Herpesviruses infect us all and cause cancer, blindness, and congenital disability. Developing vaccines requires information from both patients and experimental animals. CD4 T cells seem to suppress directly virus replication, and cells in the nose provide an important way for herpesviruses to get in. We will test whether CD4 T cells can clear nasal infection; what targets they recognize; and how they act. Thus we can establish whether CD4 T cell-directed vaccines might protect against disease.
A New Monocyte Atherogenic Phenotype In Chronic HIV Disease.
Funder
National Health and Medical Research Council
Funding Amount
$632,037.00
Summary
Most HIV+ people in Australia now die from cardiovascular disease, caused by atherosclerosis or thickening of coronary arteries. The ability of a white blood cell called the monocyte to prevent atherosclerosis is impaired in HIV. This project aims to understand how HIV does this and how we can reverse the effect. Understanding these processes will also help improve treatments to reduce heart disease in people with other chronic inflammatory conditions.
Understanding How Cytomegaloviruses Establish Systemic Infection
Funder
National Health and Medical Research Council
Funding Amount
$668,144.00
Summary
Human cytomegalovirus (HCMV) infects most Australians, causes birth defects and harms transplant patients. Vaccines against it have worked poorly. HCMV spreads throughout the body and is never cleared. To control infection we must identify its key checkpoints. Using mouse CMV, we find that host dendritic cells, which normally defend against infections, are taken over and spread virus to new sites. The viral gene responsible is a potential target for intervention. We will define how it works.
I am a molecular virologist researching the host response to hepatitis C virus (HCV) infection with the aim of understanding how the liver clears HCV infection. An understanding of this process will hopefully lead to novel antiviral strategies to combat not only HCV but a broad range of other viral infections.
Addressing The Major Challenges In HIV Vaccine And Cure Research
Funder
National Health and Medical Research Council
Funding Amount
$16,136,755.00
Summary
HIV remains one of the defining global health challenge of our times. 37 million people are living with HIV with 2 million new infections each year. Despite advances in management of HIV infection with antiretroviral therapy, there is still no cure, no effective vaccine, and several co-infections reduce life expectancy. This program assembles Australia’s leading HIV researchers to use innovative basic and translational science to tackle priority areas in controlling the HIV epidemic.
Hepatitis C Virus infects 3% of the world's population causing recurring liver disease, cirrhosis and hepatocellular carcinoma. To infect a liver cell, the viral glycoproteins attach to cell surface molecules wher they are activated to mediate merger of the viral and cellular membranes. This project grant will explore how the viral glycopropteins become activated and obtain essential structural information on the viral glycoproteins. These studies will help us to design antiviral agents.
Use Of Mouse Models To Study Mechanisms Of Pathology In Viral Exacerbations Of COPD
Funder
National Health and Medical Research Council
Funding Amount
$411,960.00
Summary
We want to understand why cigarette smoke exposure worsens respiratory virus infections. People who smoke, or who have smoked in the past, or who are exposed to environmental (passive) smoke, get sicker than nonsmokers when they get a respiratory virus infection, such as a common cold or the flu. This is true for people of all age groups, but we don't know why smoke has this effect. We think it may be because smoke interferes with some aspects of the immune response. A particular focus of our re ....We want to understand why cigarette smoke exposure worsens respiratory virus infections. People who smoke, or who have smoked in the past, or who are exposed to environmental (passive) smoke, get sicker than nonsmokers when they get a respiratory virus infection, such as a common cold or the flu. This is true for people of all age groups, but we don't know why smoke has this effect. We think it may be because smoke interferes with some aspects of the immune response. A particular focus of our research is chronic obstructive pulmonary disease. COPD is a serious lung disease which generally occurs in people who have smoked for many years. However, many COPD patients stopped smoking many years ago. COPD patients are especialy at risk of serious outcomes if they get a respiratory infection (known as an acute COPD exacerbation) and patients with COPD exacerbations use a lot of health care resources. There are no effective drugs to prevent or treat COPD exacerbations. We are currently using a mouse model of smoke exposure and virus infection to do this research, which is a much faster and more ethical approach than using humans in research. We believe that we will get a better understanding of how smoke affects the immune response to infection. This is likely to contribute to the development of better drugs for COPD exacerbations and other types of smoking related lung disease.Read moreRead less
Roles Of The Hepatitis C Virus Glycoprotein E2 Variable Regions In Virus Entry, Immunogenicity And Immune Evasion.
Funder
National Health and Medical Research Council
Funding Amount
$682,820.00
Summary
Hepatitis C Virus infects 200 million people world-wide with over 200,000 Australians infected with the disease. This project will examine how the surface proteins of HCV change their shape to evade antibody responses and how this effects the outcome of infection. We will further characterize a vaccine that elicits protective immunity to HCV to identify the optimal formulation for clinical trials.
Clearing Chronic Infectious Diseases – Enhancing Host Immune Effector Function
Funder
National Health and Medical Research Council
Funding Amount
$92,314.00
Summary
Chronic infections produced by pathogens such as HIV, overwhelm our immune system leading to an exhausted state where cells responsible for the clearance of invading microorganisms are unable to respond effectively. We have recently identified a highly promising therapeutic target that enhances immune effector function. We seek to understand the underlying mechanism, and to explore the therapeutic potential of this approach for the treatment of a broad range of pathogens, including those respons ....Chronic infections produced by pathogens such as HIV, overwhelm our immune system leading to an exhausted state where cells responsible for the clearance of invading microorganisms are unable to respond effectively. We have recently identified a highly promising therapeutic target that enhances immune effector function. We seek to understand the underlying mechanism, and to explore the therapeutic potential of this approach for the treatment of a broad range of pathogens, including those responsible for chronic disease.Read moreRead less