Understanding G Protein-Coupled Receptors (GPCRs): Accelerating Discovery From Concept To Clinic.
Funder
National Health and Medical Research Council
Funding Amount
$6,871,789.00
Summary
G Protein-Coupled Receptors (GPCRs) form the largest family of receptors (and thus drug targets) in living organisms. Currently, the major reason that new drugs fail to reach the clinic is lack of appropriate drug effect (approx. 30%). Thus, we need a better understanding of how GPCRs work and how this relates to disease. Our Program addresses this knowledge gap, using GPCR models that are relevant to treatment of metabolic, cardiovascular and central nervous system disease.
The immune system plays an important role in protecting the host from viral and bacterial infections, and inhibits cancer onset and progression. 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. By understanding these complex processes the team aims to harness the unique therapeutic pro ....The immune system plays an important role in protecting the host from viral and bacterial infections, and inhibits cancer onset and progression. 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. 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.Read moreRead less
Host Parasite Interactions: Disease, Pathogenesis And Control
Funder
National Health and Medical Research Council
Funding Amount
$13,738,897.00
Summary
Our program will investigate two major global parasitic diseases: malaria and leishmaniasis. We will explore how the parasites identify and invade the host. This is a critical stage of the infection and we will characterise proteins involved as they are potential targets for drugs and vaccines against the parasites. Many of these recognition and interaction components are excellent candidates for the development of vaccines to interrupt the cycle of infection. We are also unravelling metabolic p ....Our program will investigate two major global parasitic diseases: malaria and leishmaniasis. We will explore how the parasites identify and invade the host. This is a critical stage of the infection and we will characterise proteins involved as they are potential targets for drugs and vaccines against the parasites. Many of these recognition and interaction components are excellent candidates for the development of vaccines to interrupt the cycle of infection. We are also unravelling metabolic pathways unique to the parasites using a mixture of genetic and computational tools complemented with sophisticated instrumentation to chemically identify the parasite�s entire repertoire of metabolic compounds. These pathways, absent from human hosts, are also highly vulnerable and we will feed the key steps into the drug development facet of the program. Our program also looks at how the parasites cause disease and how the host responds to the disease. We will explore the reactions of the immune system to infection and consequences of the body�s (often only partially successful) attempts to fight off the disease.Read moreRead less
Molecular Markers Of Phenotype, Therapeutic Responsiveness And Prognosis In Human Cancers.
Funder
National Health and Medical Research Council
Funding Amount
$11,762,117.00
Summary
This proposal aims to identify molecular markers that can be used to classify subtypes of particular cancers according to their prognosis and response to therapy. This will optimise selection of patients for the most appropriate treatment and lead to the development of new therapeutic strategies.
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
Control Of Cell Proliferation And Differentiation In Breast And Prostate Cancer
Funder
National Health and Medical Research Council
Funding Amount
$5,043,011.00
Summary
Breast and prostate cancer are the most commonly diagnosed cancers in women and men respectively, together accounting for >25% of all newly diagnosed cancers in Australia and other developed countries. Although significant improvements in the management of these cancers have occurred in the past 20 years further research is needed to better understand the molecular mechanisms of disease development and progression. Such research is critical to the better management and ultimate control of the ....Breast and prostate cancer are the most commonly diagnosed cancers in women and men respectively, together accounting for >25% of all newly diagnosed cancers in Australia and other developed countries. Although significant improvements in the management of these cancers have occurred in the past 20 years further research is needed to better understand the molecular mechanisms of disease development and progression. Such research is critical to the better management and ultimate control of these diseases through better treatments and prevention. A multidisciplinary team of cancer researchers at the Garvan Institute of Medical Research, with a 10 year track record of discovery and application of their research into breast and prostate cancer, will employ state-of-the-art research tools to identify new molecules and molecular pathways involved in these diseases. This new information will facilitate the improved management of these cancers through improved assessment of disease progression at the time of diagnosis and the development of new drugs and strategies for treatment and prevention.Read moreRead less
To understand the genetic basis of two of the most important cancers in women, breast and ovarian cancer. The team has already identified one gene that confers a very high risk of breast cancer and may account for a large proportion of 'familial' breast cancer. Their aim is to identify additional predisposition genes and to determine their normal function in the cell, as well as the way in which they contribute to the development of cancer
Antibodies are made by B-cells and are essential for a functional immune system. B cells circulate in the body, and, when they encounter an invader, they mature into antibody-producing cells (ASC). A small proportion of the cells become “memory” cells with the potential to become ASC should the same infection occur in the future. This is the basis of vaccination. This program aims to understand how a B cell changes into an ASC. We aim eventually to be able to improve vaccines and understand dise ....Antibodies are made by B-cells and are essential for a functional immune system. B cells circulate in the body, and, when they encounter an invader, they mature into antibody-producing cells (ASC). A small proportion of the cells become “memory” cells with the potential to become ASC should the same infection occur in the future. This is the basis of vaccination. This program aims to understand how a B cell changes into an ASC. We aim eventually to be able to improve vaccines and understand diseases such as allergy, lupus, arthritis and leukaemia to develop novel therapies.Read moreRead less