ROLE OF RIP KINASES & IAPs IN MUCOSAL IMMUNE DEFENCE
Funder
National Health and Medical Research Council
Funding Amount
$631,168.00
Summary
Pathogenic bacteria are master manipulators of the inflammatory signalling pathways designed to thwart them. Understanding how they do this will allow us to develop drugs that limit their ability to infect. We have shown that pathogenic bacteria inject a protein called EspL into human cells to promote the destruction of a family of human proteins, called RIP Kinases (RIPK), that co-ordinate the inflammatory response and aim now to discover how EspL causes RIPK degradation and thereby promotes in ....Pathogenic bacteria are master manipulators of the inflammatory signalling pathways designed to thwart them. Understanding how they do this will allow us to develop drugs that limit their ability to infect. We have shown that pathogenic bacteria inject a protein called EspL into human cells to promote the destruction of a family of human proteins, called RIP Kinases (RIPK), that co-ordinate the inflammatory response and aim now to discover how EspL causes RIPK degradation and thereby promotes infection.Read moreRead less
Regulation Of NOD Signalling By IAPs And RIP Kinases
Funder
National Health and Medical Research Council
Funding Amount
$643,172.00
Summary
Alterations in NOD signalling have been implicated in various human inflammatory diseases, particularly in Crohn’s disease and asthma. In this project we will identify new molecules that regulate NOD signalling and test the effect of drugs that inhibit known components of these pathways to determine their utility in treating inflammatory diseases.
Only recently has it emerged that our cells have a built-in backup mechanism that instructs cells to die in extreme cases, such as when viruses have hijacked a cell. A misfiring backup mechanism is thought to underlie a number of human diseases, including inflammatory disease. Our investigation will establish a starting point for the development of novel anti-inflammatory drugs.
Mechanisms of itch - from endosomal signalling to neural circuits. This project aims to investigate the cellular and circuit mechanisms of itch transmission in the spinal cord by defining the activation and propagation of itch-specific signals. This project expects to generate new knowledge in the area of neuronal signalling and circuitry using novel electrophysiological approaches that target and manipulate specific nerves and cellular components. The project will characterise signalling within ....Mechanisms of itch - from endosomal signalling to neural circuits. This project aims to investigate the cellular and circuit mechanisms of itch transmission in the spinal cord by defining the activation and propagation of itch-specific signals. This project expects to generate new knowledge in the area of neuronal signalling and circuitry using novel electrophysiological approaches that target and manipulate specific nerves and cellular components. The project will characterise signalling within specific spinal subcircuits in order to understand the mechanisms of receptor activation and signalling, and investigate how circuit activity is regulated. This project expects to advance fundamental understanding of itch signalling in the nervous system and provide avenues for future therapeutics.Read moreRead less