Research Fellowship: Immunoregulation And Immunity To Viral Infection
Funder
National Health and Medical Research Council
Funding Amount
$763,845.00
Summary
Award of this fellowship will ensure the continuation of a highly productive research program that over the last 15 years has made numerous seminal contributions to understanding the immune responses generated during viral infection. This multidisciplinary, highly collaborative program seeks to use this knowledge to develop effective therapies, both cellular and gene therapy-based, to treat viral infections and their complications by harnessing the immune system.
Nuclear Transport In Health And Disease; Towards Therapeutics
Funder
National Health and Medical Research Council
Funding Amount
$851,980.00
Summary
This research fellowship will enable new therapeutic approaches to viral disease and cancer that target the transport process. I have already licenced an inhibitory molecule for Dengue virus which is progressing towards the clinic. I will now extend my research into a vibrant translational program of developing anti-viral (HIV, Respiratory Syncytical Virus, VEEV) as well as anti-cancer agents that will represent realistic therapeutic options in the near future.
Immunoregulation, Innate And Adaptive Immunity, Viral Immunology, Ocular Immunology, Immunotherapy
Funder
National Health and Medical Research Council
Funding Amount
$880,454.00
Summary
The focus on our research is to understand how the immune system responds to viral challenges and how viruses attempt to counteract immune responses. We focus on systemic disease, as well as disease that involve the eye. Understanding how immune responses are regulated will allows us to develop improved therapies
Hepatitis C virus (HCV) and Human immunodeficiency virus (HIV) infect 200 million and 50 million people world-wide, respectively, and there are no preventative vaccines. The work outlined in this fellowship seeks to understand the structure and function of the major surface proteins of these viruses, their ability to be recognised by the immune system and to develop a novel vaccine for the prevention of HCV.
Regulation Of Nucleocytoplasmic Transport; Role In Health And Disease
Funder
National Health and Medical Research Council
Funding Amount
$823,008.00
Summary
Transport into and out of the nucleus is central to the function of the cells from complex organisms such as mammals. This research program aims to improve understanding of nuclear transport and its regulation in the context of infection by medically relevant viruses, as well as in the context of cancer, and normal cell growth/development. It will contribute to developing new anti-viral therapeutics/vaccines, drug delivery strategies for cancer, and understanding causes of male infertility.
I am an cellular immunologist determining the mechanisms by which immunity to foreign organisms is generated, how tolerance to self tissues is maintained, and how the immune system iscriminates between foreign organisms and self.
Mapping The Molecular Blueprint For Immune Cell Differentitation
Funder
National Health and Medical Research Council
Funding Amount
$753,300.00
Summary
Killer T cells are white blood cells that are key for helping control virus infections and in the recognition and elimination of cells that have become cancerous. This proposal aims to identify novel molecular mechanisms that control the ability of killer T cells to mediate their antiviral and anti-cancer functions. This will provide molecular targets for possible clinical interventions designed to either promote immunity (vaccination) or limit damage caused by T cell responses that target self
A Proteome-wide Approach To Anti-viral Immunity And Vaccine Development
Funder
National Health and Medical Research Council
Funding Amount
$622,655.00
Summary
We know that many parts of viruses are displayed to the immune system, but at present the exact fragments are difficult to predict, we do not know all the genes in our bodies that control this process and we also need better methods to study the way some viruses (e.g. the cold sore virus) avoid detection. This project will study these problems with the overall goal of improving vaccine design, understanding immune deficiency and how viruses fight back against our immune system.
Development Of New Therapies For Respiratory Diseases And Infection
Funder
National Health and Medical Research Council
Funding Amount
$847,490.00
Summary
Prof Hansbro’s group have developed world 1st experimental models of emphysema, severe asthma infection and lung cancer. He uses them to further our understanding of these untreatable diseases. This has led to the development of new potential therapeutic approaches. Now, in discovery programs he will expand studies of pathogenesis to identify new therapeutic targets these diseases. In development and translational programs he will progress new therapies towards clinical application.
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 in the long-term due to drug resistance and toxicity. The major aim of this study is to advance the development of an entirely new drug class for HIV.