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.
Escape And Reversion Of Critical Immune Responses: Insights Into Effective Immunity To HIV
Funder
National Health and Medical Research Council
Funding Amount
$372,446.00
Summary
The HIV pandemic is a global emergency. The overall goal of this grant proposal is to elucidate the requirements for protective immunity to HIV. Although immune responses have some effect on HIV replication, the virus mutates and evolves to escape immune pressure. However, each mutation away from wild-type virus likely results in at least some impairment in the ability of the virus to replicate. Where efficient immune responses target regions of the virus that are critical to virus replication, ....The HIV pandemic is a global emergency. The overall goal of this grant proposal is to elucidate the requirements for protective immunity to HIV. Although immune responses have some effect on HIV replication, the virus mutates and evolves to escape immune pressure. However, each mutation away from wild-type virus likely results in at least some impairment in the ability of the virus to replicate. Where efficient immune responses target regions of the virus that are critical to virus replication, escape mutations may result in viral variants incapable of causing disease. Resulting from an exciting collaboration between HIV and theoretical biologists, we have recently identified techniques to calculate the effectiveness of immunity and the cost of subsequent immune escape variants. We will use and expand these techniques to identify immune responses that result in the most effective control of viral replication. These studies will lead to ways to improve HIV vaccines and thereby prevent HIV.Read moreRead less
Macfarlane Adaptive Changes In HIV-1 Subtype C Envelope Glycoproteins Contributing To Pathogenicity.
Funder
National Health and Medical Research Council
Funding Amount
$310,787.00
Summary
HIV exists as multiple subtypes. The most commonly studied is type B (B-HIV). B-HIV is common in developed countries, but accounts for only a small fraction of HIV infections worldwide. Type C HIV (C-HIV) in Africa and Asia accounts for the majority of infections worldwide, yet very little is known about how C-HIV causes AIDS. We aim to understand how C-HIV causes AIDS. This is critical for development of drugs and vaccines specifically designed for those who are most urgently need.
Processes Underlying Establishment And Maintenance Of The Latent HIV Resevoir And Potential Impact Of Integrase Inhibitors
Funder
National Health and Medical Research Council
Funding Amount
$318,044.00
Summary
Therapy for HIV-infected individuals is currently able to control the growth of the virus, but cannot eradicate the viral infection. This is due to a pool of CD4+ T lymphocytes which contain HIV DNA in a latent state, ready to reactivate as soon as therapy is interrupted. This project aims to better understand how this pool of latently infected CD4+ T lymphocytes is established and maintained, particularly how it is linked to the essential T cell survival signal from interleukin 7.
Understanding The Side Effects Of HAART In HIV Patients
Funder
National Health and Medical Research Council
Funding Amount
$387,489.00
Summary
Combination therapy has dramatically improved the life expectancy of people living with HIV. However, the long term side effects of these medications can be significant. Not everyone treated with the same drugs suffers similar side effects. This project seeks to unravel factors that lead a given individual to experience particular side effects. Understanding why medication side effects occur will be critical in finding safer ways to treat HIV.
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.
In recent years it has become clear that certain white blood cells called CD8+ T lymphocytes or killer T cells are required to protect people against HIV. Unfortunately, current vaccines that produce or anti-HIV CD8 T cells only produce effective T cells for a short period. In this project we intend to test a novel vaccine vector called a Kunjin replicon, which promises to persistently produce or maintain effective T cells because the vaccine itself persists and continually immunises for extende ....In recent years it has become clear that certain white blood cells called CD8+ T lymphocytes or killer T cells are required to protect people against HIV. Unfortunately, current vaccines that produce or anti-HIV CD8 T cells only produce effective T cells for a short period. In this project we intend to test a novel vaccine vector called a Kunjin replicon, which promises to persistently produce or maintain effective T cells because the vaccine itself persists and continually immunises for extended periods. We intend to test the ability of this vaccine to persist and persistently produce effective CD8 T cells not only systemically in the blood system but also at mucosal surfaces, where HIV usually gains entry during sexual intercourse.Read moreRead less