The discoveries made to date and the proposed studies point to an intrinsic role for vitamin D compounds in skin in providing protection from sun damage. As a result of sun exposure, increased concentrations of vitamin D compounds in skin will be generated and this is likely to provide protection against further UV damage, in much the same way as increased pigmentation and increased thickness of the outer layer of skin. Furthermore, the studies are designed to test whether vitamin D compounds wh ....The discoveries made to date and the proposed studies point to an intrinsic role for vitamin D compounds in skin in providing protection from sun damage. As a result of sun exposure, increased concentrations of vitamin D compounds in skin will be generated and this is likely to provide protection against further UV damage, in much the same way as increased pigmentation and increased thickness of the outer layer of skin. Furthermore, the studies are designed to test whether vitamin D compounds which have minimal effects on serum calcium, could nevertheless be used topically in association with a sunscreen or moisturizer to add to sun protection. As Australia has the highest skin cancer rates in the world, this would be of significant health and economic value.Read moreRead less
Stress Hyperglycaemia And Mortality In Critical Illness: Defining The Association And Underlying Mechanisms
Funder
National Health and Medical Research Council
Funding Amount
$125,526.00
Summary
The relationship between high blood sugar levels (hyperglycaemia) and mortality in critically ill patients remains an area of controversy with conflicting results between studies. This PhD thesis will attempt to resolve this by firstly evaluating whether relative hyperglycaemia as measured using a novel new measure better predicts mortality outcome in such patients; and secondly, attempt to establish possible mechanisms which contributes to this.
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
Is CYP11A1 Critical For The Vitamin D Photoprotective System In Skin?
Funder
National Health and Medical Research Council
Funding Amount
$517,567.00
Summary
Sunlight produces DNA damage. When inadequately repaired, this damage produces skin cancer. The vitamin D system in skin helps protect against this skin damage, but the vitamin D compounds involved and how they work is unclear. Recent data shows new vitamin D compounds with photoprotective activity and that vitamin D compounds increased expression of DNA repair proteins. These studies may enable pharmacological enhancement of protection from sunlight.