I am an infectious diseases physician and basic scientist interested in the immunopathogenesis of HIV and hepatitis B virus. My work focuses on HIV viral reservoirs and immune reconstitution and the adaptive immune response to hepatitis B virus.
Systematically Exploring The Contribution Of Immunoproteasome To Immunodominance And T Cell Function
Funder
National Health and Medical Research Council
Funding Amount
$499,860.00
Summary
Vaccine will help us to fight both infectious diseases and malignancy. However, there are few successful vaccines for infectious agents and there is simply no vaccine to cure any tumor at the moment. So, it is essential for us to learn the basics related to vaccine development. Killer T cells eliminate tumour cells or virally infected host cells by recognising fragments (epitopes) derived from tumour- or virus-derived proteins displayed on a host molecule called MHC. Normally multiple epitopes a ....Vaccine will help us to fight both infectious diseases and malignancy. However, there are few successful vaccines for infectious agents and there is simply no vaccine to cure any tumor at the moment. So, it is essential for us to learn the basics related to vaccine development. Killer T cells eliminate tumour cells or virally infected host cells by recognising fragments (epitopes) derived from tumour- or virus-derived proteins displayed on a host molecule called MHC. Normally multiple epitopes are generated as part of the protein recycling program referred as proteine degradation which is mainly conducted by bundled enzyme complex, called proteasome. Two major forms of proteasomes are expressed by most cells. One called house-keeping proteasome and the other, which replaces the house-keeping one during viral infections is called immunoproteasome. The role that the immunoproteasome plays during anti-viral and anti-tumoral immune responses is not fully understood. In addition, the immunoproteasome is also expressed by a few cell types that do not suppose to need it if its function is entirely to generate better epitopes for MHC to display. In this project, we will sytematically explore the contribution of the immunoproteasome to overall anti-viral and anti-tumoral immune responses in three mouse model systems. The shared feature of these systems is that multiple killer T cell epitopes have been defined, which could potentially provide us with very sensitive assessments. The three systems are anti-influenza, anti-vaccinia virus and anti-tumor antigen (NY-ESO-1) mouse models.Read moreRead less
Respiratory Syncytial Virus Matrix Protein-Host Protein Interactions As Targets For Therapeutics
Funder
National Health and Medical Research Council
Funding Amount
$686,885.00
Summary
Respiratory syncytial virus (RSV) causes more deaths in winter than influenza, being the major cause of viral pneumonia in infants worldwide, and a potent lower respiratory pathogen in the elderly and immunosuppressed adults. The present proposal will apply a range of techniques to search for new inhibitors of viral infection which target host-virus interactions, as the first step towards new generation anti-viral agents to treat RSV infection.
Even in well-resourced countries, the ability to continue treating HIV patients for their lifetime may become unaffordable, which has focused attention on developing a cure for HIV. We have exploited unique insights into a pathway for Tat expression from latent HIV to identify novel compounds that target HIV latency. This project assembles a multidisciplinary team to optimize the lead compounds, and develop novel drug regimens to fast-track into clinical development as a HIV-curative therapy.
Investigation Of The Roles Of TNFa-related Apoptosis-inducing Ligand, TRAIL, In The Immune System.
Funder
National Health and Medical Research Council
Funding Amount
$436,980.00
Summary
TRAIL, is a newly described member of the tumour necrosis factor (TNF)-family of cytokines, which can kill a wide range of tumour cells, and virus infected cells, but not most normal cells. TRAIL has proven to be safe when administered to normal, tumour bearing, and virally-infected mice, and causes no detectable side-effects in these animals. As such it holds huge potential and is being widely investigated for use as a new anti-cancer therapy. Despite these findings, little is known about the t ....TRAIL, is a newly described member of the tumour necrosis factor (TNF)-family of cytokines, which can kill a wide range of tumour cells, and virus infected cells, but not most normal cells. TRAIL has proven to be safe when administered to normal, tumour bearing, and virally-infected mice, and causes no detectable side-effects in these animals. As such it holds huge potential and is being widely investigated for use as a new anti-cancer therapy. Despite these findings, little is known about the true physiological role of TRAIL in vivo. To define the normal roles of TRAIL, CIA has been characterising TRAIL gene knock-out mice. These studies have confirmed that TRAIL contributes to control of tumours in vivo, and in early events during anti-viral responses. However, these studies have also revealed novel roles for TRAIL in T cell biology, and B cell memory. Understanding how TRAIL contributes to these processes, will shed significant light on the potential of TRAIL to be used as a therapeutic agent for humans with lymphoproliferative disease, for illiciting better long-lived antibody responses such as after vaccination, and as an anti-viral reagent in immunocompromised individuals during virus infection.Read moreRead less
Modulation Of Virus-cellular Receptor Interactions In Picornaviral Pathogenesis
Funder
National Health and Medical Research Council
Funding Amount
$422,036.00
Summary
Gastrointestinal viral infections of humans result in a wide variety of illnesses ranging from the common cold to infantile paralysis and viral myocarditis. Despite the wide range of tissues and organs targeted by these viruses, the manner in which infection is initiated is remarkably similar. The primary step in infection is the binding of a virus to a specific protein on the cell surface, similar to the lock and key analogy. This project seeks to investigate the nature of interactions between ....Gastrointestinal viral infections of humans result in a wide variety of illnesses ranging from the common cold to infantile paralysis and viral myocarditis. Despite the wide range of tissues and organs targeted by these viruses, the manner in which infection is initiated is remarkably similar. The primary step in infection is the binding of a virus to a specific protein on the cell surface, similar to the lock and key analogy. This project seeks to investigate the nature of interactions between representative picornaviruses and their cellular attachment proteins with a view to designing rational anti-viral strategies to block virus cell attachment and cell entry. Using the data raised when investigating why some viruses only infect certain cells, we plan to target human tumors cells based on their susceptibilty to different viruses.Read moreRead less
Control Of Viral Replication By Non-coding Viral RNA
Funder
National Health and Medical Research Council
Funding Amount
$502,270.00
Summary
In 25 years since identified, HIV-AIDS deaths have exceeded 30 million and 40 million more are now living with HIV. The toll will soon far surpass any other infectious disease epidemic in history, or even military deaths from war in the past century. While effective combination drug therapies are available, multi-drug resistant HIV strains are commonly transmitted, leaving some patients with limited treatment options. New classes of drugs aimed at different steps in virus replication are urgentl ....In 25 years since identified, HIV-AIDS deaths have exceeded 30 million and 40 million more are now living with HIV. The toll will soon far surpass any other infectious disease epidemic in history, or even military deaths from war in the past century. While effective combination drug therapies are available, multi-drug resistant HIV strains are commonly transmitted, leaving some patients with limited treatment options. New classes of drugs aimed at different steps in virus replication are urgently needed. We have discovered that viral RNAs that do not code for protein serve important functions in HIV replication. We will study the molecular mechanisms these non-coding (intron) RNAs previously considered junk use to support of HIV gene expression and assess their potential as drug targets. First, we will investigate the role of these junk RNA loops, or lariat introns, produced in large amounts during the HIV replication cycle. Retroviruses employ RNA splicing to make mRNA for envelope and regulatory accessory genes. The complex alternative RNA splicing pattern of HIV spawns several non-coding lariats, including the lariat-intron that contains much of the removed env coding sequence. We have made the counterintuitive finding that the env-lariat dramatically enhances expression of Env protein. We will examine how this occurs and the involvement of the new class of gene-expression controlling micro-RNAs in this process. We will test for functional activity from the other lariat-introns that are produced by HIV. Second, we will characterise the mRNA-element required for efficient expression of the HIV envelope glycoprotein, Env gp160, which is essential for virus binding and entry during infection. This RNA-element directs the cell protein translation machinery to commence protein synthesis at the start of the Envgp160 rather than at upstream start sites for Vpu and Rev. We will determine how this RNA element works, its structure, and how it might be inactivated.Read moreRead less
The Role Of Vif In Enhancing HIV Replication And Effecting The Integrity Of The Replication Complexes Of HIV
Funder
National Health and Medical Research Council
Funding Amount
$260,200.00
Summary
HIV-AIDS is still one of the leading causes of infectious human fatality worldwide. The genome of HIV encodes six viral accessory proteins that are necessary for viral replication and infection. One of these genes, viral infectivity factor (vif), is essential for production of infectious virus. Exactly how this viral protein works within the cell is not clear at present. Current literature suggests that Vif acts in some way to enhance reverse transcription, one of the early stages of the viral l ....HIV-AIDS is still one of the leading causes of infectious human fatality worldwide. The genome of HIV encodes six viral accessory proteins that are necessary for viral replication and infection. One of these genes, viral infectivity factor (vif), is essential for production of infectious virus. Exactly how this viral protein works within the cell is not clear at present. Current literature suggests that Vif acts in some way to enhance reverse transcription, one of the early stages of the viral life cycle. We aim to investigate the action of Vif in stabilizing early HIV reverse transcription complexes to understand how it acts to enhance HIV replication and viral infection. The early stages of HIV replication are critical for establishing infection and hence ideal targets for therapeutic intervention. This research will help understand how Vif works in a cell and affects the infectivity of HIV viral particles and may be suggestive of potential targets for development of anti-viral drugs.Read moreRead less