Targeting A Novel Long Non-coding RNA That Is Dysregulated In Skeletal And Cardiac Muscle Disease
Funder
National Health and Medical Research Council
Funding Amount
$621,557.00
Summary
Recently, evidence suggests that cellular pathways that promote disease in skeletal and cardiac muscle, may be significantly influenced by a new class of molecules known as lncRNAs. Indeed a handful of studies have shown that therapies which target lncRNAs, can reduce disease severity. Thus, the identification of new lncRNAs that influence muscle health may present new therapeutic options to treat muscle diseases, where very few treatments currently exist. Here, we describe one such lncRNA.
Identification Of Novel Secretory Factors From The Heart As New Targets For Metabolic Disease
Funder
National Health and Medical Research Council
Funding Amount
$864,012.00
Summary
The incidence of obesity, type 2 diabetes and cardiovascular disease is rising at an alarming rate. The communication between the heart and distal tissues represents an exciting and emerging research area which has the potential to result in the identification of new targets and therapies. Here we will identify novel circulating proteins which could be developed as innovative therapies and ultimately translated into the clinic.
Phosphoinositide 3-kinase Signalling And Skeletal Muscle Mass.
Funder
National Health and Medical Research Council
Funding Amount
$597,598.00
Summary
Maintenance of skeletal muscle mass is essential for human health and locomotion. In ageing and cancer, loss of muscle mass leads to severe weakness and immobilization causing morbidity and mortality. This grant aims to characterise a novel gene that when deleted in mice leads to significant muscle damage. The molecular pathways within the cell that lead to the observed muscle damage will be investigated and this may provide insights into the pathways that control muscle damage and its regenerat ....Maintenance of skeletal muscle mass is essential for human health and locomotion. In ageing and cancer, loss of muscle mass leads to severe weakness and immobilization causing morbidity and mortality. This grant aims to characterise a novel gene that when deleted in mice leads to significant muscle damage. The molecular pathways within the cell that lead to the observed muscle damage will be investigated and this may provide insights into the pathways that control muscle damage and its regenerationRead moreRead less