Transport And Egress Of Herpes Simplex Virus In Neurones
Funder
National Health and Medical Research Council
Funding Amount
$592,023.00
Summary
Herpes simplex virus (HSV) enters the human body via the skin before entering the termini of nerve cell processes. It is transported along these processes to the body of the nerve cell. HSV lies dormant within these nerve cell bodies near the spinal cord in most people. Intermittently the virus reactivates and is transported back down the nerve cell processes to the skin where it causes blisters-ulcers or is shed without causing symptoms. The aim of this grant is to determine how HSV is transpor ....Herpes simplex virus (HSV) enters the human body via the skin before entering the termini of nerve cell processes. It is transported along these processes to the body of the nerve cell. HSV lies dormant within these nerve cell bodies near the spinal cord in most people. Intermittently the virus reactivates and is transported back down the nerve cell processes to the skin where it causes blisters-ulcers or is shed without causing symptoms. The aim of this grant is to determine how HSV is transported within nerve cells at the molecular level. Recent discoveries have shown how virus transport in nerve cells is dependent on interactions between specific viral proteins and cellular motor proteins and how the virus escapes from nerves to infect skin and cause disease. Such information on viral transport will allow development of inhibitors of this process which may be candidates for use as antivirals for control of recurrent herpes simplex. In addition, this information will allow the virus to be exploited for use in gene therapy to introduce DNA into human nerve cells to correct genetic abnormalities. Finally this data will assist in understanding similar mechanisms for other viruses transported in nerve cells such as those causing shingles and rabies.Read moreRead less
A Potent Anti-HIV-1 Gene Therapy Agent In A Humanised Mouse Model
Funder
National Health and Medical Research Council
Funding Amount
$1,147,139.00
Summary
We have shown that a synthetic protein called Nullbasic can protect human cells from becoming infected by the AIDS virus, HIV-1. In this project a gene therapy approach will be used to test if a human immune system modified to contain Nullbasic is protected from HIV-1 in an animal model.
Inhibitors Of West Nile Virus Protease As Antiviral Drugs
Funder
National Health and Medical Research Council
Funding Amount
$590,740.00
Summary
The West Nile Virus (WNV) was first isolated from a woman in the West Nile region of Uganda in 1937. It is one of ~70 known flaviviruses (e.g. Dengue fever, Yellow fever, West Nile, Kunjun, Japanese encephalitis, St. Louis encephalitis, tick-borne encephalitis, Australian encephalitis and the related hepatitis C virus) which annually infect hundreds of millions of people worldwide, particularly in tropical and sub-tropical areas, and cause major public health problems. WNV is endemic in people i ....The West Nile Virus (WNV) was first isolated from a woman in the West Nile region of Uganda in 1937. It is one of ~70 known flaviviruses (e.g. Dengue fever, Yellow fever, West Nile, Kunjun, Japanese encephalitis, St. Louis encephalitis, tick-borne encephalitis, Australian encephalitis and the related hepatitis C virus) which annually infect hundreds of millions of people worldwide, particularly in tropical and sub-tropical areas, and cause major public health problems. WNV is endemic in people in the Middle East, parts of Africa and Europe, but recent epidemics in Israel (1998), Romania (1996), United States (1999), and UK (2003), that have been traced to migratory birds, were characterized by severe symptoms , severe neurological pathology, and fatalities. In the USA alone there were 4,156 infections and 284 deaths in 2002, 9122 infections and 223 deaths in 2003, and this mosquito borne virus has quickly spread since 1999 through all USA states and into Canada and Mexico (http:--www.cdc.gov-ncidod-dvbid- westnile-index.htm). No treatments or vaccines are available. This project focuses on a viral enzyme, known as the West Nile Virus NS3 protease, that is essential for replication of the virus. By studying the enzyme in the laboratory we can design small molecules that block its function and these are potential leads for developing drug treatments for people infected, not only by this virus but potentially also other flaviviruses. A precedent is the success of inhibitors of HIV-1 protease that are the most effective treatment for humans with HIV-infections, and other viral proteases are now becoming recognized as viable antiviral targets for pharmaceutical development. The project involves experts on small molecule protease inhibitor design and development, proteases, and virology including West Nile virology. We expect to generate new information at the cutting edge of West Nile Virus and flavivirus research and promising new antiviral drug candidates.Read moreRead less
Hepatitis B Virus Drug Resistance: Impact On The Immunisation Program
Funder
National Health and Medical Research Council
Funding Amount
$113,322.00
Summary
ñAntiviral drug-associated vaccine escape mutantsî have the potential to jeopardize the hepatitis B immunization program. Which particular viral mutations or combination of mutations that can directly affect the clinical outcome of infection, especially in the context of vaccine induced immunity, are not known. In this study we will identify the clinical sequelae and public health consequences arising from the selection of these mutants.
Novel Antivirals For The Treatment Of Hendravirus Infection.
Funder
National Health and Medical Research Council
Funding Amount
$199,227.00
Summary
Hendravirus outbreaks have become frequent and 7 human cases have been reported, this has resulted in 4 deaths. Currently we have no treatment options. Researchers at Griffith University and the CSIRO have developed a new treatment that attacks the virus by turning off the viral genes at the site of infection. The plan is to treat patients soon after infection to slow or stop the virus and allow patients to recover naturally from this highly lethal disease.
Determining The Clinical Effectiveness Of Antiviral Drugs Against Oseltamivir- And Laninamivir-resistant Influenza Viruses In Animal Models
Funder
National Health and Medical Research Council
Funding Amount
$388,067.00
Summary
Currently, the neuraminidase inhibitors are the only drugs that are effective against seasonal influenza viruses. However, viruses can develop resistance to these drugs. Using viruses with varied levels of resistance, the project will determine the effectiveness of different drug treatments in animal models. This will lead to better treatment for those patients seriously ill with drug-resistant influenza viruses.
Chikungunya Virus Disease; The Role Of Proteases And Their Receptors
Funder
National Health and Medical Research Council
Funding Amount
$682,716.00
Summary
Chikungunya virus (CHIKV) is a mosquito borne virus related to the Australian Ross River virus. The arthritic disease caused by these viruses is often poorly managed by current treatments. We have recently identified several proteins call proteases that circulate in the blood of infected people and promote arthritis. If successful the grant will provide new treatment options for these (and perhaps other) diseases using recently developed drugs that inhibit the activity of these proteases.
Combining Laboratory And Computational Approaches To Develop Reliable Low Cost HIV Prognostics
Funder
National Health and Medical Research Council
Funding Amount
$314,644.00
Summary
Certain anti-HIV drugs called "CCR5 antagonists" block HIV entry into immune cells. However, HIV drug-resistance can occur. Globally, patient access to CCR5 antagonists has been limited because the pre-treatment laboratory test required to determine HIV drug-resistant is expensive and time-consuming. My research will lead to development of computer programs that reliably, rapidly and cheaply determine HIV drug-resistance and thus greatly improve patient access to CCR5 antagonists worldwide.
Targeting Novel Sites On Reverse Transcriptase For HIV Treatment And Prevention
Funder
National Health and Medical Research Council
Funding Amount
$978,994.00
Summary
HIV/AIDS remains a major global threat with 37 million individuals living with HIV in 2014. Antiretroviral drugs have transformed HIV from a death sentence into a chronic disease. Public health organisations recommend dramatic scale up of drugs for HIV treatment and prevention. However, a major threat is that drug options will be exhausted due to drug resistance and toxicity. The major aim of this study is to undertake fundamental studies to advance the development of a new HIV drug class.
Novel Early Detection Strategy For Liver Cancer Using Hepatitis B Splice Variants To Expediate Diagnosis And Improve Treatment Outcome
Funder
National Health and Medical Research Council
Funding Amount
$943,566.00
Summary
Hepatitis B virus (HBV) causes liver cancer, which is one of the only cancers that is increasing in prevalence. We have shown that smaller versions of HBV, termed splice variants, are even more strongly associated with liver cancer- people with higher levels of the splice variants were over 3 times more likely to have liver cancer. We will find out why, by thoroughly studying how the splice variants alter the virus and the host cell to promote liver cancer.