Understanding The Role Of CD4 T Cells In Viral Infection: A Means Of Improving Anti-viral Immunotherapy.
Funder
National Health and Medical Research Council
Funding Amount
$672,009.00
Summary
Development of therapies to prevent and treat chronic infections is of the highest priority as they cause considerable clinical challenges and on-going health care costs. Efforts to improve treatment of chronic viral infections, such as those caused by HIV, hepatitis C virus and human cytomegalovirus, require a better understanding of the immune responses needed to control these viruses long-term. This proposal will investigate the role of CD4+ T cells in controlling chronic viral infection.
Mechanisms Regulating Establishment Of Persistent Herpesvirus Infection
Funder
National Health and Medical Research Council
Funding Amount
$511,446.00
Summary
Herpesviruses are a major cause of disease worldwide and are amongst the most successful human pathogens, with some viruses infecting more than 80% of the world's population. This group of viruses persist and reactivate in hosts and induce immunosuppression.The control of herpesviruses infections thus represents an important clinical goal. Understanding the mechanisms involved in the induction of viral persistence and immunosuppression is a crucial step towards developing better therapies.
HTLV-1 is a lifelong infection of immune cells that sustains high infection rates up to 45% in key Australian communities. Despite HTLV-1 causing serious malignancy and inflammatory co-morbidities that shorten lifespan, few biomedical interventions are available. We will examine how the virus grows and alters immune responses to cause disease. With this, we can develop antiviral treatments to reduce virus infected cells, and make new diagnostic biomarker assays suitable for remote settings.
Understanding How Cytomegaloviruses Establish Systemic Infection
Funder
National Health and Medical Research Council
Funding Amount
$668,144.00
Summary
Human cytomegalovirus (HCMV) infects most Australians, causes birth defects and harms transplant patients. Vaccines against it have worked poorly. HCMV spreads throughout the body and is never cleared. To control infection we must identify its key checkpoints. Using mouse CMV, we find that host dendritic cells, which normally defend against infections, are taken over and spread virus to new sites. The viral gene responsible is a potential target for intervention. We will define how it works.
In the asthmatic lung structural changes or remodelling occur, which are thought to contribute to the abnormal functioning of the airways. These remodelling events which occur in the asthmatic airway include increased deposition of proteins which form the scaffolding of the airways (the extracellular matrix ECM proteins), and an increased mass of bronchial smooth muscle cells. Many of these critical structural changes are not reversed or prevented with current asthma therapy. Remodelling is an i ....In the asthmatic lung structural changes or remodelling occur, which are thought to contribute to the abnormal functioning of the airways. These remodelling events which occur in the asthmatic airway include increased deposition of proteins which form the scaffolding of the airways (the extracellular matrix ECM proteins), and an increased mass of bronchial smooth muscle cells. Many of these critical structural changes are not reversed or prevented with current asthma therapy. Remodelling is an important process in both the development and progression of asthma. The reason why remodelling occurs in the lungs of people with asthma is not known. It is thought that persistent inflammation drives the remodelling process; however remodelling can perpetuate inflammation, thereby creating a cyclic series of events. Furthermore we have shown that cells from non-asthmatic volunteers which are grown on asthmatic ECM change to become more like cells from asthmatic subjects. Viruses which infect the lungs may play a role in the development of asthma, and in the increased remodelling which is observed. Many common respiratory viruses are capable of infecting lung cells, eg epithelial cells, which evokes an inflammatory response. I will investigate if viral infection can alter the remodelling process, using lung cells isolated from asthmatic and non-asthmatic volunteers. Furthermore, I will assess if current and novel treatments are effective in reducing the remodelling process. We have preliminary evidence that infection of lung epithelial cells with rhinovirus (the common cold virus) alters the amount of ECM deposited by these cells. I hypothesise that this process will be increased in cells from volunteers with asthma compared to non-asthma. As current therapeutics are unlikely to be able to reverse these remodelling events these experiments will enable the development of new therapeutics which can target this important aspect of airway disease.Read moreRead less
From Bench To Bedside: A New Treatment For Chronic Rhinosinusitis
Funder
National Health and Medical Research Council
Funding Amount
$2,360,520.00
Summary
My research focuses on diseases of the upper airways, in particular chronic relapsing infections and inflammation of the nose and sinus mucosa and on improving wound healing after surgery. My research is translational, aimed at defining new treatments for these diseases. I have invented novel products that improve wound healing after surgery and instruments that help surgeons perform their surgeries in a better and safer way.
Defining Immune Regulation And T Cell Responses During Chronic Infectious Disease.
Funder
National Health and Medical Research Council
Funding Amount
$714,062.00
Summary
Chronic infectious diseases such as HIV/AIDS, tuberculosis, malaria and leishmaniasis are responsible for significant morbidity and mortality. They are all characterised by severe immune dysfunction. We will study a parasitic infection to identify important immune cell populations and molecules that promote chronic infectious disease. This knowledge will enable the development of better treatments and vaccines for range of infectious diseases that affect people in many parts of the world.
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.
Attenuating Severe Infections In Chronic Inflammatory Diseases Through Modulation Of Transforming Growth Factor-β Activity
Funder
National Health and Medical Research Council
Funding Amount
$611,793.00
Summary
Asthma and chronic obstructive pulmonary disease (COPD) are characterised by enhanced TGF? expression, which is accompanied by susceptibility to recurrent viral and bacterial infections. Such infections exacerbate lung inflammation in these patients, generally requiring emergency department treatment. This project proposes to clarify the therapeutic potential of TGF? inhibitors to reduce the impact of viral infections in patients with COPD and asthma.