Development Of Innovative Approaches To Manage Insect-transmitted Diseases
Funder
National Health and Medical Research Council
Funding Amount
$4,435,142.00
Summary
This program grant focuses on the development of new methods to control mosquito-borne diseases, including those caused by dengue, Japanese encephalitis, and chikungunya viruses. We are investigating whether the introduction of Wolbachia micro-organisms into mosquitoes can be used to selectively eliminate old mosquitoes and reduce transmission of human pathogens. We will also determine whether Wolbachia have any non-lethal affects on mosquito behaviours such as dispersal and biting activity whic ....This program grant focuses on the development of new methods to control mosquito-borne diseases, including those caused by dengue, Japanese encephalitis, and chikungunya viruses. We are investigating whether the introduction of Wolbachia micro-organisms into mosquitoes can be used to selectively eliminate old mosquitoes and reduce transmission of human pathogens. We will also determine whether Wolbachia have any non-lethal affects on mosquito behaviours such as dispersal and biting activity which determine the level of contact between mosquitoes and humans.Read moreRead less
Immunity And Pathogenesis In Tropical And Infectious Diseases: Implications For Vaccines And
Funder
National Health and Medical Research Council
Funding Amount
$15,794,553.00
Summary
Malaria, streptococcal diseases, helminthiases and scabies are diseases of indigenous people on a massive scale, which lack vaccines. We aim to understand the pathogenesis of these diseases and develop vaccines and other treatments to combat them. Team includes senior experts on infectious diseases with long collaborative histories and younger members with impressive credentials. The work proposed also concerns inventive new ways of making such vaccines by novel chemical methods and aspects of d ....Malaria, streptococcal diseases, helminthiases and scabies are diseases of indigenous people on a massive scale, which lack vaccines. We aim to understand the pathogenesis of these diseases and develop vaccines and other treatments to combat them. Team includes senior experts on infectious diseases with long collaborative histories and younger members with impressive credentials. The work proposed also concerns inventive new ways of making such vaccines by novel chemical methods and aspects of delivery.Read moreRead less
The genome project has opened the path for the study of diseases using genetics. This approach is still quite recent in human and mammalian biology. It requires a large amount of input from statisticians and computer scientists as well as from the biologists and clinicians working on the disease. The team is looking for genes causing complex genetic diseases and use human populations and families as well as mouse models of human diseases. This includes modifiers of cancer development and respons ....The genome project has opened the path for the study of diseases using genetics. This approach is still quite recent in human and mammalian biology. It requires a large amount of input from statisticians and computer scientists as well as from the biologists and clinicians working on the disease. The team is looking for genes causing complex genetic diseases and use human populations and families as well as mouse models of human diseases. This includes modifiers of cancer development and response to infectious disease as well as deafness and autoimmune diseases.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
Depressive And Bipolar Disorders: Evaluating Determinants Of Onset, Recovery And Treatment Resistance
Funder
National Health and Medical Research Council
Funding Amount
$7,861,447.00
Summary
The depressive disorders, including bipolar disorder, are highly prevalent in the Australian community. These illnesses may be chronic or relapsing, may impair the capacity to work and can be resistant to treatment. The research team addresses this public health and clinical problem by undertaking a number of studies pursuing factors influencing predisposition and onset to disorder, clarifying the effectiveness of new treatments, and investigating factors predictive of treatment response and res ....The depressive disorders, including bipolar disorder, are highly prevalent in the Australian community. These illnesses may be chronic or relapsing, may impair the capacity to work and can be resistant to treatment. The research team addresses this public health and clinical problem by undertaking a number of studies pursuing factors influencing predisposition and onset to disorder, clarifying the effectiveness of new treatments, and investigating factors predictive of treatment response and resistance.Read moreRead less
Insult, Injury And Recovery In Brain Disease: From Molecules To Therapeutic Outcome
Funder
National Health and Medical Research Council
Funding Amount
$8,215,611.00
Summary
When nerve cells are damaged, destroyed or injured, through disease or trauma, common pathological processes are set in train. Even though there are many factors that might trigger disease, these inevitably lead to common processes that end in cell death or initiate protective processes. One theme involves the factors that surround these responses to nerve injury and stress, and the consequent protective and regenerative responses that ensue. Another theme, closely integrates with the first, is ....When nerve cells are damaged, destroyed or injured, through disease or trauma, common pathological processes are set in train. Even though there are many factors that might trigger disease, these inevitably lead to common processes that end in cell death or initiate protective processes. One theme involves the factors that surround these responses to nerve injury and stress, and the consequent protective and regenerative responses that ensue. Another theme, closely integrates with the first, is to exploit basic biological mechanisms with the aim of identifying and developing therapeutic targets for the management of a wider range of neurological conditions.Read moreRead less
Regulation Of Neural Cell Production In The Normal And Diseased Brain
Funder
National Health and Medical Research Council
Funding Amount
$6,888,658.00
Summary
Members of this team are at the forefront of research into the molecular control of nerve cell production and function in the developing and adult brain. They were responsible, often through collaboration, for many of the major discoveries demonstrating that stem cells in the brain of adult animals can generate new nerve cells; this revolutionised our concept of the brain and opened-up the possibility of therapeutic repair of neural damage through stimulation of a patient?s own stem cells. Disco ....Members of this team are at the forefront of research into the molecular control of nerve cell production and function in the developing and adult brain. They were responsible, often through collaboration, for many of the major discoveries demonstrating that stem cells in the brain of adult animals can generate new nerve cells; this revolutionised our concept of the brain and opened-up the possibility of therapeutic repair of neural damage through stimulation of a patient?s own stem cells. Discovering the molecular mechanisms controlling this process is the goal of the present program. In order to achieve this aim we have formed a team on the basis of considerable past success, as well as future requirements. The team members have the complementary skills to assess all aspects of the problem, including crucial functional and clinical expertise. By combining resources we will position ourselves at the very forefront of the international competition to discover and to evaluate clinically the molecular mechanisms underlying neural repair and regeneration. This is of enormous significance in determining how we best treat stroke, injury and other neurodegenerative diseases in the next 10 years, and will lead to the development of new therapeutics of immense value. The team will use innovative approaches such as cell-sorting to obtain pure populations of stem cells and their progeny in order to identify new therapeutic targets; these will then be validated in animal models of neurological disease. Since team members have previously been involved in progressing molecular discovery to clinical trials, we are also in a good position to exploit these discoveries in partnership with the biopharmaceutical industry.Read moreRead less