Development Of Modified IGF-binding Proteins As Novel Anti-cancer Chemotherapeutics
Funder
National Health and Medical Research Council
Funding Amount
$77,375.00
Summary
We propose to enhance the effectiveness of current anti-cancer treatments by co-administering a protein to sequester growth factors that promote the resistance of cancer cells to chemotherapy. We aim to achieve improved destruction of breast and colorectal cancers but with reduced adverse side effects. Our in vitro data show the effectiveness of this novel co-therapeutic which is a modified form of a natural carrier protein for these growth factors. This application seeks funding to enable proof ....We propose to enhance the effectiveness of current anti-cancer treatments by co-administering a protein to sequester growth factors that promote the resistance of cancer cells to chemotherapy. We aim to achieve improved destruction of breast and colorectal cancers but with reduced adverse side effects. Our in vitro data show the effectiveness of this novel co-therapeutic which is a modified form of a natural carrier protein for these growth factors. This application seeks funding to enable proof of concept in vivo in order to attract commercial funding for clinical trials.Read moreRead less
Therapeutic Strategies And Screening Methods For PKC Epsilon Antagonists In The Treatment Of Type 2 Diabetes
Funder
National Health and Medical Research Council
Funding Amount
$157,375.00
Summary
Type 2 diabetes is a chronic disease affecting over a million Australians and hundreds of millions of people worldwide. Its prevalence is rising due to several factors such as an increase in caloric intake, the aging of the population, and the common sedentary lifestyle of Western civilization. Type 2 diabetes occurs when the pancreas is unable to produce enough insulin for the body to cope with rising blood glucose levels after a meal, and has been strongly linked to obesity. We have now shown ....Type 2 diabetes is a chronic disease affecting over a million Australians and hundreds of millions of people worldwide. Its prevalence is rising due to several factors such as an increase in caloric intake, the aging of the population, and the common sedentary lifestyle of Western civilization. Type 2 diabetes occurs when the pancreas is unable to produce enough insulin for the body to cope with rising blood glucose levels after a meal, and has been strongly linked to obesity. We have now shown that an enzyme found in the pancreas becomes inappropriately activated under conditions of fat oversupply, and plays an important role in the development of defects in insulin release from the pancreas in response to glucose. Excitingly, we have also shown that inhibition of this enzyme can partly reverse these defects once they have been established. We now intend to further validate this enzyme as a drug target by determining the optimum dosing regimen for the treatment of type 2 diabetes in a mouse model, and testing whether this approach can be used in conjunction with previously-developed drugs which promote insulin action, to improve bood glucose handling better than either treatment alone. This would promote the enzyme as a therapeutic strategy in the treatment of Type 2 diabetes. We also plan to develop a high throuhput screen to identify novel inhibitors of the enzyme, which will further increase the attractiveness of the project to pharmaceutical companies, who are better able to implent full commercialization of our findings.Read moreRead less
Activated Protein C As A Promoter Of Wound Healing
Funder
National Health and Medical Research Council
Funding Amount
$391,650.00
Summary
The healing of wounds is a complex process involving a number of stages, including coagulation, inflammation, remodelling and finally development of full strength skin. Impaired wound healing and-or skin ulcers occur in patients with peripheral arterial occlusive disease, deep vein thrombosis, diabetes, pressure sores and burns. Despite intense investigation, the precise mechanisms associated with impaired healing are poorly understood. APC is a serine protease that plays a central role in physi ....The healing of wounds is a complex process involving a number of stages, including coagulation, inflammation, remodelling and finally development of full strength skin. Impaired wound healing and-or skin ulcers occur in patients with peripheral arterial occlusive disease, deep vein thrombosis, diabetes, pressure sores and burns. Despite intense investigation, the precise mechanisms associated with impaired healing are poorly understood. APC is a serine protease that plays a central role in physiological anticoagulation. APC potently activates gelatinase A, an enzyme that plays a prominent role during the remodelling phase of wound healing and angiogenesis. Our preliminary experiments provide very strong evidence that APC accelerates wound healing using both cultured cells and a rat skin wounding model. There are three aims to this study. The first will use cell culture techniques to investigate the mechanisms of action of APC during wound healing. Secondly, we will expand our pilot studies on the effect of APC as a promoter of wound healing in vivo. These studies will examine the exact dosing and timing regime for APC, using a rat wound healing model. In addition, we will test the effect of APC on slow healing wounds, present in diabetic rats. Thirdly, we will determine whether APC is quantitatively or functionally deficient in human wound fluid derived from slow-healing wounds compared to wounds that heal normally. This is the first time that APC has been implicated in wound healing. It is envisaged that this work will ultimately lead to a novel topical treatment of APC to accelerate slow-healing wounds.Read moreRead less
Targeting Protein Kinase C In Diabetes Management Using Novel Polyunsaturated Fatty Acids
Funder
National Health and Medical Research Council
Funding Amount
$150,000.00
Summary
PKC regulates a diverse range of cellular processes in an isozyme-specific manner. There is strong recent evidence to implicate PKC, especially PKC _, in mediating the actions of glucose in diabetes. This includes the action of glucose in renal glomeruli, retina, aorta and heart of diabetic animals and in cultured cells from these organs. More importantly, inhibition of PKC_ with the PKC_-specific inhibitor, LY333531, blocks the actions of glucose. Recently, our research group designed and synth ....PKC regulates a diverse range of cellular processes in an isozyme-specific manner. There is strong recent evidence to implicate PKC, especially PKC _, in mediating the actions of glucose in diabetes. This includes the action of glucose in renal glomeruli, retina, aorta and heart of diabetic animals and in cultured cells from these organs. More importantly, inhibition of PKC_ with the PKC_-specific inhibitor, LY333531, blocks the actions of glucose. Recently, our research group designed and synthesised a family of novel polyunsaturated fatty acids. One of these, MP5 (_-oxa- 21:3n-3), inhibited high glucose-induced activation of PKC? in cultured mesangial cells as well as in glomeruli of diabetic rats in a relatively selective manner. The overall aim of this proposal is to evaluate the potential for a chemically engineered novel polyunsaturated fatty acid, MP5 (_-oxa-21:3n-3), to treat pathogenesis associated with diabetes by targeting the PKC system. The specific aims are to: 1. Characterise the effects of MP5 on glucose- or advanced glycosylation end product-stimulated activation of protein kinase C (PKC). 2. Determine whether esterification of MP5 into diacylglycerol is essential for the action of MP5 3. Investigate whether MP5 is efficacious at preventing the actions of glucose in vitro e.g. glucose stimulated TGF_ production in mesangial cells, and in vivo in streptozotocin-diabetic rRead moreRead less
Development Of Inhibitors Of PKCzeta For Targeting Vascular Leak
Funder
National Health and Medical Research Council
Funding Amount
$335,113.00
Summary
Vascular leak (permeability) is a chief pathophysiological mechanism of many inflammatory diseases and cancer. Effective methods of reducing vascular permeability are likely to reduce or prevent morbidity. At present there are no potent broad spectrum inhibitors of vascular permeability. This application focuses on the development of such inhibitors.
Despite recent advances in therapeutic options, chronic viral infections, including infection with hepatitis C virus and hepatitis B virus, continue to be a significant cause of morbidity and mortality in Australia and affecting hundreds of millions of people worldwide. This R&D program aims to develop a cheaper drug formulation that is easier to deliver and more stable for transport to remote areas.
Production Of A Novel Humanised Anti Dendritic Cell Therapeutic Antibody For Graft Versus Host Disease
Funder
National Health and Medical Research Council
Funding Amount
$202,500.00
Summary
A transplant of bone marrow or other source of blood stem cells from a donor is often used to treat leukaemia patients whose disease has failed to respond to chemotherapy. The Mater Medical Research Institute has developed a world first dendritic cell depleting therapeutic antibody which may open a new strategy for the control of acute graft versus host disease, which is a very common and often fatal complication of bone marrow transplantation. The new antibody treatment is also likely to be use ....A transplant of bone marrow or other source of blood stem cells from a donor is often used to treat leukaemia patients whose disease has failed to respond to chemotherapy. The Mater Medical Research Institute has developed a world first dendritic cell depleting therapeutic antibody which may open a new strategy for the control of acute graft versus host disease, which is a very common and often fatal complication of bone marrow transplantation. The new antibody treatment is also likely to be useful for the prevention of rejection in solid organ transplantation. If successful, it will selectively control graft versus host disease, without compromising the essential anti-viral immunity and desired anti-leukemia activity of the graft.Read moreRead less
Phase 1 Clinical Trial Of Autologous Dendritic Cells To Induce Antigen-specific Tolerance
Funder
National Health and Medical Research Council
Funding Amount
$165,125.00
Summary
We have previously generated modified dendritic cells in mice with the ability to suppress immune responses once they have started. This project will develop the dendritic cell vaccine as a platform technology for human clinical use. We aim to demonstrate, in a phase I clinical trial, the capacity of modified human autologous dendritic cells to suppress the immune response to a model antigen in a group of healthy volunteers and a group of patients with rheumatoid arthritis taking drugs for their ....We have previously generated modified dendritic cells in mice with the ability to suppress immune responses once they have started. This project will develop the dendritic cell vaccine as a platform technology for human clinical use. We aim to demonstrate, in a phase I clinical trial, the capacity of modified human autologous dendritic cells to suppress the immune response to a model antigen in a group of healthy volunteers and a group of patients with rheumatoid arthritis taking drugs for their diseaseRead moreRead less
Development Of Novel Anti-cancer And Immunosuppressive Drugs Derived From Pineapple Stems
Funder
National Health and Medical Research Council
Funding Amount
$469,500.00
Summary
We have discovered two molecules from pineapple stems that show anti-tumour activity in laboratory studies. One molecule, called ananain, blocks a cancer causing protein called Ras, which is defective in approximately 30% of all cancers. The other molecule, called canizain, stimulates the bodies own immune system to target and kill cancer cells. The proposed research seeks to provide proof of concept of the use of ananain and canizain as drug development targets. Once this early proof of princip ....We have discovered two molecules from pineapple stems that show anti-tumour activity in laboratory studies. One molecule, called ananain, blocks a cancer causing protein called Ras, which is defective in approximately 30% of all cancers. The other molecule, called canizain, stimulates the bodies own immune system to target and kill cancer cells. The proposed research seeks to provide proof of concept of the use of ananain and canizain as drug development targets. Once this early proof of principle phase has been completed, we believe that ananain and canizain would be extremely attractive targets for further investment by a major pharmaceutical company.Read moreRead less
Development Of Novel And Selective Anticancer Drugs Derived From Cysteine.
Funder
National Health and Medical Research Council
Funding Amount
$264,250.00
Summary
In the next few years cancer is projected to become the leading cause of death in industrialised countries. Cancer chemotherapy currently relies on destruction of tumours by toxic drugs that indiscriminately kill all cell types, resulting in side effects that limit treatment. In the 21st century new cancer drugs will more effectively destroy malignant tumour cells without damaging normal cells. The R and D herein will value-add to our discovery of a new class of potent and orally active anti-tum ....In the next few years cancer is projected to become the leading cause of death in industrialised countries. Cancer chemotherapy currently relies on destruction of tumours by toxic drugs that indiscriminately kill all cell types, resulting in side effects that limit treatment. In the 21st century new cancer drugs will more effectively destroy malignant tumour cells without damaging normal cells. The R and D herein will value-add to our discovery of a new class of potent and orally active anti-tumour drugs that possess unusually high selectivity in acting on cancer cells without killing normal human cells. Our current proof of concept will be turned into a drug development candidate that will improve our negotiating position with commercial partners.Read moreRead less