By Sean Henahan, Access Excellence 

"The cloning of this gene is a long sought-after goal," says Zach W. Hall, Ph.D., Director of the National Institute of Neurological Disorders and Stroke. "Its discovery is a signal achievement which will help us  understand the pathological basis of dystonia and other movement disorders." 

Dystonias are disorders characterized by sustained, involuntary muscle contractions that can twist and contort parts of the body.  Early-onset dystonia, usually appearing before the age of 11, is the most common and severe hereditary form of the disorder, affecting about 50,000 people in North America. Patients with advanced dystonia may be confined to a wheel-chair or bedridden. The disease is more common lifelong condition is more common than the better known crippling diseases,  Huntington's disease and amyotrophic lateral sclerosis (ALS or Lou Gehrig's disease). The incdience is especially high among Ashkenazi Jews, those of Eastern European ancestry. 

"We look on dystonia as a 'stealth crippler'," says Xandra O. Breakefield, PhD, of the Massachusetts General Hospital Molecular Neurogenetics Unit, leader of the research team. "In  contrast to other movement disorders, like Parkinson's disease, there is no visible evidence of damage to the brain and no truly effective drug treatment. Only after identifying the responsible gene and then determining the function of its protein can we understand exactly how this disease produces its symptoms." 

Colllaborators across the US have been looking for the gene for 15 years. Important progress came in 1989 when the team localized the gene to chromosome 9 and named it DYT1. Now, they have sequenced the DYT1 gene and found that it codes for a previously unknown protein which the team named "torsinA." 

"The most exciting aspect to me is that we found it. We found the gene!" says Dr. Laurie J. Ozelius, Ph.D., "But, of course, this is just the first step, and we hope we can come up with some treatments for the patients." 

In addition to locating the gene, the researchers report that the same three-base mutation appears to be responsible for virtually all cases of early-onset dystonia  In other genetic diseases different mutations in the same gene are usually found in different families. 

"This situation, with only one mutation being associated with disease, is unique," Ozelius says. "It suggests that this specific area of the gene and of the protein it codes for must be crucial to its function, which is still unknown." 

Another interesting observation was that the DYT1 protein was similar in structure to the  heat-shock proteins and proteases. Heat-shock proteins and proteases help cells recover from stresses including heat, traumatic injury and chemical poisoning. This is the first time a human disease has been associated with these proteins. 

"This is quite exciting, because it may help us understand how stress situations bring on a variety of neurological diseases, including this one," says Breakefield. She explains that only 30 percent of those inheriting the DYT1 gene mutation actually develop dystonia and that vulnerability to the disease seems to disappear after age 28. "The disease needs a trigger ? perhaps an environmental stress,  infection or a change in another gene. If the mutated gene product is set off, there is no stopping it, but if the process does not start by 28, people with the mutation are virtually free from the risk of developing symptoms. We now have an important clue to help us find that trigger and, we hope, to stop it." 

The researchers also confirmed that the gene mutation was dominant -- requiring inheritance from only a single parent. This disproved the prevailing theory  that the disease was recessive and had to be inherited from both parents. 

The new discovrey should soon produce a simple, inexpensive blood test to confirm whether children with dystonia symptoms have this disorder rather than other diseases -- like cerebral palsy or early-onset Parkinson's disease -- that can appear similar. Future studies based on this discovery could lead to identification of triggers of the disease and possibly even preventive treatments. 

The research appears in the September 1997 issue of Nature Genetics.   

Related information on the Internet
Dystonia Foundation
Medelian Inheritance in Man
AE: Gene Therapy of Parkinson's
AE: Epilepsy Gene
AE: Ataxia Gene
AE: Genetic Counseling
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