The Role Of Bone Morphogenetic Proteins In The Pathogenesis Of Pulmonary Hypertension
Funder
National Health and Medical Research Council
Funding Amount
$236,540.00
Summary
Many people develop problems with the blood vessels in the lungs, which then leads to a narrowing of these vessels and consequently a back-pressure strain on the heart. These disorders can arise from inherited diseases of the blood vessels themselves, or from accquired lung disease (for example due to smoking or chronic infections). At present there are few treatments which have any benefits for these patients and many must undergo lung or heart-lung transplantation. This project is desigened bo ....Many people develop problems with the blood vessels in the lungs, which then leads to a narrowing of these vessels and consequently a back-pressure strain on the heart. These disorders can arise from inherited diseases of the blood vessels themselves, or from accquired lung disease (for example due to smoking or chronic infections). At present there are few treatments which have any benefits for these patients and many must undergo lung or heart-lung transplantation. This project is desigened both to find out new information about the disease process that affects the lung blood vessels and to offer a strategy for new treatments. The project will use a crippled form of the cold virus to deliver genes to the lining of the lung blood vessels, then see what impact that has on the pressure within the vessels and the ways in which they respond to certain stresses. These studies will be carried out using laboratory animals. If successful, it may be possible to eventually design such viruses to deliver genes which have a helpful therapeutic impact on the disease in patients.Read moreRead less
A Gene Therapy Approach To Acute Myeloid Leukaemia: Reversion Of The Disease Phenotype
Funder
National Health and Medical Research Council
Funding Amount
$744,911.00
Summary
Acute myeloid leukaemia is a cancer of white blood cells in which there is uncontrolled cell growth filling up the blood with cells that do not function properly. The cells also invade various tissues causing further damage. The patient becomes increasingly compromised due to the lack of appropriate normal cell types. The present standard therapy involves radiation or chemicals which are toxic to the leukaemic cells. However, these treatments are also toxic to normal cells so very high doses tha ....Acute myeloid leukaemia is a cancer of white blood cells in which there is uncontrolled cell growth filling up the blood with cells that do not function properly. The cells also invade various tissues causing further damage. The patient becomes increasingly compromised due to the lack of appropriate normal cell types. The present standard therapy involves radiation or chemicals which are toxic to the leukaemic cells. However, these treatments are also toxic to normal cells so very high doses that might be more effective to kill the leukaemic cells can not be given. At the doses which can be administered, the leukaemia often (in greater than 50% of patients) becomes resistant. The present project seeks to use a novel treatment strategy in which genes are used to modify the genetic abnormalities present in these leukaemic cells thereby stopping their growth. This growth suppression will be specific to the leukaemic cells as it targets their abnormal genetics leaving normal cells alone. The gene therapeutics have already been identified in part and the aims of this grant are: 1. To show that the gene therapeutic approach is justified to selectively stop the leukaemic cells from growing. 2. To confirm novel means to identify the inhibitory genes. 3. To determine the best inhibitory gene(s). 4. To show how these inhibitory genes can be delivered to the patients' cells and to model their effect in animal models. This project would represent a paradigm shift in the treatment of leukaemia and also has implications for the treatment of other cancer types.Read moreRead less
Infectious Large Capacity Vectors For Gene Therapy
Funder
National Health and Medical Research Council
Funding Amount
$374,625.00
Summary
The next 25 to 50 years will witness the culmination of a demographic shift in the age of the population which will be associated with an increasing importance of both inherited predispositions to late-onset chronic, complex diseases and natural degenerative processes. Medicine has historically sought to manage and cure the symptoms of disease. The focus for therapy has begun to switch from alleviating the ailments to establishing and resolving their causes. On the back of the Human Genome Proje ....The next 25 to 50 years will witness the culmination of a demographic shift in the age of the population which will be associated with an increasing importance of both inherited predispositions to late-onset chronic, complex diseases and natural degenerative processes. Medicine has historically sought to manage and cure the symptoms of disease. The focus for therapy has begun to switch from alleviating the ailments to establishing and resolving their causes. On the back of the Human Genome Project, genetics research will identify genes that are central to these processes, leading to gene-based medicine. Some of this new treatment will be drug-based but an alternative is the correction of the defective genes themselves gene therapy to either replace inherited faulty genes or to provide novel or modified genes that may help the repair and maintenance of tissue, or combat abnormal processes such as cancer. Gene therapy is a field still in its infancy with just a few qualified successes reported in the past few years. Persistent expression of a transgene at therapeutic levels is required for successful gene therapy. Most of the currently used vector and virus systems have a small capacity and usually employ a reduced (cDNA) copy of the transgene lacking natural control mechanisms. These are prone to vector loss and promiscuous expression or loss of expression. The delivery of genomic DNA up to 20 times this size would enable genes to be transferred in entirety, including their natural regulatory elements. This project aims to develop a vector system based on Herpesviruses that tackles some of the problems with the current generation of gene therapy vectors. This system is particularly aimed at providing long-term gene expresssion at physiological levels and safe, efficient delivery systems through the use of genomic DNA.Read moreRead less