Elucidation Of Immune Mechanisms Underlying HSV Vaccine Development
Funder
National Health and Medical Research Council
Funding Amount
$573,993.00
Summary
HSV-1 and -2 causes genital herpes, cold sores, encephalitis, potential fatal neonatal herpes, keratitis and blindness as well as severe disease in transplant patients. HSV infection also enhances the acquisition of HIV by 2-3 fold. Investigating the mechanism of immune response to HSV infection or components of HSV will assist in understanding immune control of HSV, HSV vaccine development, and assist in reducing in HIV spread.
Defining The Mechanism Of Assembly Of Herpes Simplex Virus In The Neuronal Growth Cone And Its Subsequent Exit To Epithelial Cells
Funder
National Health and Medical Research Council
Funding Amount
$774,624.00
Summary
Herpes simplex virus (HSV) causes dormant infection of nerve cell bodies near the spine. It periodically reactivates to be transported along nerves to the skin where it causes oral, genital or neonatal herpes and mediates HIV superinfection. HSV assembles into its final form in the terminal part of the axon just prior to crossing into skin. Elucidating the mechanism of HSV assembly and exit will facilitate new strategies for antiviral agents and immune treatment for HSV and similar viruses.
Elucidating The Mechanisms And Consequences Of Clinical HIV-1 Resistance To The CCR5 Antagonist Maraviroc
Funder
National Health and Medical Research Council
Funding Amount
$622,732.00
Summary
CCR5 antagonists are a new class of anti-HIV drug, and maraviroc (MVC) is the only CCR5 antagonists that is licensed for use as a HIV treatment. Like all HIV treatments, drug resistance to MVC can develop in patients. This study will determine the mechanism of how HIV becomes resistant to MVC, which will permit the development of improved, second generation CCR5 antagonists, and will reveal ways to determine which patients are more likely to develop MVC resistance.
Immune Modulatory Effects Of Vaginal Microbiota Metabolites And HIV Susceptibility
Funder
National Health and Medical Research Council
Funding Amount
$795,110.00
Summary
This study will advance knowledge on how acid molecules produced by beneficial and harmful bacteria are able to promote or impede HIV infection of the female genital mucosa through their effects on the barrier and immune function of cells that line the vagina and cervix. The results of this study are anticipated to augment the efficacy of topical HIV prevention strategies and lead to the development of safe vaginal hygiene products that help protect against other sexually transmitted infections.
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.
Discovery Of A Novel Immune Evasion Strategy Employed By Mosquito Borne Viruses To Suppress Antiviral Immune Responses
Funder
National Health and Medical Research Council
Funding Amount
$418,642.00
Summary
The transition from mosquitoes, ticks, or other invertebrate vectors to the human hosts represents a crucial step in the successful establishment of arthropod borne viruses (arboviruses). The incidence of arbovirus infections such as dengue virus, West Nile virus, Ross River virus is increasing at an alarming rate in various parts of the world. In addition, the emergence of new viruses resulting in significant mortality in the population is of utmost concern. Vaccines for many of these viruses r ....The transition from mosquitoes, ticks, or other invertebrate vectors to the human hosts represents a crucial step in the successful establishment of arthropod borne viruses (arboviruses). The incidence of arbovirus infections such as dengue virus, West Nile virus, Ross River virus is increasing at an alarming rate in various parts of the world. In addition, the emergence of new viruses resulting in significant mortality in the population is of utmost concern. Vaccines for many of these viruses remain elusive. One factor that contributes to this is the ability of viruses to develop ingenious strategies to avoid or suppress the host defence systems, which enable its successful establishment in the host. Understanding how viruses evade-suppress host defence machinery will certainly enhance and improve our approaches to fight them. For the first time internationally we have discovered a new and novel pathway employed by arboviruses to suppress antiviral immune responses in the host. We have discovered that naturally occurring carbohydrates on viruses derived from mosquito cells, would influence these virus s ability to evade-suppress host antiviral proteins such as interferons. This may be a general effect of arboviruses or may even extend to other viruses , which include a number of deadly pathogens (HIV, Influenza). This research has the potential to significantly expand our understanding of how these viruses establish infection and cause disease. Also this discovery has broader implications for understanding inflammatory processes and their regulation.Read moreRead less