New insights into mammalian gene transcription - the role of parafibromin. Increasing our knowledge of fundamental gene and protein interactions is imperative as we move into an era of targetted molecular therapies to treat disease. Cancer is at the forefront of these diseases with hope of improved treatments firmly based in understanding the basic cell biology of tumours. This proposal describes research into a protein called parafibromin. We propose that parafibromin acts in major pathways res ....New insights into mammalian gene transcription - the role of parafibromin. Increasing our knowledge of fundamental gene and protein interactions is imperative as we move into an era of targetted molecular therapies to treat disease. Cancer is at the forefront of these diseases with hope of improved treatments firmly based in understanding the basic cell biology of tumours. This proposal describes research into a protein called parafibromin. We propose that parafibromin acts in major pathways responsible for how a cell manages stress by regulating levels of proteins involved in the cellular stress response. Discoveries made during the course of this research will provide knowledge of gene and protein interactions that will be important in the future to develop anti-cancer therapies. Read moreRead less
Understanding The Role Of RAS Mutations In Thyroid Cancer.
Funder
National Health and Medical Research Council
Funding Amount
$463,854.00
Summary
My fellowship will examine the association of RAS mutations in thyroid cancer. RAS proteins are the most mutated in cancer and I will investigate how they work in thyroid cancer. RAS mutated thyroid cancer is more likely to cause death. This grant will be based in the pioneering lab of Prof Fagin at Memorial Sloan Kettering Cancer Center and the Garvan Institute of Medical Research. It is hoped by understanding these mutations, new treatments for thyroid cancer can be developed.
My research focus is the physical and mental health of Australian women at midlife. Over the next 5 years I will address the management of severe menopausal symptoms, midlife depression and the neglected health needs of women during and after cancer treatment, organ transplant and severe persistent mental illness. I will also investigate novel treatment approaches for menopausal symptoms. I will work closely with relevant professional and community groups in planning, implementation and translat ....My research focus is the physical and mental health of Australian women at midlife. Over the next 5 years I will address the management of severe menopausal symptoms, midlife depression and the neglected health needs of women during and after cancer treatment, organ transplant and severe persistent mental illness. I will also investigate novel treatment approaches for menopausal symptoms. I will work closely with relevant professional and community groups in planning, implementation and translation to ensure my research addresses their needs.Read moreRead less
Proteolysis of binding protein complexes regulates bioavailability of insulin-like growth factor (IGF). We aim to determine how growth factors kept inactive in complexes in the blood can become free and active. The fundamental knowledge gained will help us understand the regulation of growth factors' availability to tissues and develop novel or more effective delivery systems for therapeutic growth factors that could impact on several conditions including diabetes, growth disorders and critical ....Proteolysis of binding protein complexes regulates bioavailability of insulin-like growth factor (IGF). We aim to determine how growth factors kept inactive in complexes in the blood can become free and active. The fundamental knowledge gained will help us understand the regulation of growth factors' availability to tissues and develop novel or more effective delivery systems for therapeutic growth factors that could impact on several conditions including diabetes, growth disorders and critical illness. This project therefore benefits Australia at two levels: by maintaining our international leadership in the study of these important growth-regulatory molecules, and by providing a better understanding of physiological mechanisms that might benefit the health of Australians and provide opportunities to develop novel therapeutics.Read moreRead less
Endocrine signalling from bone cells in the regulation of glucose and energy homeostasis. Osteoporosis, obesity and diabetes are increasingly common, all of which are in urgent need of more effective therapies. This project examines powerful neuropeptide signalling pathways that integrate bone homeostasis with whole body energy and glucose balance. Initial studies have defined the efferent hypothalamic pathways of this system and this project will build upon these findings to examine the feedbac ....Endocrine signalling from bone cells in the regulation of glucose and energy homeostasis. Osteoporosis, obesity and diabetes are increasingly common, all of which are in urgent need of more effective therapies. This project examines powerful neuropeptide signalling pathways that integrate bone homeostasis with whole body energy and glucose balance. Initial studies have defined the efferent hypothalamic pathways of this system and this project will build upon these findings to examine the feedback signals produced by bone cells to regulate adipose and pancreatic function. Exploring this entirely new paradigm of skeletal biology, will reveal novel circulating factors capable of regulating adipose and glucose economies, as well as bone mass, thereby offering potential therapies for these debilitating conditions.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0775746
Funder
Australian Research Council
Funding Amount
$102,000.00
Summary
GC/MS facility for medical, bioanalytical and environmental research. The research will contribute to the bioremediation of heavily polluted sites in Sydney and the knowledge gained and the technology developed will be applicable to sites all over the world. Fundamental knowledge in Systems Biology will have applications to advance Australian export industries based on fermentation. Advances in chemical ecology and biotechnology will impact in areas such as contact lenses, implants, therapeutics ....GC/MS facility for medical, bioanalytical and environmental research. The research will contribute to the bioremediation of heavily polluted sites in Sydney and the knowledge gained and the technology developed will be applicable to sites all over the world. Fundamental knowledge in Systems Biology will have applications to advance Australian export industries based on fermentation. Advances in chemical ecology and biotechnology will impact in areas such as contact lenses, implants, therapeutics and water treatment. Probing pituitary hormone action will lead to greater understanding of health issues such as abnormal body composition, obesity and diabetes.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0883078
Funder
Australian Research Council
Funding Amount
$356,000.00
Summary
Liquid Chromatography Tandem Mass Spectrometry Steroid Analysis Facility. This first of a new generation of ultra-sensitive analytical mass spectrometers for small molecules will be established as a national assay facility allowing all Australian researchers open access to a new dimension of highly accurate and simultaneous measurements of multiple bodily chemicals such as steroids, vitamins and hormones. It is crucial to developing new knowledge in basic, developmental and pathological cell bio ....Liquid Chromatography Tandem Mass Spectrometry Steroid Analysis Facility. This first of a new generation of ultra-sensitive analytical mass spectrometers for small molecules will be established as a national assay facility allowing all Australian researchers open access to a new dimension of highly accurate and simultaneous measurements of multiple bodily chemicals such as steroids, vitamins and hormones. It is crucial to developing new knowledge in basic, developmental and pathological cell biology and for underpinning commercial developments of new molecular targets for therapeutic drugs for many diseases including cancer, cardiovascular disease and reproductive disorders. This facility is pivotal to maintaining international competitiveness in many areas of biological research in national priority areas.Read moreRead less