BACKGROUND: Mutations in the SPG3A gene (atlastin protein) cause approximately 10% of autosomal-dominant hereditary spastic paraplegia. For many subjects with an SPG3A mutation, spastic gait begins in early childhood and does not significantly worsen even over many years. Such subjects resemble those with spastic diplegic cerebral palsy. To date, only 9 SPG3A mutations have been reported. OBJECTIVE: To analyze the SPG3A coding sequence in an individual with childhood-onset spastic gait, who, prior to the birth of her similarly affected child, had no previous family history of hereditary spastic paraplegia. METHODS: The SPG3A coding sequence was analyzed in DNA samples from the proband, her affected child, her unaffected parents, and control subjects by polymerase-chain-reaction amplification of each exon followed by direct DNA sequencing. Seventeen microsatellite polymorphisms were amplified and analyzed to confirm reported paternity. RESULTS: We identified a novel SPG3A mutation (L157W) in the proband and her affected child. This mutation was absent in the proband's unaffected parents. Results of microsatellite polymorphism analysis were consistent with paternity as reported. These results indicate that this novel SPG3A mutation arose de novo in the proband. CONCLUSIONS: We report the de novo occurrence of a novel SPG3A mutation in a subject with childhood-onset, nonprogressive, spastic diplegia who had no previous family history of hereditary spastic paraplegia until the birth of her similarly affected son. Although rare, the occurrence of a de novo hereditary spastic paraplegia gene mutation must be considered in subjects with spastic diplegic cerebral palsy for whom no other cause is identified. This is extremely important for correct genetic counseling because recurrence risk may be as high as 50% when a mutation is detected.
BACKGROUND: Mutations in the SPG3A gene (atlastin protein) cause approximately 10% of autosomal-dominant hereditary spastic paraplegia. For many subjects with an SPG3A mutation, spastic gait begins in early childhood and does not significantly worsen even over many years. Such subjects resemble those with spastic diplegic cerebral palsy. To date, only 9 SPG3A mutations have been reported. OBJECTIVE: To analyze the SPG3A coding sequence in an individual with childhood-onset spastic gait, who, prior to the birth of her similarly affected child, had no previous family history of hereditary spastic paraplegia. METHODS: The SPG3A coding sequence was analyzed in DNA samples from the proband, her affected child, her unaffected parents, and control subjects by polymerase-chain-reaction amplification of each exon followed by direct DNA sequencing. Seventeen microsatellite polymorphisms were amplified and analyzed to confirm reported paternity. RESULTS: We identified a novel SPG3A mutation (L157W) in the proband and her affected child. This mutation was absent in the proband's unaffected parents. Results of microsatellite polymorphism analysis were consistent with paternity as reported. These results indicate that this novel SPG3A mutation arose de novo in the proband. CONCLUSIONS: We report the de novo occurrence of a novel SPG3A mutation in a subject with childhood-onset, nonprogressive, spastic diplegia who had no previous family history of hereditary spastic paraplegia until the birth of her similarly affected son. Although rare, the occurrence of a de novo hereditary spastic paraplegia gene mutation must be considered in subjects with spastic diplegic cerebral palsy for whom no other cause is identified. This is extremely important for correct genetic counseling because recurrence risk may be as high as 50% when a mutation is detected.
Authors: Clement Y Chow; John E Landers; Sarah K Bergren; Peter C Sapp; Adrienne E Grant; Julie M Jones; Lesley Everett; Guy M Lenk; Diane M McKenna-Yasek; Lois S Weisman; Denise Figlewicz; Robert H Brown; Miriam H Meisler Journal: Am J Hum Genet Date: 2009-01 Impact factor: 11.025
Authors: Andrés Moreno-De-Luca; Francisca Millan; Denis R Pesacreta; Houda Z Elloumi; Matthew T Oetjens; Claire Teigen; Karen E Wain; Julie Scuffins; Scott M Myers; Rebecca I Torene; Vladimir G Gainullin; Kevin Arvai; H Lester Kirchner; David H Ledbetter; Kyle Retterer; Christa L Martin Journal: JAMA Date: 2021-02-02 Impact factor: 56.272
Authors: Carlos G Vanoye; Christina A Gurnett; Katherine D Holland; Alfred L George; Jennifer A Kearney Journal: Neurobiol Dis Date: 2013-10-21 Impact factor: 5.996
Authors: Clement Y Chow; Yanling Zhang; James J Dowling; Natsuko Jin; Maja Adamska; Kensuke Shiga; Kinga Szigeti; Michael E Shy; Jun Li; Xuebao Zhang; James R Lupski; Lois S Weisman; Miriam H Meisler Journal: Nature Date: 2007-06-17 Impact factor: 49.962