The Role Of Dendritic Cells In Graft-versus-host Disease After Allogeneic Stem Cell Transplantation.
Funder
National Health and Medical Research Council
Funding Amount
$317,633.00
Summary
Allogeneic bone marrow transplantation (BMT) remains the most effect curative treatment for patients with a number of malignant conditions, especially leukemia. Graft-versus-Host Disease (GVHD) ocurrs when the newly transplanted bone marrow (which includes the immune system) recognises the transplant recipient as foreign and mounts an immune attack against patient tissues. GVHD is the major complication of BMT and is responsible for the death of up to half of the patients who receive this proced ....Allogeneic bone marrow transplantation (BMT) remains the most effect curative treatment for patients with a number of malignant conditions, especially leukemia. Graft-versus-Host Disease (GVHD) ocurrs when the newly transplanted bone marrow (which includes the immune system) recognises the transplant recipient as foreign and mounts an immune attack against patient tissues. GVHD is the major complication of BMT and is responsible for the death of up to half of the patients who receive this procedure. Research to date by Dr Hill and colleages has provided substantial detail on how and why this process occurs. This information has led to a number of advances in the field which are already improving patient survival after BMT. This includes a new type of bone marrow transplantation that uses a naturally ocurring growth factor (called a cytokine) to allow the collection of immature bone marrow cells from the blood of transplant donors. The transplantation of these cells rather than bone marrow appears to reduce the chance of dying during BMT and also improves the cure rates from the underlying leukemia. In addition, Dr Hill has developed a novel method for preventing GVHD using different types of naturally ocurring growth factors called cytokine shields that help protect patient tissue from attack by the immune system. It has recently become clear that the immune system is directed by a subtype of white cells called dendritic cells and Professor Hart at the Mater Medical Research Institute has been a pioneer in this field. As initiators of the immune system it is likely that dendritic cells play a pivotal role in GVHD and Dr Hill and Prof Hart at the Mater Medical Research Institute will study DC within the context of Dr Hills newly developed therapies with the aim of further understanding the processes of GVHD. This work will allow manipulation of these cells during BMT in order to improve patient survival.Read moreRead less
Identification And Characterization Of A Novel Tumor Suppressor
Funder
National Health and Medical Research Council
Funding Amount
$591,997.00
Summary
Australia has the highest rate of skin cancer in the world, with over 380,000 people diagnosed every year. Of these, over 370,000 have non-melanoma skin cancers including squamous cell carcinoma and basal cell carcinoma. Our laboratory has identified a gene in mice that protects animals from squamous cell cancer. The studies proposed in this grant examine the mechanisms underpinning this protective role and may have important implications for the prevention of skin cancers in humans.
Role Of Brm In Skin Tumour Progression From Benign To Malignant
Funder
National Health and Medical Research Council
Funding Amount
$457,267.00
Summary
Australia has the highest incidence of skin cancer in the world. Skin cancer is 3 times as common as all other cancers combined and continues to increase in incidence, particularly in the aging population. Skin cancer is caused by exposure to the ultraviolet radiation found in sunlight. Ultraviolet radiation causes the appearance of solar keratosis, or sunspots, benign lesions that are not particularly dangerous to human health. Some of these develop into malignant squamous cell carcinomas that ....Australia has the highest incidence of skin cancer in the world. Skin cancer is 3 times as common as all other cancers combined and continues to increase in incidence, particularly in the aging population. Skin cancer is caused by exposure to the ultraviolet radiation found in sunlight. Ultraviolet radiation causes the appearance of solar keratosis, or sunspots, benign lesions that are not particularly dangerous to human health. Some of these develop into malignant squamous cell carcinomas that can spread to other tissues and are potentially fatal. Little is known about the biological mechanisms involved in solar keratosis development into squamous cell carcinomas. We have identified the gene brm as being involved in this process. It has not previously been recognised that this gene is important for skin cancer development and therefore our preliminary studies have identified a potential new target. We will study the role of this gene in ultraviolet radiation induced skin carcinogenesis, determine whether it is mutated by ultraviolet radiation in human skin cancer, and what role in plays in some key biological processes in skin cancer development. This study will expand our understanding of malignant conversion during human skin carcinogenesis, the most prevalent human cancer in Australia.Read moreRead less