Physiologically-based Pharmacokinetics And Pharmacodynamics Of Therapeutic Stem Cells For Liver Disease
Funder
National Health and Medical Research Council
Funding Amount
$848,710.00
Summary
This project focuses on the challenging area of effective and optimal dosing cell-based therapy for liver diseases. We will investigate the fate and therapeutic effects of natural, modified and artificial therapeutic cells in the body and in liver regions using a physiologically-based kinetic model. Our key goal is advance cell therapy by providing a better understanding and dosing guidelines.
Deciphering Signalling Pathways Regulating Iron Homeostasis
Funder
National Health and Medical Research Council
Funding Amount
$407,402.00
Summary
Iron overload and anaemia are two of the most significant health problems affecting humans. Understanding how the body regulates iron levels is key to our understanding of these disorders and to the future development of new therapies. This research is aimed at understanding how a hormone produced in the liver called hepcidin that maintains iron balance is regulated. This research may lead to novel therapies aimed at correcting the iron balance in conditions of iron overload or anaemia.
SARA: Delineating Its Association With The Onset And Development Of Liver Fibrosis
Funder
National Health and Medical Research Council
Funding Amount
$865,972.00
Summary
Liver disease, a significant burden on society, affects many in the prime of their life. Scarring of the liver is a response to injury due to many factors including alcohol, viruses, obesity, and fatty-liver disease. We have identified a protein associated with liver injury. In this project we will perform a systematic analysis to understand the role of this protein in injury progression. Ultimately we intend to develop tools to prevent and treat liver injury.
Tissue Ferritin Is A Damage-associated Molecular Pattern (DAMP) In Inflammasome-induced Inflammation Associated With Hepatic Stellate Cell Activation And Fibrogenesis In Chronic Liver Disease.
Funder
National Health and Medical Research Council
Funding Amount
$783,612.00
Summary
We have generated considerable evidence for a role for tissue ferritin as a mediator of inflammation associated with liver fibrosis (scarring) These highly novel and innovative studies will assist in identifying pathways involved in the proinflammatory phenotype of hepatic stellate cells (scar-forming cells in the liver) in chronic liver disease and thus will greatly aid in understanding how liver scarring occurs in chronic liver disease.
Tissue Ferritin Acts As A Proinflammatory Mediator Of Hepatic Fibrosis In Chronic Liver Disease Via Multiple Receptors In Hepatic Stellate Cells Responsible For Both Binding And Signalling.
Funder
National Health and Medical Research Council
Funding Amount
$777,887.00
Summary
Our research has identified a role for tissue-derived ferritin as a proinflammatory cytokine in hepatic stellate cell biology, the cells responsible for liver scarring (fibrosis) in Haemochromatosis. This proposal will identify the receptor responsible for eliciting ferritin's proinflammatory action and assess its role in fibrosis. This study will have implications in chronic liver diseases of varying aetiologies where elevated serum ferrritin is associated with inflammation.
Cancers of the skin are the most common tumours in humans, and their diagnosis and treatment impose the largest costs on Australia’s cancer budget. While much has been learned about the roles of sunlight and skin type as risk factors for skin cancer, relatively little is known about the genes conferring risk. This study will compare the genetic profiles of over 6000 patients with skin cancer to 3000 people without skin cancer to pinpoint the genes responsible for skin cancer.
Functional Dyspepsia: Characterisation Of The Immunopathology And Testing A Novel Therapeutic Strategy.
Funder
National Health and Medical Research Council
Funding Amount
$739,604.00
Summary
Dyspepsia, unexplained stomach discomfort and pain, is a common and costly problem; few effective treatments exist and the causes are unknown. We have found that the numbers of a type of immune cell, the eosinophil, are increased in the top of the small bowel in patients with dyspepsia. This study will explore the mechanisms that lead to increased eosinophils and then test the effectiveness of a treatment to suppress this overactive immune response which could rapidly change clinical practice.
Cultivated Corneal Endothelial Cell Implants For Restoring Vision
Funder
National Health and Medical Research Council
Funding Amount
$886,032.00
Summary
Thousands of Australians each year receive a corneal tissue transplant from the eyes of a deceased organ donor. In the majority of cases these transplants are performed to restore structure and function to the most posterior layer of the cornea – the corneal endothelium. The reliance upon donor tissue, however, presents significant logistical and safety issues. Our goal is therefore to develop improved strategies for treating diseases of the corneal endothelium using cultivated tissue implants.
Cellular Cross-talk Between Liver Progenitor Cells And Hepatic Stellate Cells Is Required For Hepatic Fibrogenesis
Funder
National Health and Medical Research Council
Funding Amount
$618,517.00
Summary
Deloitte Access Economics data proposes the total economic burden of liver disease in Australia in 2012 was >$50 billion. This study will identify how the liver heals itself by inducing liver cell populations which interact to regenerate damaged liver tissue in chronic liver disease. This knowledge may lead to the development of novel therapeutic interventions for the treatment of liver scarring and liver cancer, and to assist in normal liver regeneration following chronic liver disease.
Innate Immune Signalling In Mycobacterium Tuberculosis Infection
Funder
National Health and Medical Research Council
Funding Amount
$562,857.00
Summary
Tuberculosis (TB) is a major global health threat that causes 1.5 million deaths every year. This study will characterise a new molecular control mechanism that optimises the immune response to the bacteria that cause TB and determine how it contributes to controlling the infection. Such knowledge is essential to help improve patient management and develop better treatments for this devastating disease.