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Spasticity gene finding provides clues to causes of nerve cell degeneration

10 January 2012

The discovery of a gene that causes a form of hereditary spastic paraplegia may provide scientists with an important insight into what causes axons, the stems of our nerve cells, to degenerate in conditions such as multiple sclerosis.

In the 'Journal of Clinical Investigation' today, an international team of scientists led by Dr Evan Reid at the University of Cambridge and Dr Stephan Zuchner from the University of Miami reports that mutations in the gene known as reticulon 2 on chromosome 19 cause a form of hereditary spastic paraplegia (HSP). HSP is characterised by progressive stiffness and contraction (spasticity) of the legs, caused by selective and specific degeneration of axons.

The team identified three mutations in the reticulon 2 gene as causing a type of HSP - in one case, this mutation included an entire deletion of the gene. In addition, the researchers showed that reticulon 2 interacts with another gene, spastin. Mutations in this gene cause the most common form of hereditary spastic paraplegia.

Reticulon 2 provides the genetic code for a reticulon protein that is a member of a family of proteins recently shown to have a key role in shaping the endoplasmic reticulum. The endoplasmic reticulum is a network of interconnected sheets and tubules that extends throughout the cytoplasm in nearly all cells.

The endoplasmic reticulum has several functions, including protein synthesis, calcium signalling and the regulation of other components of the cell. Recent data suggest the sheets are involved in protein synthesis, whereas the tubules are specialised to carry out the other functions.

This new study provides the most direct evidence to date that defects in how the endoplasmic reticulum is shaped and formed could underlie axon degeneration. When axons degenerate, signals are unable to pass through the nerve cells, leading to a breakdown of communication within the central nervous system. This is common in degenerative diseases of the nervous system, such as multiple sclerosis.

"Our work highlights important new disease mechanisms, which may provide a platform for us to study how axons are damaged in devastating illnesses such as HSP, and perhaps even in multiple sclerosis, which in some cases is very similar to HSP," explains Dr Reid, a Wellcome Trust Senior Research Fellow in Clinical Science. "But we must not forget how this work may immediately directly benefit families affected by HSP, for whom the discovery now opens up the possibility of genetic counselling and testing."

Image: A transmission electron micrograph showing a mitochondrion, part of a nucleus and rough endoplasmic reticulum. Credit: Mike Kayser, Wellcome Images.

Contact

Craig Brierley
Senior Media Officer
Wellcome Trust
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+44 (0)20 7611 7329
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c.brierley@wellcome.ac.uk

Notes for editors

Reference
Montenegro G et al. Mutations in the ER-shaping protein reticulon 2 cause the axon-degenerative disorder hereditary spastic paraplegia type 12. J Clin Invest 2012 (epub ahead of print).

This research was supported by the National Institutes of Health, the Hereditary Spastic Paraplegia Foundation, the Wellcome Trust, the Comitato Telethon Fondazione Onlus, the Italian Ministero dell'Istruzione, dell'Università e della Ricerca, the Università di Roma "Tor Vergata" and the European Union.

About the Wellcome Trust
The Wellcome Trust is a global charitable foundation dedicated to achieving extraordinary improvements in human and animal health. It supports the brightest minds in biomedical research and the medical humanities. The Trust's breadth of support includes public engagement, education and the application of research to improve health. It is independent of both political and commercial interests.

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