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
Mechanisms Of Photoprotection By Vitamin D And Analogs
Funder
National Health and Medical Research Council
Funding Amount
$438,186.00
Summary
Our discoveries have clearly shown that vitamin D compounds produced in skin due to UV exposure, have a role in protecting skin from further UV damage. The studies are designed to further examine the mechanism of this photoprotective effect, as it appears to be novel. This will aid in the developmentof agents, which could be used as an after-sun lotion to gain some protection. As Australia has the highest skin cancer rates in the world, this would be of significant health and economic value.
Do ‘classical’ Or ‘oxidative’ UVR-induced DNA Adducts Drive Melanoma Induction After Ultraviolet Radiation
Funder
National Health and Medical Research Council
Funding Amount
$335,757.00
Summary
There is debate about the mechanisms by which sun exposure influences melanoma development. This leads to difficulties in formulating adequate sunscreens and guidelines for safe levels of exposure. We will elucidate the critical UV-induced DNA adducts that are necessary for MM development. This will introduce experimental evidence into the debate about sun exposure and melanoma. The use of post sunburn creams containing enzymes which rapidly remove the dangerous DNA adducts will be indicated.
The Melanoma Susceptibility Gene Product P16 Functions In A UV-induced Cell Cycle Checkpoint In Human Skin
Funder
National Health and Medical Research Council
Funding Amount
$204,131.00
Summary
The contribution of the ultraviolet component of sunlight to skin cancer generally, and melanoma in particular, is widely acknowledged. However, the actual mechanism by which ultraviolet radiation changes the normal skin melanocytes, the pigmented skin cells, into cancerous melanomas is unclear. Several years ago, a gene was identified that was found to be mutated in a high proportion of sporadic melanomas, and was also found to be mutated in a proportion of families with a predisposition to dev ....The contribution of the ultraviolet component of sunlight to skin cancer generally, and melanoma in particular, is widely acknowledged. However, the actual mechanism by which ultraviolet radiation changes the normal skin melanocytes, the pigmented skin cells, into cancerous melanomas is unclear. Several years ago, a gene was identified that was found to be mutated in a high proportion of sporadic melanomas, and was also found to be mutated in a proportion of families with a predisposition to developing melanoma. This melanoma susceptibility gene, p16, can act to block cells growth, thus loss of this gene function in disease could lead to uncontrolled cell growth, a hallmark of cancer. This proposal investiagtes the role of p16 in responses of normal skin cells to ultraviolet radiation. We will examine the increased levels of p16 detected in skin after exposure to low doses of ultraviolet radiation and attempt to define the growth responses of these cells to the increased p16 levels. This project will help to establish the normal role of p16 in cellular responses to ultraviolet radiation, and may also identify novel targets for diagnosis, prevention or treatment of melanoma.Read moreRead less
Quantitiative Assessment Of Solar UV Exposure For Vitamin D Synthesis In Australian Adults
Funder
National Health and Medical Research Council
Funding Amount
$1,162,536.00
Summary
This research program will add significantly to our current scientific understanding of the dual health outcomes of UV exposure (Vitamin D and skin cancer) . This project is in line with Australia's R and D Priorities, in that it will result in direct and indirect social and economic benefits to Australia by applying the scientific knowledge gained through this research to develop public health initiatives to improve some of Australia's most significant and costly health problems.
Susceptibility Of The Basal Layer Of Human Epidermis To UVA Oxidative Damage Due To Pheomelanin And Suboptimal DNA Repair
Funder
National Health and Medical Research Council
Funding Amount
$559,354.00
Summary
Australia has the highest incidence of skin cancer in the world. It is important to understand how sunlight causes skin cancer and the wavelengths involved in order to devise effective preventative and therapeutic strategies. Our proposal is that the cells in the skin that give rise to the most common forms of skin cancer, squamous cell carcinoma and basal cell carcinoma, are particularly vulnerable to UVA. We aim to study why this is the case and whether this vulnerability can be prevented.