Rescuing The Dystrophin-glycoprotein Complex To Protect Muscles From Wasting Conditions
Funder
National Health and Medical Research Council
Funding Amount
$833,340.00
Summary
Existing medical strategies to counteract severe muscle wasting disorders are compromised because of dysfunctional signalling around a cluster of proteins called the dystrophin-glycoprotein complex (DGC) located at the muscle membrane. To address this significant unmet medical need, this proposal investigates novel approaches to retain or restore DGC integrity at the muscle membrane with the goals of preserving and protecting muscles during serious wasting conditions.
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.
Establishing STARS As A Therapeutic Target To Reduce Muscle Wasting And Improve Muscle Function
Funder
National Health and Medical Research Council
Funding Amount
$446,189.00
Summary
Muscle wasting occurs rapidly with disuse after injuries occurring at work, during sport, with chronic disease and in road accidents. It is also a consequence of ageing. Muscle wasting and reduced muscle function places considerable financial strain on our health care system. We aim to use gene therapy and pharmacological interventions to increase the levels of a protein called STARS. We hypothesize that STARS will reduce disuse-induced muscle wasting, increase recovery and improve function.
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.
A COMMUNITY BASED STRENGTH TRAINING PROGRAM TO IMPROVE WORK TASK PERFORMANCE IN YOUNG ADULTS WITH DOWN SYNDROME
Funder
National Health and Medical Research Council
Funding Amount
$180,649.00
Summary
This study will compare the outcomes of a 10 week twice a week community-based weight training program for young adults with Down syndrome with an art program. It will establish if a student-led exercise program can improve their performance of work tasks and their activity levels. Should the program prove beneficial, we aim to achieve the long-term outcome of exercise being implemented as a sustainable, inclusive recreation option for this group.
Physiological And Pathological Effects Of Oxidation On Contractile Function In Skeletal Muscle
Funder
National Health and Medical Research Council
Funding Amount
$613,311.00
Summary
Reactive oxygen molecules generated within muscle fibres in normal exercise and in pathological conditions, greatly affect muscle function by altering the responsiveness of the contractile proteins. This study investigates how various oxidative stresses affect particular reactive sites on key proteins controlling muscle contraction. The findings should identify key molecular changes involved in normal activity and the role oxidation plays in chronic muscle weakness in particular conditions.
Excitation-contraction Coupling In Skeletal Muscle In Health, Exercise And Disease
Funder
National Health and Medical Research Council
Funding Amount
$623,621.00
Summary
Skeletal muscle dysfunction occurs in certain diseases, aging and exercise, and can deleteriously affect lifestyle and mobility. This project investigates the molecular mechanisms involved in the complex sequence of events that occur in each individual muscle fibre, starting from stimulation by a nerve through to the fibre contracting. This should give information about causes of skeletal muscle dysfunction in myotonia, heart failure and other situations, and help development of therapies.