb more iron into the body than is needed remains unknown. This has led to the idea that the normal protein is responsible for controlling the amount of iron absorbed. Recent studies have shown a link between this protein and another called transferrin receptor. These two molecules are thought to co-operate in determining how much iron will be absorbed. Once this is determined other molecules called iron transporters are produced and these are responsible for moving the iron from the intestine into the blood. When not much iron is required only a small number of transporters are made and when more iron is required then many more are produced. How these transporters program the level of iron absorption is unknown but the process probably involves the transferrin receptor and the hemochromatosis protein. This project will investigate the function of the molecules that determine the programe for how much iron is to be absorbed, and secondly how this is linked to the production and movement of the transproters that co-ordinate this function.Read moreRead less
Currents That Set The Excitability Of Enteric Neurons And Their Roles At Cell And Organ Levels
Funder
National Health and Medical Research Council
Funding Amount
$459,014.00
Summary
The intestine is subject to a number of disorders of its normal control by nerves, including diarrhoea, constipation and slow transit disorders. Chronic and debilitating derangement of intestinal function occurs in irritable bowel syndrome, which affects around 10-15% of people in our community, about 1% at any one time. Irritable bowel syndrome can persist for many years, and there is no adequate therapy. For some patients no medication gives relief, and for most the relief is minimal. The refl ....The intestine is subject to a number of disorders of its normal control by nerves, including diarrhoea, constipation and slow transit disorders. Chronic and debilitating derangement of intestinal function occurs in irritable bowel syndrome, which affects around 10-15% of people in our community, about 1% at any one time. Irritable bowel syndrome can persist for many years, and there is no adequate therapy. For some patients no medication gives relief, and for most the relief is minimal. The reflexes in the intestine that control its movements and secretion depend for their initiation on a special type of neuron, known as the intrinsic primary afferent neuron. These neurons have properties that determine how active they are. These properties distinguish them from all other enteric neurons. If the activity of intrinsic primary afferent neurons is controlled, then the intensity and character of enteric reflexes are also controlled. Thus it is feasible to target molecules in these neurons that could be used to treat constipation or diarrhoea, or to accelerate movement of food along the intestine. Our work has identified molecular targets and some of the medicinal compounds that could be useful to patients. The project will further define the molecular targets, determine the specificity of potential treatments and test the effectiveness of the medicinal compounds in an animal model.Read moreRead less