Sex Hormones And Heart Disease In Older Women Study (The SHOW Study)
Funder
National Health and Medical Research Council
Funding Amount
$594,672.00
Summary
Cardiovascular disease (CVD, heart disease and stroke) is the leading cause of death in women aged 65 and over. Counter-intuitively, androgens may be as, or even more important, than estrogens in determining CVD risk and all-cause mortality in women, but this is yet to be verified. We will document blood levels of androgens in women aged 70+ and determine whether androgens are associated with CVD and death in this large cohort of elderly well women.
Insect development : the role of cytochrome P450s. Pest insects vector human diseases such as malaria and impose a massive burden in agriculture due to control costs and production losses. The intelligent control of insect pests requires an understanding of their development that is controlled by hormones. This project will provide an in depth understanding of insect hormone synthesis/degradation that is controlled by a class of enzymes, the cytochrome P450s. This will increase the potential ....Insect development : the role of cytochrome P450s. Pest insects vector human diseases such as malaria and impose a massive burden in agriculture due to control costs and production losses. The intelligent control of insect pests requires an understanding of their development that is controlled by hormones. This project will provide an in depth understanding of insect hormone synthesis/degradation that is controlled by a class of enzymes, the cytochrome P450s. This will increase the potential for new insect-specific control strategies with a decreased environmental impact.Read moreRead less
A bird's eye view of sex: the chicken embryo as a model for gonadal development. The development of an embryo as either male or female (sex determination) is a fundamental biological process that fascinates both scientific and lay communities alike. This project will use the chicken embryo as a unique model organism to study how genes control sex determination. We will bring a novel method to our field of study; the use of avian viruses to deliver genes into embryos. This project will enhance ou ....A bird's eye view of sex: the chicken embryo as a model for gonadal development. The development of an embryo as either male or female (sex determination) is a fundamental biological process that fascinates both scientific and lay communities alike. This project will use the chicken embryo as a unique model organism to study how genes control sex determination. We will bring a novel method to our field of study; the use of avian viruses to deliver genes into embryos. This project will enhance our understanding of a basic biological process. It will have application to the poultry industry, in terms of sex ratio manipulation. It will also aid in the diagnosis of humans born with sexual abnormalities. The project will consolidate Australia's standing as a world leader in the area of reproduction and development.Read moreRead less
Understanding gonadal development and disease using a unique model system, the avian embryo. This project will provide information on normal and abnormal gonadal development during embryonic life. The study will aid in the diagnosis and management of humans born with disorders of sexual development and will be useful for sex ratio manipulation in the poultry industry.
Genetic regulation of testis development in the chicken embryo. This project aims to shed light on the genetic control of testis development during embryonic life, using the chicken embryo as a model. The results will have implications for sex ratio manipulation in poultry and for our understanding of sexual disorders in humans.
Control of vascular form and fate by a novel pre-mRNA splicing mechanism . Vertebrate vasculature forms elaborate, branched networks essential for life. As developing vessels permeate tissues and organs, dynamic and spatiotemporally regulated cellular signalling determines the fate, patterning and distribution of new vascular networks. This project follows the recent discovery of a mechanism whereby RNA diversification through alternative splicing controls complex signalling patterns in forming ....Control of vascular form and fate by a novel pre-mRNA splicing mechanism . Vertebrate vasculature forms elaborate, branched networks essential for life. As developing vessels permeate tissues and organs, dynamic and spatiotemporally regulated cellular signalling determines the fate, patterning and distribution of new vascular networks. This project follows the recent discovery of a mechanism whereby RNA diversification through alternative splicing controls complex signalling patterns in forming vessels. This project investigates this molecular mechanism in embryo and tissue development. The project will produce fundamental knowledge in RNA diversification, vascular fate, growth and cell signalling. New knowledge generated may lead to new approaches in stem cell biology, tissue engineering and regenerative biology.Read moreRead less
Hippo signalling control of transcription in lymphatic vascular development. Lymphatic vasculature forms complex, branched networks present in almost all vertebrate tissues and organs. Signalling in lymphatic endothelial cells determines the fate, structure and function of these complex and essential networks. This project follows our recent discovery of a major role for the Hippo signalling pathway in lymphatic vascular development. It aims to investigate how Hippo signalling regulates essenti ....Hippo signalling control of transcription in lymphatic vascular development. Lymphatic vasculature forms complex, branched networks present in almost all vertebrate tissues and organs. Signalling in lymphatic endothelial cells determines the fate, structure and function of these complex and essential networks. This project follows our recent discovery of a major role for the Hippo signalling pathway in lymphatic vascular development. It aims to investigate how Hippo signalling regulates essential target genes that drive lymphatic development. The project expects to generate fundamental knowledge in vascular signalling, transcription and the control of vascular network growth and expansion. Outcomes may provide significant benefits in new approaches in stem cell biology, tissue engineering and regenerative biology. Read moreRead less
Exposure To High Dose Estrogens In Adolescence: Long Term Effects On Mammographic Breast Density
Funder
National Health and Medical Research Council
Funding Amount
$89,050.00
Summary
Breast density is a well established risk factor for breast cancer, and has been shown to be reversibly influenced by hormone exposures in adult life. As one of the important roles of sex hormones during puberty is mammary cell proliferation, it is plausible that exposures at this earlier life stage might have a sustained influence on breast tissue composition and density, and subsequent breast cancer risk. This project aims to increase our understanding of the influence of sex hormones in adole ....Breast density is a well established risk factor for breast cancer, and has been shown to be reversibly influenced by hormone exposures in adult life. As one of the important roles of sex hormones during puberty is mammary cell proliferation, it is plausible that exposures at this earlier life stage might have a sustained influence on breast tissue composition and density, and subsequent breast cancer risk. This project aims to increase our understanding of the influence of sex hormones in adolescence on breast cancer risk by testing the hypothesis that exposure to large doses of sex hormones during adolescence has long-term effects on mammographic density. This will be done by comparing the mammographic densities of women who were treated with high doses of estrogen for tall stature during adolescence with women who were similarly assessed for tall stature but not treated. No previous study in humans has examined the long-term effects on breast tissue of high dose estrogen exposure at this early life stage. This is not surprising, given the difficulty in finding a suitable exposed population. This cohort of women, assessed or treated for tall stature, provides us with a unique opportunity to examine these influences. This research will add to our understanding of the influence of sex hormones in adolescence on mammographic density and breast cancer risk. If hormonal factors in adolescence are shown to influence mammographic density, this may lead to new avenues for breast cancer prevention efforts that are targeted much earlier in life. This information may lead to new research directions examining adolescent hormonal exposures (both endogenous and exogenous) and their influence on breast tissue.Read moreRead less