Antisense Oligonucleotide Induced Exon Skipping As A Treatment For Duchenne Muscular Dystrophy
Funder
National Health and Medical Research Council
Funding Amount
$363,055.00
Summary
Duchenne muscular dystrophy (DMD) is the most common severe muscle wasting disease that affects boys. A defect in the dystrophin gene (typically a frameshift or nonsense mutation) precludes the synthesis of any functional protein. Becker muscular dystrophy (BMD) is a milder condition that also arises from defects in the dystrophin gene but in these cases, the mutations are usually in-frame deletions that allow some functional protein to be synthesised. There have been significant limitations to ....Duchenne muscular dystrophy (DMD) is the most common severe muscle wasting disease that affects boys. A defect in the dystrophin gene (typically a frameshift or nonsense mutation) precludes the synthesis of any functional protein. Becker muscular dystrophy (BMD) is a milder condition that also arises from defects in the dystrophin gene but in these cases, the mutations are usually in-frame deletions that allow some functional protein to be synthesised. There have been significant limitations to dystrophin gene replacement therapies, due to the nature of the target (muscle fibres) and the size and complexity of the gene. This project will investigate an alternative genetic approach in cells expressing dystrophin (this gene is transcribed and processed differently in a variety cell types), whereby antisense oligonucleotides are used to redirect the processing of dystrophin pre-mRNA in the region of the DMD mutation. Although the DMD mutation would still be present at the gene level, the disease-causing mutation would be removed during the processing of the dystrophin pre-mRNA. Once a nonsense mutation has been removed or the reading frame restored from a DMD transcript, the resultant engineered dystrophin mRNA could be translated into a functional Becker-like protein.Read moreRead less
Gene Therapy For The Treatment Of Retinal Dystrophy In The RPE65 Knockout Mouse Using RAAV Virus Mediated Gene Therapy.
Funder
National Health and Medical Research Council
Funding Amount
$211,527.00
Summary
RPE65 is a gene that is found exclusively within the retina. At the moment the exact role of RPE65 is not known, however recent research has shown that mutations in the RPE65 gene have been found in a number of inherited retinal dystrophies (these dystrophies include Leber congenital amaurosis and autosomal recessive retinitis pigmentosa). It therefore appears that a functional, non-mutated RPE65 gene is essential for normal vision. A mouse model of RPE65-related retinal dystrophies has been rec ....RPE65 is a gene that is found exclusively within the retina. At the moment the exact role of RPE65 is not known, however recent research has shown that mutations in the RPE65 gene have been found in a number of inherited retinal dystrophies (these dystrophies include Leber congenital amaurosis and autosomal recessive retinitis pigmentosa). It therefore appears that a functional, non-mutated RPE65 gene is essential for normal vision. A mouse model of RPE65-related retinal dystrophies has been recently developed, by producing a RPE65 knockout mouse breed in which the mouse's RPE65 gene has been mutated into an inactive form. Research on these mice have shown that they develop retinal dystrophies very similar to those seen in patients with mutated RPE65 genes. We propose to use these RPE65 knockout mice to test potential methods for treating the RPE65-related retinal dystrophies in patients. In particular, we will study the potential of using gene therapy to treat these diseases. The project will involve delivering a new, functional RPE65 gene to the retinas of the RPE65 knockout mice. The new, functional RPE65 gene will then replace the inactive, mutated RPE65 gene within the mouse retinas, an action that we predict will be able to stop these mice developing retinal dystrophy. Performing such a study will allow us to improve our understanding of the RPE65-related retinal dystrophies, and provide an indication of whether they can be treated with gene therapy.Read moreRead less