Studies On The Activation And Immunogenicity Of The HIV-1 Glycoproteins, Gp120-gp41
Funder
National Health and Medical Research Council
Funding Amount
$606,438.00
Summary
More than 34 million people were living with HIV-1 in 2011 with ~7,000 new infections still occurring daily. A prophylactic vaccine for HIV-1 is needed to stop its transmission, however, this goal is yet to be achieved. Our proposed studies will inform the design of prophylactic HIV-1 vaccines that act by making antibodies that neutralize the virus.
HIV Phenotypes Important For The Establishment Of Persistent Reservoirs In The Central Nervous System And Which Impact Neurotropism And Neuropathogenesis
Funder
National Health and Medical Research Council
Funding Amount
$762,492.00
Summary
This grant will determine whether or not the CNS is a reservoir for HIV and identify the cellular targets of persistent infection and type of HIV-1 present.
Envelope Glycoprotein Determinants Underlying Cytopathicity Of CCR5-restricted Human Immunodeficiency Virus Type 1
Funder
National Health and Medical Research Council
Funding Amount
$428,602.00
Summary
HIV weakens the immune system causing AIDS, but the mechanism by which HIV does this are poorly understood. This proposal aims to define these mechanisms. We expect that HIV evolves in infected people, becoming better able to infect and kill cells of the immune system, and that this results from specific genetic changes in the virus. This study will contribute to a greater understanding of how HIV causes AIDS, which is necessary for the development of new drugs to treat HIV infection.
Topical microbicides are urgently required to protect women from the sexual transmission of HIV. Lactic acid is produced by bacteria that are normally present in the healthy female vaginal tract and is more potent in the inactivation of HIV compared to low pH alone. This study seeks to determine how lactic acid inactivates HIV and to undertake laboratory studies to determine its suitability for development as a topical microbicide to prevent HIV transmission.
Protein Topogenesis And The Assembly/disassembly Of The Enveloped Hepatitis B Virus.
Funder
National Health and Medical Research Council
Funding Amount
$197,884.00
Summary
An estimated 350 million people worldwide, and 250,000 in Australia, are chronically infected with the hepatitis B virus (HBV). Without intervention, one third will die as a direct result of this infection through cirrhosis, liver failure and liver cancer, but current treatments are inadequate. A major obstacle to the study of this virus is the lack of a cell culture infection system. We have used the duck hepatitis B virus (DHBV) model to study the events leading up to assembly of the virus in ....An estimated 350 million people worldwide, and 250,000 in Australia, are chronically infected with the hepatitis B virus (HBV). Without intervention, one third will die as a direct result of this infection through cirrhosis, liver failure and liver cancer, but current treatments are inadequate. A major obstacle to the study of this virus is the lack of a cell culture infection system. We have used the duck hepatitis B virus (DHBV) model to study the events leading up to assembly of the virus in a way which prepares the viral envelope or outer coat for its foray into a new host cell. The project will examine the specific interactions of two proteins, the large and the small envelope protein, in addition to a third envelope protein we have recently discovered, which together make up the viral envelope. This will reveal which envelope components are required to make up the specific structures known to be essential for the disruption of the host cell membrane and subsequent entry of the virus to a new cell. An understanding of the changes that occur to the viral envelope upon entry will enable development of strategies for the inhibition or blocking of this change, thus identifying targets for the development of new antiviral agents. Because HBV is just one of many viruses which have an envelope, all of which must enter the cell in some way, our studies of HBV will also provide new clues with respect to the replication of other viruses such as measles, influenza and HIV. A related part of the study will examine the orientation of the large envelope protein within the virus particle and how it changes its orientation to assume its many important functional roles, in the late stages of particle assembly. Expanding on our finding that the small protein is essential to the orientation of the large protein, this study will reveal the mechanism of a unique method of protein transport which may have wider implications in cell biology.Read moreRead less
Role Of The Hepatitis C Virus Glycoprotein E2 Variable Regions In Viral Entry And Antibody Mediated Neutralization.
Funder
National Health and Medical Research Council
Funding Amount
$542,462.00
Summary
The first stage of Hepatitis C Virus replication involves attaching to liver cells. This study is aimed at understanding how the virus attaches to liver cells and how antibodies raised during infection, block this interaction. In addition, this study aims to examine how the virus modulates its structure to evade the immne system, allowing the virus to establish chronic infections. The results of this study will guide future vaccine design for HCV.