This Program Grant has three investigators, Professor Denis Moss, Dr Rajiv Khanna and Dr Scott Burrows, each of whom has collaborated on two previous Program Grants. The group is well known in the area of herpesvirus immunology and have published numerous scientific papers in leading medical journals. This program grant focuses on two human herpesviruses. The first is called Epstein-Barr virus which causes glandular fever and is associated with arange of human cancers. The second virus is human ....This Program Grant has three investigators, Professor Denis Moss, Dr Rajiv Khanna and Dr Scott Burrows, each of whom has collaborated on two previous Program Grants. The group is well known in the area of herpesvirus immunology and have published numerous scientific papers in leading medical journals. This program grant focuses on two human herpesviruses. The first is called Epstein-Barr virus which causes glandular fever and is associated with arange of human cancers. The second virus is human cytomegalovirus which can cause birth defects and problems in transplant patients. In this program we are investigating how the body�s immune system controls these viruses to exploit this information to develop new treatments.Read moreRead less
Immunological Therapies For Cancer, Chronic Infection And Autoimmunity
Funder
National Health and Medical Research Council
Funding Amount
$10,891,788.00
Summary
The team comprises five leading scientists with a history of successful investigation into the role of the immune system in cancers, chronic viral infections, and autoimmune diseases. There is a large unmet need for effective solutions with fewer side effects in these diseases which cause a high disease burden in our society. In this program, we particularly seek to develop novel vaccines for chronic infections and autoimmune diseases, and to improve the safety of bone marrow transplantation.
Immunological Therapies For Cancer And Autoimmunity
Funder
National Health and Medical Research Council
Funding Amount
$4,928,323.00
Summary
The programme team comprises a group of leading scientists with a history of successful investigation into the mechanisms and treatment of diseases in which the immune system plays a role in their development. These include cancers of the cervix and blood system, and autoimmune diseases such as rheumatoid arthritis and type 1 diabetes. Working together, the team have made discoveries that have led to testing and clinical development of new treatments for these diseases. In this programme, the te ....The programme team comprises a group of leading scientists with a history of successful investigation into the mechanisms and treatment of diseases in which the immune system plays a role in their development. These include cancers of the cervix and blood system, and autoimmune diseases such as rheumatoid arthritis and type 1 diabetes. Working together, the team have made discoveries that have led to testing and clinical development of new treatments for these diseases. In this programme, the team aims to discover mechanisms regulating the immune response, and to exploit this knowledge to define new ways of switching on or off, specific immune responses. We will particularly seek to develop novel vaccines for chronic infections and autoimmune diseases, and to improve the safety of bone marrow transplantation.Read moreRead less
Type 1 diabetes (T1D) is a major chronic disease affecting over 100,000 Australians. Its treatment and complications impose a significant burden on affected individuals and their families and on the health system. T1D occurs when the immune system attacks insulin-producing cells in the islet cells of the pancreas. The team has developed ways to identify at-risk people, defined immune and genetic causes of T1D and is undertaking prevention trials and Australia's first islet transplant program. Th ....Type 1 diabetes (T1D) is a major chronic disease affecting over 100,000 Australians. Its treatment and complications impose a significant burden on affected individuals and their families and on the health system. T1D occurs when the immune system attacks insulin-producing cells in the islet cells of the pancreas. The team has developed ways to identify at-risk people, defined immune and genetic causes of T1D and is undertaking prevention trials and Australia's first islet transplant program. Their multidisciplinary research is taking us closer to the prevention and cure of T1D.Read moreRead less
The Translation Of Dendritic Cell Biology Into Clinical Practice
Funder
National Health and Medical Research Council
Funding Amount
$3,674,406.00
Summary
This Program combines world recognized expertise in the science of immunology and the blood system, with top Australian expertise in the practice of bone marrow transplantation and the treatment of hematological malignancies. Its vision is to study the biology of dendritic cells, which are the specialized white cells that initiate the immune response, and then, to apply this knowledge to the design and introduction of novel diagnostic and therapeutic immune strategies, to improve the survival of ....This Program combines world recognized expertise in the science of immunology and the blood system, with top Australian expertise in the practice of bone marrow transplantation and the treatment of hematological malignancies. Its vision is to study the biology of dendritic cells, which are the specialized white cells that initiate the immune response, and then, to apply this knowledge to the design and introduction of novel diagnostic and therapeutic immune strategies, to improve the survival of patients with leukaemia, lymphoma and multiple myeloma.Read moreRead less
Immune Regulation, Effector Function And Human Therapy
Funder
National Health and Medical Research Council
Funding Amount
$11,474,346.00
Summary
The immune system plays an important role in protecting the host from viral and bacterial infections, and inhibits cancer onset and progression. Immune processes proceed through specialised cells in conjunction with soluble factors such as inteferons and interleukins. These soluble factors can regulate the activities of immune cells, and inhibit the growth and survival of aberrant (virus infected, cancer) cells. Unfortunately, the immune system can sometimes lose specificity and attack the host, ....The immune system plays an important role in protecting the host from viral and bacterial infections, and inhibits cancer onset and progression. Immune processes proceed through specialised cells in conjunction with soluble factors such as inteferons and interleukins. These soluble factors can regulate the activities of immune cells, and inhibit the growth and survival of aberrant (virus infected, cancer) cells. Unfortunately, the immune system can sometimes lose specificity and attack the host, resulting in autoimmune diseases such as diabetes. This research team has played a vital role in characterising the specific activities of immune cells and the associated factors. Importantly, they are deciphering the intricate communication networks of these immune components and dissecting their modes of action. By understanding these complex processes, the team aims to harness the unique therapeutic properties of our own immune system and translate their findings into the clinic. The team is developing new immune-based therapies for use, either alone or in combination with existing chemotherapies to fight debilitating human diseases such as cancer and autoimmune disease.Read moreRead less