Role Of Epigenetic Mechanisms In Diabetic Vascular Complications
Funder
National Health and Medical Research Council
Funding Amount
$438,520.00
Summary
Diabetic complications including heart attacks, strokes, kidney disease and blindness appear to be related to the high glucose (sugar) level but how glucose itself induces end-organ injury remains to be fully determined. In this proposal it is suggested that the long-term damaging effects of glucose relate to its ability to damage the regulation of genes by directly affecting DNA and its covering known as histones. Specifically glucose, possibly by altering certain biochemical pathways called ox ....Diabetic complications including heart attacks, strokes, kidney disease and blindness appear to be related to the high glucose (sugar) level but how glucose itself induces end-organ injury remains to be fully determined. In this proposal it is suggested that the long-term damaging effects of glucose relate to its ability to damage the regulation of genes by directly affecting DNA and its covering known as histones. Specifically glucose, possibly by altering certain biochemical pathways called oxidation pathways, interferes with enzymes which affect the structure of DNA and related molecules resulting in altered expression of many proteins. One of these proteins known as NF kappa B is activated in diabetes, probably by mechanisms involving regulation of these enzymes which play a central role in modifying gene structure. By clarifying the exact mechanisms at a molecular level that mediate the effect of glucose on genes and proteins it will be possible to target these molecules and develop new treatments to prevent, retard or reverse the blood vessel complications that are so common in diabetes.Read moreRead less
Progesterone Regulation Of Epithelial Expansion In The Normal Human Breast
Funder
National Health and Medical Research Council
Funding Amount
$556,393.00
Summary
The ovaries play a pivotal role in breast cancer. Progesterone increases breast cancer risk, and this is likely to be a subversion of its role in the normal breast, which is to participate in the normal expansion of the epithelial cells during the menstrual cycle, but how it does this is unknown. We will explore how progesterone influences cell types in the breast similar to those that become cancerous. This will uncover potential targets for prevention and treatment.
Short-term Effects Of Overfeeding On Metabolic Risk In Humans
Funder
National Health and Medical Research Council
Funding Amount
$417,196.00
Summary
The prevalence of obesity is rapidly increasing in Australia and other parts of the world. Obesity is closely associated with insulin resistance and plays a role in the development of type 2 diabetes. However, the effects of short-term periods of over nutrition in humans remain unclear. In the proposed study, we will investigate the effects of short-term weight gain by high fat feeding in lean subjects, in subjects who are overweight and in subjects who are genetically more likely to develop dia ....The prevalence of obesity is rapidly increasing in Australia and other parts of the world. Obesity is closely associated with insulin resistance and plays a role in the development of type 2 diabetes. However, the effects of short-term periods of over nutrition in humans remain unclear. In the proposed study, we will investigate the effects of short-term weight gain by high fat feeding in lean subjects, in subjects who are overweight and in subjects who are genetically more likely to develop diabetes (due to strong family history). The aims are to distinguish physiological and endocrine characteristics of individuals who store more fat in response to overfeeding. We will identify differences between these individuals and whether they have defects in upregulating machinery involved in fat oxidation and energy production in skeletal muscle that may help them adapt during to energy excess. We will look for changes in type 2 diabetes risk and we will have the potential to identify defects in factors that are involved in this response. We will also re-examine indivudals again after calorie restriction and weight loss. We also plan to confirm the role of the candidate genes involved in fat oxidation that have been identifieid in human studies by in vivo gene transfer technology in rodents. This study will determine whether overweight and lean subjects behave similarly when faced with an overfeeding challenge. We expect that individuals with a genetic predisposition for T2DM will become more IR, due to metabolic inflexibility and a decreased ability to upregulate machinery involved in fatty acid oxidation and mitochondrial function. By characterising the physiological and endocrine responses to overfeeding, we will establish quantifiable markers allowing us to distinguish those at risk and identify new targets for pharmacological or lifestyle intervention.Read moreRead less
Development Of A Specific Activin Antagonist For Therapeutic Applications
Funder
National Health and Medical Research Council
Funding Amount
$504,287.00
Summary
Activin is a key regulator of homeostasis in several organs and tissues, including ovaries, testes, liver and skin, and alterations in activin�s activity can result in fibrosis, cachexia and cancer. In this grant we propose to develop a specific activin antagonist by modifying the activin A propeptide. This novel reagent could be used to promote liver growth in severe hepatic disease and prevent fibrosis in numerous tissues.
Novel Interactions Between GnRH Receptor And E2F4 Transcription Factor.
Funder
National Health and Medical Research Council
Funding Amount
$462,750.00
Summary
The reproductive endocrine system is under the control of gonadotropin-releasing hormone (GnRH), signalling via its G-protein coupled receptor (GPCR) in the anterior pituitary gland. The GnRH receptor (GnRHR) is the drug target for the treatment of a range of endocrine-related disorders as well as hormone-dependent cancers. Sustained treatment with either GnRH agonists or antagonists can block gonadotropin secretion indirectly, via down-regulation of the pituitary receptor resulting in a reducti ....The reproductive endocrine system is under the control of gonadotropin-releasing hormone (GnRH), signalling via its G-protein coupled receptor (GPCR) in the anterior pituitary gland. The GnRH receptor (GnRHR) is the drug target for the treatment of a range of endocrine-related disorders as well as hormone-dependent cancers. Sustained treatment with either GnRH agonists or antagonists can block gonadotropin secretion indirectly, via down-regulation of the pituitary receptor resulting in a reduction of gonadotropin secretion and consequent decline in steroid production. As the majority of tumours treated with GnRH analogues are hormone-dependent, this starves the tumour of the steroid support required for growth. However, the concept of a direct anti-tumour effect of GnRH, independent of the pituitary-gonadal axis, is supported by the in vitro inhibition of both cell growth and DNA synthesis in a number of tumour cell lines. Despite the wide use of GnRH analogues, the molecular basis of the growth inhibitory effects resulting from the activation of this receptor is not fully understood. Unravelling the protein interactions underlying receptor-mediated signalling events will provide valuable information towards understanding of receptor function in vivo. We have identified a novel interaction involving the GnRHR and E2F4, a transcription factor involved in suppression of the transcription of genes involved in cell cycle progression. In addition, over 80% of E2F4 knockout mice are sterile. Owing to the role of the GnRHR in the reproductive pathway we are interested in determining whether the GnRHR-E2F4 interaction has an influence on the development of the hypothalamic-pituitary-gonadal axis, hence affecting reproductive capacity. The interaction identified and studied in this proposal has implications for the treatment of reproductive tumours, such as those of the breast and prostate, and understanding the development of the hypothalamic-pituitary-gonadal axis.Read moreRead less