Extracellular Acidification And Its Role In Disease
Funder
National Health and Medical Research Council
Funding Amount
$371,529.00
Summary
This proposal focuses on the diseases cystic fibrosis and acute pancreatitis for which there are currently no treatments. In both diseases the affected organs become strongly acidic. Furthermore, these acid changes can be causal in disease progression. However, the source of this acidification is remains unknown. We will identify the routes of acid secretion, the causal role of acidification in disease progression and the effectiveness of treatments aimed at restoring acid-base balance.
Role Of Sphingolipid Signalling In Hepatic Insulin Resistance And Its Application In Prediction Of Risk For Type 2 Diabetes And Prediabetes
Funder
National Health and Medical Research Council
Funding Amount
$563,305.00
Summary
Type 2 diabetes is expected to reach epidemic proportions in the coming decades. Prediabetes is usually unrecognized and constitutes a major public health concern that needs earlier interventions, because the majority of prediabetic subjects proceed to T2D. We have identified an enzyme that plays an important role in insulin signalling. The possibility is that the level or activity of this enzyme is a potential biomarker of the prediabetes state and could be also used as a target
Fibrosis is a key cause of renal pathology-dysfunction. Relaxin is an endogenous reno-protective factor, and thus has enormous therapeutic potential. However, despite compelling pre-clinical evidence of its efficacy, little is known about relaxin's mechanism of action. These studies will lead to a much better understanding of its signal transduction properties that will allow us to maximise its anti-fibrotic potential; identify new targets for intervention; and design better clinical trials.
Preventing Blindness: Blocking TGF¤-induced EMT And Cataract Development
Funder
National Health and Medical Research Council
Funding Amount
$343,824.00
Summary
Cataract, the loss of transparency of the eye lens, is a major cause of blindness. We have identified molecules in the lens important for maintenance of its transparency and plan to characterise their effectiveness in preventing cataract formation.