Novel Substance P Receptors On Autonomic And Sensory Neurons Regulating The Viscera
Funder
National Health and Medical Research Council
Funding Amount
$447,750.00
Summary
Potentially harmful stimulation of the skin or the internal organs activates sensory nerves that send signals to the brain. These events often are perceived as painful. One chemical messenger transmitting these signals first to the spinal cord, and then to the brain, is a neuropeptide called substance P. During many chronic inflammatory conditions, such as inflammation of the bowel, these signalling pathways are sensitised so that stimuli that previously were not painful now are perceived as pai ....Potentially harmful stimulation of the skin or the internal organs activates sensory nerves that send signals to the brain. These events often are perceived as painful. One chemical messenger transmitting these signals first to the spinal cord, and then to the brain, is a neuropeptide called substance P. During many chronic inflammatory conditions, such as inflammation of the bowel, these signalling pathways are sensitised so that stimuli that previously were not painful now are perceived as painful. This sensitisation has several different causes. One contributing factor seems to be related to a change in the receptor molecules that recognise substance P. Last year we discovered a new type of receptor for substance P, that is prominent in the nerve pathways between the gut and the spinal cord. This novel receptor has important characteristics that are different from the classical substance P receptor. However, we are still largely ignorant about how substance P interacts with these new receptors to modify the activity of nerve cells in sensory pathways. Indeed, we propose that these new receptors are likely to make a significant contribution to the sensitisation that occurs in inflammation. We will use a combination of sophisticated cellular and molecular techniques to study the way in which substance P acts on these novel receptors in nerves regulating the visceral organs. Our results are likely to make a significant contribution to the development and interpretation of rational new therapies for treating chronic diseases of the gastrointestinal tract, such as inflammatory bowel disease (IBD). Our studies will reveal signalling mechanisms that also are likely to be used by substance P more widely in the nervous system, that are relevant to other inflammatory conditions like arthritis, and even some forms of depression.Read moreRead less
Regulation Of P75 Death Signalling: How Neurotransmitter- And Neurotrophic- Signals Determine Cell Survival
Funder
National Health and Medical Research Council
Funding Amount
$292,216.00
Summary
Nerve cell survival is dependent on trophic support in the form of growth factors and synaptic input, both of which promote recovery after nerve injury. The survival pathways activated by growth factors are generally well characterised, whereas survival signals activated by synaptic activity are largely unexplored. This proposal aims to discover how synaptic activity prevents nerve cell death by looking at how synaptic activity inhibits the processes active in dying nerve cells.