AIDS is caused by the human immunodeficiency virus type 1 (HIV-1). Long-term HIV infection leads to increased incidence of Kaposi's sarcoma, AIDS dementia complex, and immune dysfunctions. The HIV-1 Tat protein has been linked to disease progression. However, Tat is predominantly found in the cell nucleus while measurable levels in patient serum. This is not believed to be a passive event caused by dying cells. Here we will investigate how Tat is released by HIV-1 infected cells.
Whole Human Genone Expression Analysis In CD4+ CD8+ T Cells And Monocytes At Various Stages Of HIV Disease
Funder
National Health and Medical Research Council
Funding Amount
$380,558.00
Summary
HIV is an important global problem and what happens to human gene machinery at the level of different cell types upon contact with HIV remains unclear. We have a novel approach of analysing whole human genome expression in relation to HIV in diverse blood cell types. Identification and understanding of key genes will provide insights into how restoration of the host immune system could be achieved in the future in combating HIV infection and possible cure.
Modelling The Interaction Between Sexually Transmitted Infections And HIV Transmission To Inform Public Health Policy
Funder
National Health and Medical Research Council
Funding Amount
$543,624.00
Summary
Other sexually transmitted infections (STIs) increase the risk of acquiring or transmitting HIV. Using mathematical models the population level effects of this increased risk will be investigated. This work will inform the design of effective and efficient STI treatment programs that aim to reduce the number of HIV infections in Australian gay men, prevent HIV epidemics in Aboriginal and Torres Strait Island communities, and slow the growth of HIV in Papua New Guinea.
This project will determine how viruses prevent transmission of messages within cells which orchestrate responses of our immune system to infection and whether our current therapies improve this defect. This knowledge will help us to better understand why our immune system is not able to control chronic virus infection and improve therapies for these diseases.
The development of vaccines and better treatments for HIV-AIDS and Hepatitis C are urgent global health priorities. This Program will undertake studies to better understand effective immunity against HIV and hepatitis C, allowing the rational design and testing of novel vaccines and treatments. The Program brings together a team of researchers with skills in basic virology and immunology with those providing expertise in translating findings in the laboratory into human clinical trials.
Comparative Effectiveness Of Vaccine-induced SIV-specific CD8 T Cells
Funder
National Health and Medical Research Council
Funding Amount
$607,797.00
Summary
A HIV vaccine remains elusive. Although killer T cell immunity can provide partial protection from HIV disease, we don't know the best type of killer T cells to induce by vaccination. This project compares multiple HIV vaccine strategies in macaques. We will carefully study the quality of killer T cell immunity induced using novel and cutting-edge assays. We will identify the requirements for effective killer T cell immunity to HIV.