An atypical intronic deletion widens the spectrum of mutations in hereditary spastic paraplegia

An atypical intronic deletion widens the spectrum of mutations in hereditary spastic paraplegia

J.J. Higgins, MD;, J.M. Loveless, MS;, S. Goswami, BS;, L.E. Nee, MSW;, C. Cozzo, BS;, A. De Biase, BS; and D.R. Rosen, PhD

From the Laboratory of Neurogenetics (Dr. Higgins, J.M. Loveless, and A. De Biase) and the Laboratory of Neuromuscular Genetics (Dr. Rosen, S. Goswami, and C. Cozzo), Wadsworth Center, New York State Department of Health, Albany; and the Clinical Neurogenetics Unit (Dr. Higgins) and the Family Studies Unit (L.E. Nee), National Institute of Neurological Disorders and Stroke, National Institutes of Health, Bethesda, MD.

Address correspondence and reprint requests to Dr. Joseph J. Higgins, Director, Center for Human Genetic Studies, Mid-Hudson Family Health Institute/Westchester Medical Center, 279 Main Street, Suite 202, New Paltz, NY 12561; e-mail: jhiggins{at}fpinstitute.org

Objective: To identify the genetic mutation responsible forautosomal dominant spastic paraplegia (HSP) in a large familywith a "pure" form of the disorder. Background: The diseaselocus in most families with HSP is genetically linked to theSPG4 locus on chromosome 2p21-p22. Some of these families havemutations in the splice-site or coding regions of the spastingene (SPAST). Methods: Linkage and mutational analyses wereused to identify the location and the nature of the geneticdefect causing the disorder in a large family. After the diseasephenotype was linked to the SPG4 locus, all 17 coding regionsand flanking intronic sequences of SPAST were analyzed by single-strandconformation polymorphism analysis (SSCP) and compared betweenaffected and normal individuals. Direct sequencing and subcloningmethods were used to investigate incongruous mobility shifts.Results:The genomic sequence of SPAST showed a heterozygousfour–base pair deletion (delTAAT) near the 3' splice-siteof exon three in all 11 affected individuals but not in 21 normalfamily members or in 50 unrelated controls (100 chromosomes).Conclusions: This study identifies an atypical intronic microdeletionin SPAST that causes HSP and widens the spectrum of geneticabnormalities that cause the disorder.

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