Understanding the vesicle release mechanisms that regulate peripheral serotonin levels. The purpose of this project is to understand how serotonin is released into the circulation from specialised cells within the gut. As circulating serotonin controls multiple biological systems within the gut and throughout the body, the outcomes of this project will further understandings of the systems controlling essential bodily functions.
Defining how serotonin regulates gut motility. This project aims to deepen knowledge of gastrointestinal physiology, and reveal the mechanisms by which the major gastrointestinal signalling molecule, serotonin, regulates gut peristalsis. Almost all of the serotonin in our body is made in the gastrointestinal tract where it controls many functions, including how our gut wall contracts during peristalsis. Proper control of gut peristalsis and the transit of material through our bowel is important ....Defining how serotonin regulates gut motility. This project aims to deepen knowledge of gastrointestinal physiology, and reveal the mechanisms by which the major gastrointestinal signalling molecule, serotonin, regulates gut peristalsis. Almost all of the serotonin in our body is made in the gastrointestinal tract where it controls many functions, including how our gut wall contracts during peristalsis. Proper control of gut peristalsis and the transit of material through our bowel is important for our health. This project expects to define how serotonin controls peristalsis, where in the bowel this serotonin comes from, how serotonin communicates with the nervous system in our gastrointestinal tract, and how the cells that synthesise gut serotonin respond to contraction to trigger the secretion of serotonin.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE120101807
Funder
Australian Research Council
Funding Amount
$375,000.00
Summary
Fat sensing in the oral cavity and gastrointestinal tract: role in the regulation of gastrointestinal function and energy intake in health and obesity. This project will determine whether a reduced capacity to sense, or taste, the presence of fats in the oral cavity and the gastrointestinal tract diminishes the effects of fat on those aspects of gut function that regulate appetite and suppress energy intake. The project will, accordingly, provide important insights into the pathophysiology of ob ....Fat sensing in the oral cavity and gastrointestinal tract: role in the regulation of gastrointestinal function and energy intake in health and obesity. This project will determine whether a reduced capacity to sense, or taste, the presence of fats in the oral cavity and the gastrointestinal tract diminishes the effects of fat on those aspects of gut function that regulate appetite and suppress energy intake. The project will, accordingly, provide important insights into the pathophysiology of obesity.Read moreRead less
New uses for milk-derived products for eradication of Helicobacter pylori infection and gastro-intestinal site-specific delivery of active agents. Helicobacter pylori is the most significant bacterial pathogen in the world, infecting 50% globally. Current treatments are inducing rapid antibiotic resistance and are thus becoming increasingly less effective. The infection is acquired in childhood and new methods to prevent and/or treat the infection, minimising acquisition of antibiotic resistance ....New uses for milk-derived products for eradication of Helicobacter pylori infection and gastro-intestinal site-specific delivery of active agents. Helicobacter pylori is the most significant bacterial pathogen in the world, infecting 50% globally. Current treatments are inducing rapid antibiotic resistance and are thus becoming increasingly less effective. The infection is acquired in childhood and new methods to prevent and/or treat the infection, minimising acquisition of antibiotic resistance are urgently required. This project seeks to develop new ways of doing this that combine novel antibacterials with techniques to deliver them (and monitor this delivery) as well as modify the complex protective habitat in the stomach.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE130100223
Funder
Australian Research Council
Funding Amount
$375,000.00
Summary
Characterisation of visceral afferent spinal cord pathways. Sensory nerves in the gut wall are key mediators of chronic visceral pain. This project will characterise how sensory nerves supplying the bowel connect to the spinal cord and the spinal circuits mediating pain perception, providing information to identify sensory pathways underlying visceral pain.