Defect in gene causes 'Neuralgic Amyotrophy'
Many HNA patients have particular facial features, such as eyes that are somewhat closer together, a fold in the upper eyelid that covers the inside corner of the eye, and sometimes a cleft palate. HNA is a relatively rare disorder: the disease appears in some 200 families worldwide. There is also a non-hereditary form of HNA, called the Parsonage-Turner Syndrome. The clinical picture of this more frequently occurring form - 2 to 4 cases per 100,000 persons - is not distinguishable from that of the heritable form.
The attacks of pain are usually provoked by external factors such as vaccination, infection, operation, and even pregnancy or childbirth. By virtue of their genetic predisposition, carriers of the hereditary form of HNA run greater risk of having an attack. Its re-occurrence, and the fact that the disease is provoked by environmental factors, make this disorder unique in the group of peripheral nervous system disorders. Therefore, HNA is a genetic model for more frequently occurring disorders such as the Parsonage-Turner Syndrome and neurological disorders like Guillain-Barré Syndrome.
VIB researchers in Antwerp, under the direction of Vincent Timmerman and Peter De Jonghe, have discovered the genetic defect that underlies HNA. In this effort, the researchers, connected with the University of Antwerp, have been working with colleagues from the universities of Munster (Germany) and Seattle (USA).
The researchers studied several large families and identified the gene responsible for the disorder. They have now shown that HNA is linked to the long arm of chromosome 17, and they have found mutations or alterations in the genetic code of the Septin 9 protein in the patients being studied. HNA is the first mono-genetic disorder caused by a defect in a gene of the Septin family.
The researchers do not yet know exactly how Septin 9 functions in the peripheral nervous system or why mutations give rise to HNA. They do know that other members of the Septin family are involved in the cell division that forms the cytoskeleton and in the development of tumors. The fact that mutations in Septin 9 prevent cell division from occurring properly can perhaps explain why so many HNA patients also have facial abnormalities.
Today, no effective therapies yet exist to retard or prevent the progress of Neuralgic Amyotrophy. The current treatment is merely supportive. The findings of the researchers in Antwerp are a first essential step in the development of a specific treatment. Now that they know the gene involved, scientists can acquire more insight into the molecular processes of this disease, which may ultimately lead to a therapy.
Original publication: Kuhlenbäumer et al., Nature Genetics, 2005).
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