The Role Of Cyp2e1, Alcohol And HCV In Modulation Of Hepatocyte Homeostasis HCV Replication And Resistance To Interferon
Funder
National Health and Medical Research Council
Funding Amount
$455,520.00
Summary
Liver disease caused by alcohol consumption and hepatitis C virus (HCV) infection are major national health problems. Liver disease caused by HCV is greatly accelerated by alcohol consumption, however, the connection between the biochemical events initiated by alcohol, HCV and inflammatory pathways resulting in liver disease are not well understood. Preliminary studies have identified a link between an important alcohol-metabolising enzyme, Cyp2e1, HCV replication, oxidative stress and a powerfu ....Liver disease caused by alcohol consumption and hepatitis C virus (HCV) infection are major national health problems. Liver disease caused by HCV is greatly accelerated by alcohol consumption, however, the connection between the biochemical events initiated by alcohol, HCV and inflammatory pathways resulting in liver disease are not well understood. Preliminary studies have identified a link between an important alcohol-metabolising enzyme, Cyp2e1, HCV replication, oxidative stress and a powerful mediator of liver injury called tumour necrosis factor alpha. Furthermore we have shown that alcohol metabolism by Cyp2e1 results in an increase in HCV replication and negatively impacts on the anti-viral action of interferon. The studies contained within this proposal aim to build on these exciting new insights by attempting to identify new mediators and mechanisms of liver disease as a consequence of Cyp2e1 expression, alcohol and HCV replication. We will also examine the molecular mechanisms by which alcohol potentiates HCV replication. These studies will assist in developing therapeutic strategies that will benefit alcohol- and HCV-related liver disease.Read moreRead less
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.
Inhibition Of Interferon-alpah-beta By Chikungunya Virus And The Induction Of Arthritis
Funder
National Health and Medical Research Council
Funding Amount
$709,193.00
Summary
Chikungunya virus is a mosquito borne virus which has caused epidemics of arthritis around the world (recently 260,000 people Reunion Island, France and 1.6 million people in India). The virus is ordinarily very sensitive to the main mammalian anti-viral defence system (interferon alpha-beta). This grant seeks to understand how, despite the activation of this system during infection, the virus manages to persist and cause 3-6 months of debilitating arthritis.
Production Of Interferon Lambda By Dendritic Cell Subsets And Role In Adjuvant Effects Of Poly I:C
Funder
National Health and Medical Research Council
Funding Amount
$396,541.00
Summary
This proposal describes the identification of specific cells in mouse and humans that produce the anti-viral compound interferon-lambda. We propose to further characterise the mechanisms that induce interferon-lambda expression by these cell types and to decipher how this is controlled at the genetic level. We also aim to determine how the production of interferon lambda by these cell types can influence the immune response to viral infection.
Identifying Novel Regulators Of RNA Receptor Signalling To Modulate Viral Innate Immunity
Funder
National Health and Medical Research Council
Funding Amount
$312,034.00
Summary
Viruses elicit a rapid immune response upon infection that is crucial for controlling viral spread and disease. Human cells detect viral molecules to coordinate the the production of anti-viral proteins. The aim of this research is to identify new genes that are essential for controlling the initial immune response to viral infection. This research will help us understand how virus infection can be controlled appropriately, and may lead to the development of new anti-viral therapeutics.
Development And Evaluation Of Novel Anti-inflammatory Products Derived From An Indigenous Medicinal Plant
Funder
National Health and Medical Research Council
Funding Amount
$276,598.00
Summary
This collaborative project between researchers at the University of South Australia and Indigenous traditional owners from Northern Kaanju homelands (Cape York Peninsula, Qld) will develop and evaluate products derived from the Northern Kaanju medicinal plant Dodonaea polyandra. Extracts of the plant and novel compounds isolated from it have anti-inflammatory activity. These have the potential to be used in inflammatory diseases such as dermatitis, arthritis and inflammatory bowel disease.
Understanding The Innate Immune Response To Viral Infection Of The Female Reproductive Tract And Placenta
Funder
National Health and Medical Research Council
Funding Amount
$784,273.00
Summary
Viral infection of the female reproductive tract (FRT) can have a significant impact on FRT health and may cause significant birth defects if the virus infects the placenta and developing fetus. In this application we will investigate the role of a novel molecule termed interferon epsilon and how it impacts viral infection of the FRT, the fetus and how the placenta responds to viral infection. This work will develop innovative antiviral strategies to combat viral infections of the FRT.
Molecular Targeting To Telomerase And Cancer Cell Immortality By A Novel Inhibitor
Funder
National Health and Medical Research Council
Funding Amount
$430,812.00
Summary
Infinite growth of cancer cells is a hallmark of cancer. Telomerase is required for cancer cell immortality. Inhibition of telomerase may thus offer an opportunity to stop cancer cells. We have identified an inhibitor of telomerase. This project will study the mechanisms of action of the novel inhibitor, investigating how to control cancer cell immortality as a baseline for more applied anti-cancer therapeutic studies.
HPV And Cervical Carcinoma: Signaling And Clinical Responses To Interferons
Funder
National Health and Medical Research Council
Funding Amount
$534,480.00
Summary
Cervical carcinoma and its treatment continues to be an important health concern in Australia. The interferons comprise an elaborate system of natural substances produced in the body, one of whose functions is to prevent cancer cells from developing. The interferons have been widely used to treat human diseases including viral infections and cancers caused by the wart virus. However, results of recent work indicates that viruses like the wart virus, HPV, have developed ways of inhibiting its eff ....Cervical carcinoma and its treatment continues to be an important health concern in Australia. The interferons comprise an elaborate system of natural substances produced in the body, one of whose functions is to prevent cancer cells from developing. The interferons have been widely used to treat human diseases including viral infections and cancers caused by the wart virus. However, results of recent work indicates that viruses like the wart virus, HPV, have developed ways of inhibiting its effectiveness. We have found that cervical carcinoma cells and virally infected cells resist the direct anti-cancer and anti-viral effects of interferons because they have abnormalities in their ability to respond to interferon. We have made good progress in understanding why these cells do not respond to the interferons. In particular they show a deficiency in the activity of cell proteins required to transmit the interferon signal inside the cells. The current proposal will allow us to gain a greater understanding of the processes inside cells that are taken over by the wart viral proteins and the reasons for its abnormality in interferon resistant cancer cells. We will determine whether the levels of certain genes in clinical samples from patients relates to their response to interferon treatment. This may allow us to establish a test to predict which patients will respond to interferon therapy, saving patients from ineffective treatment, side effects and cost. This study will have a broad significance to many human diseases where abnormalities in interferon signaling occur and will help to bring about the necessary changes in cell properties to overcome the abnormalities, restore the responses and improve the application of interferons to treat infectious diseases and perhaps other cancers as well.Read moreRead less