Gene Based Treatment Strategies For Diabetic Retinopathy
Funder
National Health and Medical Research Council
Funding Amount
$2,630,000.00
Summary
Diabetic retinopathy is the leading cause of blindness in the working population of developed countries and it is an increasing problem in the developing world. Present therapy involves extensive laser destruction of the light-detecting part of he retina. In addition, it is not only effective when administered at an appropriate stage in the disease process. Consequently, there is an urgent need for the development of better, prophylactic, easily administrable and cheaper therapies. This project ....Diabetic retinopathy is the leading cause of blindness in the working population of developed countries and it is an increasing problem in the developing world. Present therapy involves extensive laser destruction of the light-detecting part of he retina. In addition, it is not only effective when administered at an appropriate stage in the disease process. Consequently, there is an urgent need for the development of better, prophylactic, easily administrable and cheaper therapies. This project aims to develop a potentially permanent solution to alleviate diabetes-related blindness in the world. The project combines several very recent scientific advances into one strategy to combat diabetic retinopathy at a molecular level. Vision is our most important sensory organ that cannot be replaced. Thus, human trials can only be conducted following extensive animal safety and efficacy trials. To date the development of new therapies has been seriously hampered by the lack of appropriate, easy to reproduce animal models for different stages of diabetic retinopathy. In addition, it aims to identify new therapeutic agents from molecules that are naturally produced by the retina while fighting the disease. Finally, tested and evaluated in the animal models. The most successful therapeutic candidates will then be further developed for human trials.If successful, our approach will potentially have a major impact on the treatment of diabetic retinopathy and possibly on all diabetic vascular diseases. A single injection might only be necessary to prevent the development of diabetic retinopathy, which would represent a significant weapon in the management of patients. In addition, successful application of secretion gene therapy in the eye might open up the possibility to introduce the same concept for the treatment of larger organs undergoing microvascular changes as a result of diabetes.Read moreRead less
I am a molecular and cellular biologist with particular interest in understanding the regulation of DNA damage surveillance pathway and its role in the maintenance of genome stability.
As women age, the quality of their eggs decline and their chance of having a healthy baby plummets. The accumulation of DNA damage within the egg, and the reduced ability to repair this damage, may be one cause of compromised reproductive success in older women. This project will investigate the ability of eggs to repair DNA damage during maternal aging and will explore the importance of DNA repair to fertility and the transmission of high quality genetic material to their offspring.
Examining The Importance Of DNA Damage Repair For Oocyte Quality, Female Fertility And Offspring Health
Funder
National Health and Medical Research Council
Funding Amount
$318,768.00
Summary
As women age, the quality of their eggs decline and their chance of having a healthy baby plummets. The accumulation of DNA damage within the egg, and the reduced ability to repair this damage, may be one cause of compromised reproductive success in older women. This project will investigate the ability of eggs to repair DNA damage during maternal aging and will explore the importance of DNA repair to fertility and the transmission of high quality genetic material to their offspring.
Roadblocks To DNA Replication And Implications For Antimicrobial Resistance
Funder
National Health and Medical Research Council
Funding Amount
$1,050,000.00
Summary
Antimicrobial drugs have revolutionised modern medicine in their ability to specifically target microbial infections. However, overuse of these drugs is resulting in more and more infectious microbes becoming resistant to them. This program aims to use molecular imaging techniques to visualise how microbes respond to antimicrobials and how they evolve to become resistant. The outcomes of this program will enable the identification of drug targets and the development of diagnostics.
Application Of New Technologies And Methods In Nutrition Research – The Example Of Phenotypic Flexibility
Funder
National Health and Medical Research Council
Funding Amount
$210,823.00
Summary
The aim of the Nutritech project is to develop better diagnostics of the effect of foods and dietary supplements on the health of an individual. NutriTech will develop new analytical technologies to comprehensively investigate the diet-health interrelationship and critically assess their usefulness for the future of nutrition research. A new automated method for measuring the effect of diet on multiple measures of DNA damage and nutrients in single cells will be developed at CSIRO.
The Role Of Nuclear Architecture In The DNA Damage Response
Funder
National Health and Medical Research Council
Funding Amount
$561,966.00
Summary
The goal of the proposed research is to understand how dynamic changes to the chromatin genome packaging network, interact with the DNA damage response and gene expression machinery, to repair damaged DNA and the impact this has on cancer biology. To do so we are combining cutting edge molecular biology techniques with innovative novel microscopy methods developed by our research team, that far exceed the spatiotemporal resolution currently used to study chromatin biology.