Host Determinants Of Hepatitis C-associated Liver Disease
Funder
National Health and Medical Research Council
Funding Amount
$610,376.00
Summary
Hepatitis C virus (HCV) infection is a major cause of liver disease and associated deaths in Australia. HCV infection leads to progressive liver failure and may be associated with the development of liver cancer. Currently there are an estimated 220,000 people in Australia living with HCV infection, and by 2020 it is estimated that this number will treble. There is now considerable evidence to indicate that the effect of HCV on the liver is due to ongoing immune activity and the build up of fat ....Hepatitis C virus (HCV) infection is a major cause of liver disease and associated deaths in Australia. HCV infection leads to progressive liver failure and may be associated with the development of liver cancer. Currently there are an estimated 220,000 people in Australia living with HCV infection, and by 2020 it is estimated that this number will treble. There is now considerable evidence to indicate that the effect of HCV on the liver is due to ongoing immune activity and the build up of fat (steatosis) in the liver. This results in the production of biochemical products that lead to tissue damage and to eventual destruction of the liver. Further evidence has recently emerged to suggest that the susceptibility to, and outcome of HCV infection may be influenced by genetic variation in the infected population. The chief investigators on this project have established the best characterised clinical cohort of HCV infected persons worldwide. Further, they have developed considerable expertise in the field of genetics, i.e. the analysis of genes that influence the host's response to an illness. Using this information and expertise, we propose in the present study to analyse in detail the host genetic factors that contribute to variations in the response to HCV, and its correlation with HCV-associated liver damage. This data could allow the development of better patient care strategies and the design of novel therapeutics.Read moreRead less
I am infectious disease physician undertaking research on natural history and therapeutic strategies in viral hepatitis, including acute hepatitis C, chronic hepatitis C and chronic hepatitis B. The hepatitis C therapeutic research has a particular focus
Hepatitis C virus (HCV), the main cause of of post-transfusion and community -acquired non-A, non-B hepatitis, infects approximately 170 million humans world-wide with some 135,000 infections in Australia alone. HCV is hyper-endemic in intravenous blood users with typical prevalence rates of 60-70%. About 75-80% of infected individuals develop a chronic infection, usually resulting in recurrent, progressively worsening liver damage. Cirrhosis develops in 10-20% of chronic cases while 1-5% of chr ....Hepatitis C virus (HCV), the main cause of of post-transfusion and community -acquired non-A, non-B hepatitis, infects approximately 170 million humans world-wide with some 135,000 infections in Australia alone. HCV is hyper-endemic in intravenous blood users with typical prevalence rates of 60-70%. About 75-80% of infected individuals develop a chronic infection, usually resulting in recurrent, progressively worsening liver damage. Cirrhosis develops in 10-20% of chronic cases while 1-5% of chronic carriers develop liver cancer. Development of an effective vaccine is complicated due to the highly variable nature of the virus. Approved therapies include alpha-interferon and alpha interferon-ribavirin combinations but these treatments induce efficacious responses in only 20-30% of patients and often have severe side-effects. It is assumed that after attachment of HCV to the cell surface, the virus is internalised by the cell and undergoes fusion with a cellular compartment referred to as an endosome. The low pH environment of the endosome is presumed to trigger viral fusion via its cell surface glycoproteins and empties the replication machinery of the virus into the cell. No reliable systems for the propagation of HCV are available thereby limiting studies into the mechanisms of how HCV infects cells and the development of vaccines. Recently a cell surface molecule, CD81, was identified as a possible receptor for the attachment of HCV to susceptible cells. Our aim is to 1) develop model systems for studying HCV entry and fusion and 2) further characterise the interaction of the HCV glycoproteins with CD81 with the goal of obtaining a three-dimersional structure of the interaction . These studies will address the fundamental questions of how HCV enters cells leading new avenues for the design of inhibitors of HCV entry.Read moreRead less
Polarized Epithelia And The Natural History Of Hepatitis Viruses
Funder
National Health and Medical Research Council
Funding Amount
$358,770.00
Summary
The viruses causing hepatitis in man must cross specialised cell layers in the body to reach the liver, and must again cross these cell layers and liver cells in order to be transmitted to subsequent hosts. This research will examine how each of the hepatitis viruses (HAV to HEV) are able to enter and exit the body, and the role that these mechanisms may play in the development of acute disease and of chronic infections with hepatitis B and C viruses. The findings will contribute to development ....The viruses causing hepatitis in man must cross specialised cell layers in the body to reach the liver, and must again cross these cell layers and liver cells in order to be transmitted to subsequent hosts. This research will examine how each of the hepatitis viruses (HAV to HEV) are able to enter and exit the body, and the role that these mechanisms may play in the development of acute disease and of chronic infections with hepatitis B and C viruses. The findings will contribute to development of improved methods for the prevention and control of viral hepatitis.Read moreRead less
Fine Positioning And Effector Function Of T Cells Recruited To The HCV Infected Liver
Funder
National Health and Medical Research Council
Funding Amount
$321,973.00
Summary
The majority of patients who become infected with hepatitis C virus (HCV) are unable to mount an effective immune response and clear the virus and therefore develop lifelong (chronic) infection. The persistence of virus in the liver of patients with chronic infection results in the recruitment of significant numbers of immune cells, notably T cells, from the bloodstream into the liver where they are involved in both viral control (but not viral clearance) and liver injury. The level of tissue in ....The majority of patients who become infected with hepatitis C virus (HCV) are unable to mount an effective immune response and clear the virus and therefore develop lifelong (chronic) infection. The persistence of virus in the liver of patients with chronic infection results in the recruitment of significant numbers of immune cells, notably T cells, from the bloodstream into the liver where they are involved in both viral control (but not viral clearance) and liver injury. The level of tissue injury observed and the speed of disease progression may be linked to the type of T cells recruited, their function, and their position in the liver. The aims of this project are to determine the factors involved in the fine positioning of T cells in the liver and establish a relationship between T cell recruitment, function, and progression of HCV disease in the liver.Read moreRead less
Novel Approaches To The Pathogenesis Of Chronic Hepatitis C Virus Associated Liver Disease
Funder
National Health and Medical Research Council
Funding Amount
$212,036.00
Summary
The incidence of hepatitis C virus (HCV) infection is rapidly increasing in our community. This infection cannot be prevented by vaccination and the current treatments often fail. We believe that the novel approaches we are taking towards gaining an improved understanding of this disease process have the potential to lead to better therapies. We propose to examine disease progression using the new technology of gene array which scans thousands of genes simultaneously to find those most activated ....The incidence of hepatitis C virus (HCV) infection is rapidly increasing in our community. This infection cannot be prevented by vaccination and the current treatments often fail. We believe that the novel approaches we are taking towards gaining an improved understanding of this disease process have the potential to lead to better therapies. We propose to examine disease progression using the new technology of gene array which scans thousands of genes simultaneously to find those most activated. Our preliminary experiments indicated that one particular set of genes related to cell death is upregulated in HCV cirrhosis more than in other kinds of cirrhosis. We propose to pursue the diagnostic-prognostic potential of one of these molecules. Primarily this project will ask what kinds of genes are activated by HCV infection and at various stages of disease progression through to fibrosis and cirrhosis and following liver transplantation to better understand these processes. We believe that this research is likely to lead to a new understanding of hepatitis C associated liver disease that may lead to novel approaches to therapy.Read moreRead less
Determinants Of The Outcomes From Infectious Diseases
Funder
National Health and Medical Research Council
Funding Amount
$585,269.00
Summary
This Fellowship will allow Professor Lloyd to continue clinical and laboratory research in two areas: firstly, in relation to prevention of transmission of hepatitis C infection, and scale up of antiviral treatments, particularly amongst prisoners. Secondly, in studies investigating the biological basis of chronic fatigue states following acute infection or cancer treatment, and also in development of effective treatment for chronic fatigue states.