Interactions Between H5N1 And The Respiratory Epithelium
Funder
National Health and Medical Research Council
Funding Amount
$623,065.00
Summary
This project examines the hypothesis that the severity of H5N1 infection is due to activation of signalling pathways in the lung not activated by human influenza and leads to fluid accumulation in the lungs death of respiratory cells. This study will improve our understanding of influenza infection and identify targets for treatment of H5N1.
Regulation Of The Activity And The Surface Expression Of Sodium Channels
Funder
National Health and Medical Research Council
Funding Amount
$466,980.00
Summary
The regulation of transport of salt into and out of the body is essential for the maintenance of blood pressure, and for the maintenance of the correct amount of fluid in the respiratory passages and gut. A critical component of the mechanism by which the body transports salt are sodium channels. Overactivity of these channels leads to increased blood pressure and clogging of the gut and the bronchi due to thick and sticky secretions. Reduced activity leads to abnormally low blood pressure, as w ....The regulation of transport of salt into and out of the body is essential for the maintenance of blood pressure, and for the maintenance of the correct amount of fluid in the respiratory passages and gut. A critical component of the mechanism by which the body transports salt are sodium channels. Overactivity of these channels leads to increased blood pressure and clogging of the gut and the bronchi due to thick and sticky secretions. Reduced activity leads to abnormally low blood pressure, as well as to accumulation of fluid in the lungs such as occurs in influenza and in altitude sickness. The present project will examine the mechanisms by which sodium channels are regulated. It will particularly focus on the mechanisms by which sodium channels are switched off when the salt content of cells is too high.Read moreRead less
Physiological Function Of Nedd4-2 In Regulating The Epithelial Sodium Channel And Cystic Fibrosis Transmembrane Conductance Regulator
Funder
National Health and Medical Research Council
Funding Amount
$949,572.00
Summary
Optimal transport of sodium and chloride ions is essential for the maintenance of electrolyte balance, blood volume, blood pressure and lung function. We are studying the control of a key sodium channel (the epithelial sodium channel) and a key chloride channel (cystic fibrosis transmembrane conductance regulator) by an enzyme called Nedd4-2. This project will enable us to understand how Nedd4-2 regulates these two ion channels and to study the pathological consequences of the loss of Nedd4-2.
Regulation Of Epithelial Sodium Channels By Caveolin
Funder
National Health and Medical Research Council
Funding Amount
$408,391.00
Summary
Abnormal sodium absorption in the kidney, gut and lung is implicated in hypertension, cystic fibrosis and pulmonary oedema. Epithelial Na+ channels are a key component of the mechanism by which these organs absorb sodium. The project will investigate the mechanisms by which the activity of these channels is controlled and is intended to discover new approaches to treating abnormal sodium absorption.
Regulation Of Cell Death, Cell Survival And Ubiquitination In Normal Physiology And Disease
Funder
National Health and Medical Research Council
Funding Amount
$851,980.00
Summary
The project will investigate the functions of specific genes and pathways to understand the molecular basis of various diseases. It is based on our data that indicate new roles for (i) cell death in genomic instability in cancer, and (ii) ubiquitination in hypertension, developmental defects, kidney disease, as well as iron homeostasis. The work will lead to new understanding of human disease and discovery of potential new drug targets. It will also provide training of junior scientists.