The Australian Research Data Commons (ARDC) invites you to participate in a short survey about your
interaction with the ARDC and use of our national research infrastructure and services. The survey will take
approximately 5 minutes and is anonymous. It’s open to anyone who uses our digital research infrastructure
services including Reasearch Link Australia.
We will use the information you provide to improve the national research infrastructure and services we
deliver and to report on user satisfaction to the Australian Government’s National Collaborative Research
Infrastructure Strategy (NCRIS) program.
Please take a few minutes to provide your input. The survey closes COB Friday 29 May 2026.
Complete the 5 min survey now by clicking on the link below.
Flavivirus Replication - Biogenesis, Ultrastructure And Roles Of Induced Membranes
Funder
National Health and Medical Research Council
Funding Amount
$334,880.00
Summary
Flaviviruses are the agents of many mosquito-transmitted infections such as encephalitis and dengue, and hepatitis C virus is a member of the same virus family. During virus multiplication in cells, new membrane structures are induced and these represent regions where the replication events occur. Using Kunjin virus, an agent of Australian encephalitis, as a model, and advanced techniques in biochemistry and electron microscopy, we have previously identified these membranes as the site of synthe ....Flaviviruses are the agents of many mosquito-transmitted infections such as encephalitis and dengue, and hepatitis C virus is a member of the same virus family. During virus multiplication in cells, new membrane structures are induced and these represent regions where the replication events occur. Using Kunjin virus, an agent of Australian encephalitis, as a model, and advanced techniques in biochemistry and electron microscopy, we have previously identified these membranes as the site of synthesis of the viral RNA or genetic material, and the viral proteins involved. These comprise the viral replication complex. The research will define the origin of these membranes, and how the components of the associated replication complex are assembled. Assembly of the virus particles in cells is also being analysed using similar technology. Hepatitis C virus cannot be reliably grown at present for research purposes in cultured cells, and we will attempt to develop a helper system to overcome the problem. An understanding of these processes, and how the viral RNA is copied into progeny RNA for new virus particles, may assist in the development of antiviral drugs for treatment of slow or persistent virus infections such as hepatitis C.Read moreRead less
Structure And Function Of Hepatitis C Virus Glycoproteins
Funder
National Health and Medical Research Council
Funding Amount
$480,750.00
Summary
Hepatitis C Virus infects approximately 200 million people world-wide and is the major cause of liver transplantation in the Western world. At present there is no vaccine and interferon alpha is the only therapy available and has only limited success in clearing viral infection. HCV is distantly related to flaviviruses eg tick-borne encephaltitis virus and yellow fever virus. All viruses attach to target cells using receptors to initiate the infection process. In the case of HCV, the envelope gl ....Hepatitis C Virus infects approximately 200 million people world-wide and is the major cause of liver transplantation in the Western world. At present there is no vaccine and interferon alpha is the only therapy available and has only limited success in clearing viral infection. HCV is distantly related to flaviviruses eg tick-borne encephaltitis virus and yellow fever virus. All viruses attach to target cells using receptors to initiate the infection process. In the case of HCV, the envelope glycoproteins interact with as yet unknown receptors on the target cell surface resulting in the virus being internalized into endosomes. It is believed that the low pH environment of these endosomes triggers fusion of the viral and cellular membranes. After fusion the genome of the virus is released into target cells and begins the replication process. The actual events intitiating these processes are not understood for HCV but are believed to be mediated using two envelope glycoproteins. In this project we seek to gain a greater understanding of how viral fusion and entry occurs. We have new information regarding the localisation of the two envelope glycoproteins that will now enable us to carefully examine how viral fusion occurs. Using biochemical approaches, we will study their structure and function and examine how this relates to the well understood flavivirus mode of fusion and entry. We will test the functional consequences of altering the structure of the HCV envelope glycoproteins by developing in vitro assays of HCV fusion. Assays for HCV fusion are essential for future studies to identify viral receptors, examine the role of antibody in viral neutralization and can be used to test novel inhibitors of viral fusion and entry.Read moreRead less
Hepatitis C Virus infects 3% of the world's population causing recurring liver disease, cirrhosis and hepatocellular carcinoma. To infect a liver cell, the viral glycoproteins attach to cell surface molecules wher they are activated to mediate merger of the viral and cellular membranes. This project grant will explore how the viral glycopropteins become activated and obtain essential structural information on the viral glycoproteins. These studies will help us to design antiviral agents.
I am a molecular virologist researching the host response to hepatitis C virus (HCV) infection with the aim of understanding how the liver clears HCV infection. An understanding of this process will hopefully lead to novel antiviral strategies to combat not only HCV but a broad range of other viral infections.
The In Vitro Culture Of Hepatitis C Virus And Approaches To The Control Of Replication
Funder
National Health and Medical Research Council
Funding Amount
$452,310.00
Summary
HCV is a major cause of liver disease and around 200 million people are currently infected worldwide, including 200,000 Australians. HCV differs to other flaviviruses. Most notably, around 80% of individuals develop a persistent infection, accounting for the large number of carriers. This infection is probably life-long and 40-50% of carriers will develop serious liver disease, including liver cancer. HCV is currently the leading single indicator for liver transplantation in the western world. T ....HCV is a major cause of liver disease and around 200 million people are currently infected worldwide, including 200,000 Australians. HCV differs to other flaviviruses. Most notably, around 80% of individuals develop a persistent infection, accounting for the large number of carriers. This infection is probably life-long and 40-50% of carriers will develop serious liver disease, including liver cancer. HCV is currently the leading single indicator for liver transplantation in the western world. These carriers can also transmit the virus to uninfected individuals. Screening in the blood banks has reduced transmission after blood transfusion to virtually zero. However, although individuals who share contaminated needles represent a major high risk population, around 30% of carriers have no acknowledged transmission risk factors, and transmission to patients in hospitals has been recognised. As a result, it is clear that members of the general population may still become infected. It has been estimated that there are 10,000 new cases each year in Australia. The best available treatment is a combination of interferon-alpha and ribavirin, but this is only successful in 40-50% of carriers. Moreover, many patients fail to tolerate these drugs and the cost restricts treatment to a small proportion of carriers. As a result,only approx 6,500 carriers have been treated in Australia. A huge backlog in the liver clinics and the resistant nature of the virus in 50% of patients in Australia mean that these patients will not be treated unless new therapies are developed. The most effective means to prevent virus infections is by vaccination. Thus the development of novel antivirals and a vaccine for HCV are priorities. Since the cost of a single liver transplant is $100,000 the development of such agents is likely to be cost effective. However, it is necessary to develop suitable cell culture systems to test putative antiviral agents.Read moreRead less
Hepatitis C virus (HCV), the main cause of of post-transfusion and community -acquired non-A, non-B hepatitis, infects approximately 170 million humans world-wide with some 135,000 infections in Australia alone. HCV is hyper-endemic in intravenous blood users with typical prevalence rates of 60-70%. About 75-80% of infected individuals develop a chronic infection, usually resulting in recurrent, progressively worsening liver damage. Cirrhosis develops in 10-20% of chronic cases while 1-5% of chr ....Hepatitis C virus (HCV), the main cause of of post-transfusion and community -acquired non-A, non-B hepatitis, infects approximately 170 million humans world-wide with some 135,000 infections in Australia alone. HCV is hyper-endemic in intravenous blood users with typical prevalence rates of 60-70%. About 75-80% of infected individuals develop a chronic infection, usually resulting in recurrent, progressively worsening liver damage. Cirrhosis develops in 10-20% of chronic cases while 1-5% of chronic carriers develop liver cancer. Development of an effective vaccine is complicated due to the highly variable nature of the virus. Approved therapies include alpha-interferon and alpha interferon-ribavirin combinations but these treatments induce efficacious responses in only 20-30% of patients and often have severe side-effects. It is assumed that after attachment of HCV to the cell surface, the virus is internalised by the cell and undergoes fusion with a cellular compartment referred to as an endosome. The low pH environment of the endosome is presumed to trigger viral fusion via its cell surface glycoproteins and empties the replication machinery of the virus into the cell. No reliable systems for the propagation of HCV are available thereby limiting studies into the mechanisms of how HCV infects cells and the development of vaccines. Recently a cell surface molecule, CD81, was identified as a possible receptor for the attachment of HCV to susceptible cells. Our aim is to 1) develop model systems for studying HCV entry and fusion and 2) further characterise the interaction of the HCV glycoproteins with CD81 with the goal of obtaining a three-dimersional structure of the interaction . These studies will address the fundamental questions of how HCV enters cells leading new avenues for the design of inhibitors of HCV entry.Read moreRead less
Structure And Function Of The Hepatitis C Virus Glycoproteins E1 And E2.
Funder
National Health and Medical Research Council
Funding Amount
$533,828.00
Summary
Hepatitis C virus (HCV) infects approximately 3 % of the global human population with 150,000-200,000 HCV-infected individuals currently living in Australia. Chronic HCV infection is associated with recurrent, progressively worsening liver disease, liver cirrhosis and hepatocellular carcinoma. The current therapy (interferon-ribavirin) is effective in only 40 % of patients and is often associated with severe side-effects. The mechanisms that HCV uses to replicate in liver cells is poorly underst ....Hepatitis C virus (HCV) infects approximately 3 % of the global human population with 150,000-200,000 HCV-infected individuals currently living in Australia. Chronic HCV infection is associated with recurrent, progressively worsening liver disease, liver cirrhosis and hepatocellular carcinoma. The current therapy (interferon-ribavirin) is effective in only 40 % of patients and is often associated with severe side-effects. The mechanisms that HCV uses to replicate in liver cells is poorly understood. In this project we aim to better understand how the viral glycoproteins, E1 and E2, function in the initiation of infection. In particular, we will examine how these glycoproteins bind to liver cell receptors and then mediate virus-cell membrane fusion. These processes lead to the penetration of the HCV genetic material into the cell where it is replicated. These studies are essential for the discovery of new targets for antiviral agents and vaccines.Read moreRead less