Viruses are considered neither live nor dead, and it is understood that biological process within a virus must occur after it infects a cell. Our work reveals a previous unknown step in HIV known as pre-entry priming. These discoveries challenge our current dogma of how viruses function, and imply this pre-entry priming process is a built in mechanism for HIV to protect itself. This proposal will redefine our understanding of HIV and explore novel HIV vaccine design through these discoveries.
Defining A Virally-encoded Molecular Switch Between Productive And Latent Phases Of Human Cytomegalovirus Infection.
Funder
National Health and Medical Research Council
Funding Amount
$337,614.00
Summary
Human cytomegalovirus (HCMV) is a significant human pathogen which causes serious disease in immunosuppressed people such as bone marrow and solid organ transplant patients. HCMV has the capacity to switch between an active and a dormant state, enabling this virus to remain within the human host, where it can emerge years later to cause disease in immunosuppressed people. This project will define how HCMV controls the switch between active and dormant phases of infection.
Host Cell Signalling During HTLV-1 Infection: Novel Insights And Interventions
Funder
National Health and Medical Research Council
Funding Amount
$62,335.00
Summary
Human T-leukemia virus 1 (HTLV-1) establishes a life-long infection and causes cancer and immune dysfunction. This study aims to find a cure for HTLV-1 by inducing the specific death of infected cells using novel therapeutic drugs that target host cell death pathways. Dead infected cells are then naturally cleared from the system along with the viral infection. The impact of HTLV-1 infection on tuberculosis severity will also be examined.
Immune Modulatory Effects Of Vaginal Microbiota Metabolites And HIV Susceptibility
Funder
National Health and Medical Research Council
Funding Amount
$795,110.00
Summary
This study will advance knowledge on how acid molecules produced by beneficial and harmful bacteria are able to promote or impede HIV infection of the female genital mucosa through their effects on the barrier and immune function of cells that line the vagina and cervix. The results of this study are anticipated to augment the efficacy of topical HIV prevention strategies and lead to the development of safe vaginal hygiene products that help protect against other sexually transmitted infections.
Cell Surface Lectin Receptors For Attachment And Entry Of Influenza Viruses Into Cells Of The Innate Immune System
Funder
National Health and Medical Research Council
Funding Amount
$530,094.00
Summary
Influenza virus is a leading cause of respiratory infection and death worldwide. Infection of humans is initiated when the virus contacts cells lining the respiratory tract. Infection of epithelial cells leads to virus amplification whereas infection of immune cells results in virus destruction. Despite extensive research efforts, it is not clear how the virus infects these cells. This project aims to identify receptors on human cells used by influenza virus to attach to and infect immune cells.
Determination Of The Mechanisms Of Action Of A Cytomegalovirus Chemokine Receptor Homologue In Pathogenesis
Funder
National Health and Medical Research Council
Funding Amount
$251,341.00
Summary
A number of herpesviruses encode proteins that are similar to proteins of our immune system. These pirated proteins are exploited by the virus to enable it to replicate and persist in the infected individual, usually by evading or gaining advantage from the normal immune response. This project will investigate the role of one such protein found in both human and animal herpesviruses (specifically cytomegaloviruses (CMV)) that is conserved with cellular cell surface proteins (receptors) that bind ....A number of herpesviruses encode proteins that are similar to proteins of our immune system. These pirated proteins are exploited by the virus to enable it to replicate and persist in the infected individual, usually by evading or gaining advantage from the normal immune response. This project will investigate the role of one such protein found in both human and animal herpesviruses (specifically cytomegaloviruses (CMV)) that is conserved with cellular cell surface proteins (receptors) that bind immune signaling molecules (chemokines). Chemokines are important proteins in the early response to infection. Binding of chemokines to their receptors initiates a cascade of signals within the cell that has profound effects on cellular responses to environmental stimuli. Thus, it is believed that herpesviruses have acquired chemokine receptors to modify or react to the immune response, causing infected cells to behave abnormally either despite or in response to chemokine signals. This project will determine how this CMV specific protein affects the function of cells that CMV infects and how this may promote virus replication, dissemination and persistence in infected hosts. We will also engineer CMVs where the activity of the target protein can be inhibited by administration of prototype antiviral drugs. If inhibition of the activity of the protein is found to reduce virus replication, dissemination or persistence, then this will demonstrate that this type of protein would be a suitable target for the development of novel drugs active against CMV infections. CMV can cause serious (potentially life threatening) disease in newborn children (following infection in the uterus) and immunosuppressed people (eg. organ transplant recipients and people with HIV-AIDS). Our studies will improve our understanding of the contribution of a specific CMV protein to disease, thereby assisting efforts to reduce the impact of CMV infections.Read moreRead less
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.
Envelope Glycoprotein Determinants Of HIV-1 Subtype C Tropism And Pathogenicity
Funder
National Health and Medical Research Council
Funding Amount
$657,745.00
Summary
HIV-1 subtype C is the most common subtype of HIV-w worldwide, yet we know comparatively little about how it causes disease in humans. This study will elucidate how HIV-1 subtype C evolves in patients to become more pathogenic over time.