Understanding The Role Of Ongoing Viral Activity In Herpes Simplex Virus Latency
Funder
National Health and Medical Research Council
Funding Amount
$980,762.00
Summary
The virus that causes cold sores and genital herpes has a dormant phase from which renewed infection can recur. We recently discovered that this dormant phase is more active than we thought and we now want to learn how the body acts to suppress the virus so that these defence mechanisms might be improved to stop recurrent infections.
The Impact Of HIV Integration Sites On Eliminating HIV Latency
Funder
National Health and Medical Research Council
Funding Amount
$778,313.00
Summary
Current antiviral therapy for HIV controls virus production and allows recovery but does not eliminate the silent infection that prevents complete virus elimination and cure. We will examine two ways that HIV can silently infect T cells for differences in the sites at which the HIV DNA inserts into the genome. We will examine the way in which these differences at the genomic level may limit the ability to activate and eliminate persistent infection in memory T cells.
The Role Of Chemokine Signalling In Maintenance Of The Latent HIV Reservoir
Funder
National Health and Medical Research Council
Funding Amount
$92,161.00
Summary
HIV cure research aims to eliminate cells with HIV in their DNA. These cells have higher levels of a receptor, CCR6, signalling through which causes migration to and concentration in the gut. This gut migration may help to maintain the HIV reservoir by bringing susceptible cells close to infected cells. We will assess the effect of blocking CCR6 signalling on the ability to infect these cells with HIV in the laboratory and its effect on the reservoir of an analogous virus in macaques.
HIV infection is a dynamic process, in which the host immune response tries to control viral growth and keep up with the rapid evolution of the virus. This project assembles an interdisciplinary team of mathematicians and biologists to use a modelling approach to understand the dynamics of viral infection, viral evolution, and immune control in the infected individual. The insights gained from this project will help in the development of new drug and vaccination strategies.
Characterising The Genotypic And Phenotypic Properties Of The HIV-1 Viral Reservoir
Funder
National Health and Medical Research Council
Funding Amount
$316,819.00
Summary
Current drug treatments can not eradicate HIV from the body. This is because HIV can infect and establish a latent or “silent” infection in long-lived cells of the immune system that can re-emerge out of these cells when drug treatment is stopped. This project aims to find out how these cells become infected and what type of HIV is infecting them. The results from this study will help us better understand the latent infection and will help researchers design ways to eradicate HIV.
A Humanised Mouse Model For Herpes Simplex Virus Pathogenesis
Funder
National Health and Medical Research Council
Funding Amount
$277,109.00
Summary
Herpes simplex virus (HSV) causes cold sores and genital herpes, diseases that persist and recur. This persistence is because HSV has several ways of stopping the body from detecting and eliminating the cells that it infects. This project will generate new tools that will help us to understand one of the ways that HSV hides from our defences and may be useful in developing immune-based therapies to treat the infection.
Improved Health Outcomes For People Living With HIV
Funder
National Health and Medical Research Council
Funding Amount
$560,284.00
Summary
Despite the success of antiviral therapy for HIV infection, HIV cannot be cured and treatment is life long. In addition, there are complications in patients on long term antiviral therapy due to impaired immune recovery. This grant will identify strategies to eliminate HIV from latently infected cells that persist in patients on antiviral therapy as well as identify novel ways to improve the immune response to antiviral treatment for patients with HIV infection as well as patients co-infected wi ....Despite the success of antiviral therapy for HIV infection, HIV cannot be cured and treatment is life long. In addition, there are complications in patients on long term antiviral therapy due to impaired immune recovery. This grant will identify strategies to eliminate HIV from latently infected cells that persist in patients on antiviral therapy as well as identify novel ways to improve the immune response to antiviral treatment for patients with HIV infection as well as patients co-infected with hepatitis B virus (HBV)Read moreRead less
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.
Viral Determinants Of HIV-1 Transcriptional Latency In The Central Nervous System
Funder
National Health and Medical Research Council
Funding Amount
$632,489.00
Summary
The anti-HIV drugs that are currently used to treat HIV-1 infection cannot eliminate the virus from the body, and therefore, cannot cure HIV-1 infection. The major reason why the drugs cannot provide a cure is because they cannot reach virus that hides in particular cells types referred to as "reservoirs". This study will determine how HIV-1 can take sanctuary in these reservoirs, which will be critical information for strategies that aim to cure HIV-1 infection.
Antiviral therapy for HIV infection has substantially reduced mortality but HIV can't be cured. This is because HIV causes a silent or latent infection in some cells. This grant will investigate a new class of drugs which show promise in reversing latent infection and potentially eliminating HIV from infected patients