Elucidating The Mechanism Of Action Of Dendrimer Nanoparticles Against HIV
Funder
National Health and Medical Research Council
Funding Amount
$559,354.00
Summary
Dendrimers are nanoparticles with highly branched structures and they are being developed as topical microbicides to prevent the sexual transmission of HIV. This study will determine how dendrimers block HIV entry into host cells so that we can design more effective inhibitors and microbicides.
A Structural Investigation Into The T-cell Response To Epstein Barr Virus Infection
Funder
National Health and Medical Research Council
Funding Amount
$549,000.00
Summary
X-ray crystallography is an essential tool for solving the three-dimensional structure of proteins. Proteins control the biological processes within the cell and it is the precise shape of proteins that determines how they function. Depending on the particular sequence of the amino acids, the so-called building unit of the proteins, the protein molecule bends and forms a distinct, complex shape. This specific three-dimensional shape allows the protein to undertake its specific function, such as ....X-ray crystallography is an essential tool for solving the three-dimensional structure of proteins. Proteins control the biological processes within the cell and it is the precise shape of proteins that determines how they function. Depending on the particular sequence of the amino acids, the so-called building unit of the proteins, the protein molecule bends and forms a distinct, complex shape. This specific three-dimensional shape allows the protein to undertake its specific function, such as binding to other proteins, acting as an enzyme or interacting with nucleic acids. To determine how a protein acts, it is vital to know the precise three-dimensional shape at the atomic level. This proposal is concerned with understanding the precise shape of proteins that control the immune response to Epstein Barr Virus. Epstein Barr Virus is an ubiquitous human pathogen that has being linked to a number of cancers. This work will further our understanding of the immune response to Epstein Barr Virus.Read moreRead less
The Role Of Chemokines In Establishing HIV Latency
Funder
National Health and Medical Research Council
Funding Amount
$372,049.00
Summary
Although antiviral therapy is effective in controlling HIV, therapy must be continued life-long because the virus cannot be cleared from long lived infected CD4+ T cells that are silently or latently infected. In this proposal we will explore the mechanism of how HIV can enter these resting CD4+ T-cells and establish long lived latent infection. Understanding this process may potentially lead to new strategies to cure HIV infection.
The Role Of Renal Dendritic Cells In Infection And Immunity Under Immunosuppression
Funder
National Health and Medical Research Council
Funding Amount
$475,143.00
Summary
Kidney transplantation is the best treatment for kidney failure but it is frequently complicated by bacterial and viral infections that can cause rejection and may cause loss of the kidney. This grant will study the role that dendritic cells in the kidney play in causing rejection and preventing infection. With the knowledge gained from these studies, we will be able to discover new ways to prevent rejection and treat infections of the kidney post transplant.
Mechanisms Underlying APOBEC3G Restriction Of HIV-1
Funder
National Health and Medical Research Council
Funding Amount
$540,075.00
Summary
In the fight against worldwide HIV-AIDS, understanding natural cell defenses to the HIV virus may identify new virus targets and strategies to block HIV in humans. Here, we will use state-of-the-art, high resolution, fluorescent microscopy to understand how the recently identified cell protein, APOBEC3G, blocks the HIV life cycle in human cells. We anticipate that APOBEC3G will stop HIV from invading the nucleus of human cells to defend against HIV, a strategy we can apply to new therapies.
A Study Of The Molecular Epidemiology And Virulence Determinants Of Enterovirus 71 Strains From The Asia-Pacific Region
Funder
National Health and Medical Research Council
Funding Amount
$286,325.00
Summary
In this study, we aim to understand the reasons for the emergence of epidemics of severe neurological disease due to enterovirus 71 (EV71) in young children of the Asia-Pacific region since 1997, and to develop strategies for disease prevention. EV71 is a human enterovirus closely related to the polioviruses. Most infections with EV71 are trivial, however, they may occasionally result in severe disease, including brainstem encephalitis with a high mortality and acute flaccid paralysis similar to ....In this study, we aim to understand the reasons for the emergence of epidemics of severe neurological disease due to enterovirus 71 (EV71) in young children of the Asia-Pacific region since 1997, and to develop strategies for disease prevention. EV71 is a human enterovirus closely related to the polioviruses. Most infections with EV71 are trivial, however, they may occasionally result in severe disease, including brainstem encephalitis with a high mortality and acute flaccid paralysis similar to poliomyelitis. There has been a large increase in EV71 epidemic activity throughout the Asia-Pacific region since 1997, including a large epidemic in Perth, Western Australia in 1999. These epidemics have resulted in many deaths and cases of severe neurological disability. In view of the severity of EV71 neurological disease and the lack of effective treatments, our research effort needs to focus on prevention through public health surveillance and vaccine development. The major aims of our study are two-fold: 1. To study the origin and evolution of EV71 in the Asia-Pacific region using molecular techniques and to use this information to implement surveillance in Australia and Southeast Asia. It is anticipated that improved surveillance will provide early warning of impending epidemics. 2. To understand the molecular basis of virulence of EV71, with emphasis on the ability of virus to cause severe disease of the central nervous system. This study will have two goals: a. To identify the human cellular receptor of EV71. The ultimate goal of this research will be the development of a small animal model of EV71 encephalitis by constructing a transgenic mouse expressing the human cellular receptor for EV71. b. To construct an infectious cDNA clone of EV71 and to develop genetically defined attenuated strains by mutagenesis of the infectious clone. Mutant strains of EV71 will be tested for replication and virulence in newborn mice and in human neuroblastoma cells.Read moreRead less