Researchers develop new gene therapy for dominant optic atrophy: Study

Written By :  Dr. Kamal Kant Kohli
Published On 2020-11-27 12:43 GMT   |   Update On 2020-11-27 12:43 GMT

IMAGE: A FLUORESCENT MICROSCOPE IMAGE WITH MITOCHONDRIA HIGHLIGHTED IN GOLD. THIS HEALTHY CELL SHOWS A HIGHLY ELABORATE AND WELL-CONNECTED NETWORK OF MITOCHONDRIA. view more

CREDIT: PROFESSOR JANE FARRAR AND DR DANIEL MALONEY, TRINITY COLLEGE DUBLIN

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A new gene therapy has been developed by researchers from Trinity College that offers promise for one day treating Dominant optic atrophy.It is an eye disease that leads to a progressive loss of vision and affects thousands of people across the globe.

The study also has implications for a much wider suite of neurological disorders associated with ageing.

The results of research have been today in journal Frontiers in Neuroscience.

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Characterised by degeneration of the optic nerves, DOA typically starts to cause symptoms in patients in their early adult years. These include moderate vision loss and some colour vision defects, but severity varies, symptoms can worsen over time and some people may become blind. There is currently no way to prevent or cure DOA.

A gene (OPA1) provides instructions for making a protein that is found in cells and tissues throughout the body, and which is pivotal for maintaining proper function in mitochondria, which are the energy producers in cells.

Without the protein made by OPA1, mitochondrial function is sub-optimal and the mitochondrial network which in healthy cells is well interconnected is highly disrupted.

For those living with DOA, it is mutations in OPA1 and the dysfunctional mitochondria that are responsible for the onset and progression of the disorder.

The scientists, led by Dr Daniel Maloney and Professor Jane Farrar from Trinity's School of Genetics and Microbiology, have developed a new gene therapy, which successfully protected the visual function of mice who were treated with a chemical targeting the mitochondria and were consequently living with dysfunctional mitochondria.

The scientists also found that their gene therapy improved mitochondrial performance in human cells that contained mutations in the OPA1 gene, offering hope that it may be effective in people.

Dr Maloney, Research Fellow, said:"We used a clever lab technique that allows scientists to provide a specific gene to cells that need it using specially engineered non-harmful viruses. This allowed us to directly alter the functioning of the mitochondria in the cells we treated, boosting their ability to produce energy which in turn helps protects them from cell damage.

"Excitingly, our results demonstrate that this OPA1-based gene therapy can potentially provide benefit for diseases like DOA, which are due to OPA1 mutations, and also possibly for a wider array of diseases involving mitochondrial dysfunction."

Importantly, mitochondrial dysfunction causes problems in a suite of other neurological disorders such as Alzheimer's and Parkinson's disease. The impacts gradually build up over time, which is why many may associate such disorders with ageing.

Professor Farrar, Research Professor, added:"We are very excited by the prospect of this new gene therapy strategy, although it is important to highlight that there is still a long journey to complete from a research and development perspective before this therapeutic approach may one day be available as a treatment.

"OPA1 mutations are involved in DOA and so this OPA1-based therapeutic approach is relevant to DOA. However mitochondrial dysfunction is implicated in many neurological disorders that collectively affect millions of people worldwide. We think there is great potential for this type of therapeutic strategy targeting mitochondrial dysfunction to provide benefit and thereby make a major societal impact. Having worked together with patients over many years who live with visual and neurological disorders it would be a privilege to play a role in a treatment that may one day help many."

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Article Source : Frontiers in Neuroscience

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