Determinants Of Reproductive Health: Basic And Translational Studies In Fertility.
Funder
National Health and Medical Research Council
Funding Amount
$12,530,124.00
Summary
Reproductive health is an issue of national and international significance yet there are considerable unmet needs in the key areas of infertility and contraception. The health of each adult is strongly affected by very early events in development, including the effects of genetics and environment on sperm and eggs, and of the intra-uterine environment. This program will use a combination of advanced technologies to address these issues and will translate findings to the clinic, thus improving th ....Reproductive health is an issue of national and international significance yet there are considerable unmet needs in the key areas of infertility and contraception. The health of each adult is strongly affected by very early events in development, including the effects of genetics and environment on sperm and eggs, and of the intra-uterine environment. This program will use a combination of advanced technologies to address these issues and will translate findings to the clinic, thus improving the quality of reproductive health care and the long-term health of Australians.Read moreRead less
This Program Grant investigates a number of important reproductive problems that affect the fertility of men, prostate cancer and the way the mother nurtures and protects the baby during pregnancy. The successful development of sperm requires the proper function of a number of biological processes. This grant investigates the way in which sperm are produced, the genes that are needed to control their development, and the way sperm propel themselves and fertilize the egg. The research also invest ....This Program Grant investigates a number of important reproductive problems that affect the fertility of men, prostate cancer and the way the mother nurtures and protects the baby during pregnancy. The successful development of sperm requires the proper function of a number of biological processes. This grant investigates the way in which sperm are produced, the genes that are needed to control their development, and the way sperm propel themselves and fertilize the egg. The research also investigates how sperm are protected during their development from infection and immunological rejection, achieved in part by a special environment within the tubes in the testis where they grow. It appears that the general mechanisms that the body uses to combat infections are modified within the testis and the way in which this occurs may provide clues that could be applied to prevent the rejection of transplanted organs in general. Some of the substances that control these processes appear to play an important role in the body�s defense against infection. The grant also investigates the processes that are involved in the development of prostate cancer. These changes can occur over many years and the grant will study some substances that appear to be involved. The work will provide new knowledge that may assist in new tests to identify whether a cancer is slow or fast growing, thereby helping each man to decide the most sensible form of treatment. The grant will investigate how a group of proteins, that also are involved in the control of processes discussed above, assist the mother in protecting her baby during pregnancy. The outcomes will assist in the management of disturbances of pregnancy that may put the fetus at risk of survival.Read moreRead less
Genetic And Bioinformatic Analysis Of Complex Human Diseases
Funder
National Health and Medical Research Council
Funding Amount
$8,752,567.00
Summary
Some human diseases are common in families; examples include prostate cancer, blood cancers, epilepsy and diabetes. Therefore, close relatives of individuals with a disease have an increased risk of being affected by this disease, implying a genetic basis. Finding the cause of these diseases is difficult, we will be developing novel approaches to the identification of genes responsible for these diseases. This is the first step towards the development of treatments for affected individuals.
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
The foot soldiers of the immune system, the white blood cells, constantly march through the body seeking out invaders, but kept in check by the barrier of endothelial cells that lines the inside of blood vessels. When infection occurs, molecular messages are transmitted amongst the white cells and between white cells and edothelium, to activate the immune cells to pass out of the blood vessels and mount a defence. Unfortunatley, the activation system sometimes goes awry, resulting in inflammator ....The foot soldiers of the immune system, the white blood cells, constantly march through the body seeking out invaders, but kept in check by the barrier of endothelial cells that lines the inside of blood vessels. When infection occurs, molecular messages are transmitted amongst the white cells and between white cells and edothelium, to activate the immune cells to pass out of the blood vessels and mount a defence. Unfortunatley, the activation system sometimes goes awry, resulting in inflammatory or allergic disease, such as arthritis or asthma. This team of researchers from the Hanson Institute in Adelaide, combining expertise in molecular and cell biology, protein chemestry, structual biology and animal models, has been working together for over 10 years, investigating the molecular mechanisms involved in controlling the formation and activities of blood vessels and white blood cells. This program seeks to further that understanding, and to develop drugs that have the potential of ameliorating the inflammatory condition.Read moreRead less
Regulation Of Gene Expression: Biomolecular Interactions In Cellular Development And Disease
Funder
National Health and Medical Research Council
Funding Amount
$2,998,713.00
Summary
This team consists of three of Australia�s younger researchers Merlin Crossley, Joel Mackay and Jacqui Matthews (as Chief Investigators), who are recognized as authorities in the areas of gene regulation and the structural and functional analysis of proteins. They are joined by Mitchell Weiss, a world authority on blood development and clinical disorders,and Alexis Verger, a molecular and cell biologist recruited from France, both as Principal Investigators. Crossley, Mackay and Matthews have wo ....This team consists of three of Australia�s younger researchers Merlin Crossley, Joel Mackay and Jacqui Matthews (as Chief Investigators), who are recognized as authorities in the areas of gene regulation and the structural and functional analysis of proteins. They are joined by Mitchell Weiss, a world authority on blood development and clinical disorders,and Alexis Verger, a molecular and cell biologist recruited from France, both as Principal Investigators. Crossley, Mackay and Matthews have worked as a team for around six years to date, have published together in high-quality international journals, and have received anumber of accolades for their contributions to Australian science. For example, Crossley has won a number of national awards, including the Gottschalk Medal of the Australian Academy of Science; Mackay was recently awarded the Prime Minister�s Prize for Life Scientist of the Year, and Matthews won the only Charles and Sylvia Viertel Medical Research Fellowship to be awarded in 2003. The members of this team have collaborated extensively on the world stage and Crossley, Mackay and Matthews have also taken leadership roles in the Australian scientific community. Mitchell Weiss has been an important collaborator, exchanging reagents and advice, since he and Crossley trained together as postdocs in Stu Orkin�s lab at Harvard in the early 90s. Most recently Weiss, in collaboration with Mackay, has made important discoveries on a-globin production, which has led to several highly significant publications including a seminal paper in Cell in 2004.The program of research put forward in this proposal centres around understanding the mechanisms through which genes are switched on and off, using blood development as a model system, that is also fundamental to human life. The regulation of gene output is essential both during the development of an organism and throughout the course of its life. Problems with this regulation can result in many different disease states, most notably cancer, which includes the many different types of leukemias. At one level, gene output is controlled by networks of specific proteins known as transcription factors that interact both with each other and with DNA. Currently, however, the details surrounding which complexes regulate which genes and the processes that control the making and breaking up of the complexes are not well understood. Knowledge of how these interactions take place will put us in a position to control the output of chosen genes for therapeutic purposes. We propose to use a combination of cell biological, biochemical, and structural approaches to firstly shed light on these complexes and secondly develop reagents that can be used to manipulate the activity of specific genes.Read moreRead less
Breast Cancer is a very common disease in women and although huge progress has been made in the last two decades, much remains to be done to improve our understanding of different types of breast cancer and its management. This program brings together the expertise of three senior researchers: 2scientists and 1 medical scientist. Dr Trench has an interest in identifying genes involved in cancers arising in patients who have a strong family history. She will use molecular methods and cohorts of p ....Breast Cancer is a very common disease in women and although huge progress has been made in the last two decades, much remains to be done to improve our understanding of different types of breast cancer and its management. This program brings together the expertise of three senior researchers: 2scientists and 1 medical scientist. Dr Trench has an interest in identifying genes involved in cancers arising in patients who have a strong family history. She will use molecular methods and cohorts of patients enrolled with Kathleen Cunningham Foundation for Research into Familial Breast and Ovarian Cancer to identify the genes responsible, assess their distribution in the population and determine whether these genes also play a role in non-familial cancers. Dr Khanna's work examines the complex array of enzymes that are responsible for maintaining the integrity of the DNA, and investigates how failure of these mechanisms leads to damage of the genetic material which ultimately results in cancer. It is known that genes involved in familial predisposition code for proteins that work as DNA repair enzymes. It is also known that different types of breast cancer exist, each with differing behaviour and response to treatment and that they are associated with specific genetic changes, including those associated with a familial predisposition. Prof Lakhani's interest lies in using microscopy and the latest molecular tools to refine the classification of these different types of breast tumour so that they can be managed appropriately by his surgical and oncological colleagues. A better understanding of the genetic changes and underlying biology of different types of breast cancer will lead to individualised and specific therapy for patients. This program brings together a unique combination, nationally and internationally, that investigates cancers at the level of genes and cells and translates the information to the clinic for the benefit of patient management.Read moreRead less