Inherited Muscle Disorders - Gene Discovery, Pathobiology And Therapy.
Funder
National Health and Medical Research Council
Funding Amount
$1,750,277.00
Summary
The project proposed by Professors Nigel Laing and Kathryn North and Dr Kristen Nowak is based upon the results of their successful identification of disease genes for genetic muscle diseases. The project is divided into three parts. In the first part of the project, the research team will identify further novel disease genes, some of which they are already close to finding. In the second part of the project the team will determine how the mutations they have identified in the disease genes actu ....The project proposed by Professors Nigel Laing and Kathryn North and Dr Kristen Nowak is based upon the results of their successful identification of disease genes for genetic muscle diseases. The project is divided into three parts. In the first part of the project, the research team will identify further novel disease genes, some of which they are already close to finding. In the second part of the project the team will determine how the mutations they have identified in the disease genes actually cause the diseases. The aim of this work is to discover targets that may ultimately lead to new therapies for these muscle diseases. In the third and final part of the project, the team will pursue one possible therapeutic approach, which is based upon the understanding of the diseases the researchers have gained from their previous studies. There are currently no cures for these muscle diseases, though symptoms can be treated. The team will determine whether heart actin can replace muscle actin in skeletal muscle and thus might treat the muscle disease.Read moreRead less
Prevalence And Characterisation Of FMR1 Gene's Premutation Carriers Amongst Older Males Presenting With Tremor/ataxia
Funder
National Health and Medical Research Council
Funding Amount
$199,450.00
Summary
The study concerns a novel form of progressive neurological disorder associated with tremor and body imbalance occurring in older males and caused by a small expansion of the trinucleotide (CGG) repeat in a fragile X (FMR1) gene. This expansion is termed 'premutation', in contrast with the full mutation, where a large expansion of the CGG repeat in this gene causes Fragile X Syndrome, a common form of intellectual disability. While brain anomaly in the full mutation is caused by a deficit of the ....The study concerns a novel form of progressive neurological disorder associated with tremor and body imbalance occurring in older males and caused by a small expansion of the trinucleotide (CGG) repeat in a fragile X (FMR1) gene. This expansion is termed 'premutation', in contrast with the full mutation, where a large expansion of the CGG repeat in this gene causes Fragile X Syndrome, a common form of intellectual disability. While brain anomaly in the full mutation is caused by a deficit of the FMR1 specific protein product (FMRP), the pathways from premutation to a neurological disorder are unknown. In this disorder, neurological dysfunction is associated with brain atrophy visible in magnetic resonance (MRI) images. Molecular studies showed increased levels of 'messenger' RNA (mRNA), which indicates overexpression of FMR1 gene . Our own study showed significantly increased (41.7%) prevalence of neurological involvement in male premutation carriers aged >50, compared with age-matched norms. Moreover, a screening of patients with two neurological disorders associated with tremor showed a significant increase of premutation carriers (5%- 22%). The aim of this study is to test hypotheses about the association of late-onset neurological disorders of unknown cause presenting tremor and imbalance, with a fragile X premutation in males, by screening for the presence of this premutation; and then conducting a full assessment of the identified premutation carriers, including detailed neurological, neuropsychological and MRI tests, to establish the spectrum of neurological involvement. This involvement will be correlated with the molecular (DNA, mRNA, FMRP) findings. The results will contribute to understanding the mechanisms of neurological involvement caused by this premutation. Moreover, estimation of the prevalence of this premutation in relevant neurological disorders will impact on standard diagnostic, and possibly future treatment approaches in neurology clinics.Read moreRead less
I am a biochemical geneticist working on the genetics and pathogenesis of mitochondrial energy generation disorders. I have a particular focus on the severe mitochondrial diseases of childhood but am also studying mitochondrial involvement in common disor