Reprogramming Macrophage Function In The Elderly To Rescue Impaired Inflammatory Responses To Muscle Injury
Funder
National Health and Medical Research Council
Funding Amount
$410,983.00
Summary
Muscle injury in the elderly often takes longer to heal than in younger people, however the cells responsible for this delayed healing are not well understood. Key inflammatory cells required for muscle repair in young hosts are macrophages. However, during aging we have shown that macrophage function is altered, but the mechanism is unknown. This project aims to determine the mechanisms behind age-related changes to macrophages and whether they can be targeted to improve elderly muscle repair.
Roles Of Vitamin D In Skeletal Muscle And Satellite Cells
Funder
National Health and Medical Research Council
Funding Amount
$380,891.00
Summary
Vitamin D deficiency leads to muscle pain and weakness that are reversible with vitamin D supplementation. However, precise biological effects of vitamin D in skeletal muscle are unclear. In this fellowship, novel mouse models and innovative techniques will be used to examine vitamin D signalling pathways in whole muscle and muscle stem cells. Ultimately, the therapeutic potential of the vitamin D pathway in treatment of muscle disorders and age-related muscle wasting will be explored.
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 Skeletal Muscle Plasticity And Slow Muscle Programming For Muscular Dystrophy
Funder
National Health and Medical Research Council
Funding Amount
$780,476.00
Summary
There is no cure for DMD, a devastating, life-limiting muscle disease causing progressive muscle wasting in boys and young men. A potential therapy may come from modulating muscle activity patterns to promote a protective slow muscle phenotype through low-frequency stimulation protocols and/or well-described pharmacological ‘exercise mimetics’. This proposal will evaluate their therapeutic merit in mouse models of DMD to answer the key questions to advance this approach to the clinic.
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.