We have discovered a single tumour factor which causes cancer cachexia, a wasting condition that is one of the worst complications of malignancy, for which there is no current effective treatment. We have developed antibodies which effectively block this condition in preclinical models and have produced human/humanised version of this. This application is to characterise these human antibodies to allow us proceed to clinical trials.
Can Exercise Early After Spinal Cord Injury Prevent Deterioration Of Muscle And Bone?
Funder
National Health and Medical Research Council
Funding Amount
$775,049.00
Summary
Spinal cord injury leads to a profound deterioration of the muscles and bones in the paralysed limbs. This project will examine the effects of exercising the paralysed limbs as early as possible after injury to prevent muscle and bone loss rather than restoring the tissues once changes have occurred. The time course and mechanisms underlying the microstructural decay of bone over the first year after injury will also be examined to provide a basis for determining fracture risk in this group.
Disease Gene Discovery And Improved Genetic Diagnosis In Neuromuscular Disorders
Funder
National Health and Medical Research Council
Funding Amount
$473,321.00
Summary
Paediatric nerve and muscle disorders result in weakness, chronic disability and often early death. Over half of all affected children do not yet have a genetic diagnosis. This project will use advanced sequencing technology to increase genetic diagnosis rates and identify new disease-causing genes. This will result in improved patient care and a better understanding of the biological pathways altered by these disorders. It will also facilitate the identification of targets for future therapies.
Advancing Glycine To The Clinic For Duchenne Muscular Dystrophy
Funder
National Health and Medical Research Council
Funding Amount
$248,978.00
Summary
We have identified the therapeutic potential of the amino acid glycine for Duchenne muscular dystrophy (DMD), the most common and severe of the muscular dystrophies. To facilitate rapid translation to the clinic, this proposal will; 1) examine the effect of glycine on lifespan and quality of life in mouse models of DMD; 2) determine glycine’s mode of action; and 3) investigate whether these effects represent further benefits to those currently used gold standard treatments.
Cancer cachexia is a devastating disease characterised by muscle wasting, weakness and fatigue. It impairs patient quality of life and accounts for >20% of cancer-related deaths. This project will identify factors responsible for cancer cachexia and develop new strategies to alleviate wasting and weakness in cancer patients, to improve their quality of life and reduce mortality.
Genetic Determinants Of Inherited Optic Neuropathies
Funder
National Health and Medical Research Council
Funding Amount
$249,750.00
Summary
Glaucoma is a slowly progressive visual disorder of the optic nerves often but not always associated with elevated pressure in the eyes. There is a strong genetic component. It is estimated to affect in excess of 60 million people worldwide with more than 6 million of those blind in both eyes. It is the second commonest cause of visual impairment in the developed world, and is present in up to 10% of the population by age 90. Numbers of affected patients in Australia are expected to double in th ....Glaucoma is a slowly progressive visual disorder of the optic nerves often but not always associated with elevated pressure in the eyes. There is a strong genetic component. It is estimated to affect in excess of 60 million people worldwide with more than 6 million of those blind in both eyes. It is the second commonest cause of visual impairment in the developed world, and is present in up to 10% of the population by age 90. Numbers of affected patients in Australia are expected to double in the next 30 years. Current methods of early detection and treatment are often inadequate, and associated visual loss is irreversible. There is a strong need for greater understanding of the disease process and new strategies to prevent and treat visual loss. Two less common causes of untreatable optic nerve blindness are Leber Hereditary Optic Neuropathy (LHON) and autosomal dominant optic atrophy (ADOA) which occur in younger age groups than most cases of glaucoma, and hence sufferers may experience substantial physical, emotional and economic hardship. Over a 10 year period we have seen large numbers of patients with all three eye conditions and have developed a powerful study to determine the genes which cause optic nerve blindness and their relative importance. The research is gathering momentum and the genetics of all 3 conditions are now partly understood. This project seeks to analyse a new major glaucoma gene (Optineurin) in our Australian population and to try to understand the way in which a number of genes interact to cause blindness in some patients but not others. This work will lead to greater understanding of these causes of blindness and is likely to lead to new screening tests to know who is at most risk, and the opportunity to develop and test new treatments targeted to the underlying genetic problem.Read moreRead less
Modelling Leber’s Hereditary Optic Neuropathy Using Human Induced Pluripotent Stem Cells
Funder
National Health and Medical Research Council
Funding Amount
$628,416.00
Summary
Leber’s Hereditary Optic Neuropathy (LHON) is a blinding disease that affects young males and is caused by the death of cells in the optic nerve. To better understand LHON, this project utilises induced pluripotent stem (iPS) cells for disease modelling. iPS cells will be generated from patients and turned into optic nerve cells, allowing us to study the diseased cells in the laboratory, providing a platform to screen for novel drugs to improve treatment options and fast-track drug development.
Therapeutic Potential Of Modulating Heat Shock Protein Expression For Muscle Wasting Disorder
Funder
National Health and Medical Research Council
Funding Amount
$1,172,146.00
Summary
Heat shock proteins help stressed proteins fold back to their original conformation and restore function. In a discovery published in Nature we identified induction of heat shock protein 72 (Hsp72) as a novel approach for muscular dystrophy and other conditions where there is inflammation and muscle weakness. This proposal will investigate whether Hsp72 induction is similarly effective in tackling the muscle wasting and weakness in conditions like ageing and frailty and in muscle injury.