Mutations in rare ataxia genes are uncommon causes of sporadic cerebellar ataxia

Brent L. Fogel; Ji Yong Lee; Jessica Lane; Amanda Wahnich; Sandy Chan; Alden Huang; Greg E. Osborn; Eric Klein; Catherine Mamah; Susan Perlman; Daniel H. Geschwind; Giovanni Coppola

doi:10.1002/mds.24064

Mutations in rare ataxia genes are uncommon causes of sporadic cerebellar ataxia

Brent L. Fogel
, Ji Yong Lee
, Jessica Lane
, Amanda Wahnich
, Sandy Chan
, Alden Huang
, Greg E. Osborn
, Eric Klein
, Catherine Mamah
, Susan Perlman
, Daniel H. Geschwind
, Giovanni Coppola

Research output: Contribution to journal › Article › peer-review

27 Scopus citations

Abstract

Background: Sporadic-onset ataxia is common in a tertiary care setting but a significant percentage remains unidentified despite extensive evaluation. Rare genetic ataxias, reported only in specific populations or families, may contribute to a percentage of sporadic ataxia. Methods: Patients with adult-onset sporadic ataxia, who tested negative for common genetic ataxias (SCA1, SCA2, SCA3, SCA6, SCA7, and/or Friedreich ataxia), were evaluated using a stratified screening approach for variants in 7 rare ataxia genes. Results: We screened patients for published mutations in SYNE1 (n = 80) and TGM6 (n = 118), copy number variations in LMNB1 (n = 40) and SETX (n = 11), sequence variants in SACS (n = 39) and PDYN (n = 119), and the pentanucleotide insertion of spinocerebellar ataxia type 31 (n = 101). Overall, we identified 1 patient with a LMNB1 duplication, 1 patient with a PDYN variant, and 1 compound SACS heterozygote, including a novel variant. Conclusions: The rare genetic ataxias examined here do not significantly contribute to sporadic cerebellar ataxia in our tertiary care population.

Original language	English
Pages (from-to)	442-446
Number of pages	5
Journal	Movement Disorders
Volume	27
Issue number	3
DOIs	https://doi.org/10.1002/mds.24064
State	Published - Mar 2012
Externally published	Yes

Keywords

Cerebellar ataxia
Copy number variation
Dominant genetic conditions
Recessive genetic conditions
Spinocerebellar ataxia

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10.1002/mds.24064

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title = "Mutations in rare ataxia genes are uncommon causes of sporadic cerebellar ataxia",

abstract = "Background: Sporadic-onset ataxia is common in a tertiary care setting but a significant percentage remains unidentified despite extensive evaluation. Rare genetic ataxias, reported only in specific populations or families, may contribute to a percentage of sporadic ataxia. Methods: Patients with adult-onset sporadic ataxia, who tested negative for common genetic ataxias (SCA1, SCA2, SCA3, SCA6, SCA7, and/or Friedreich ataxia), were evaluated using a stratified screening approach for variants in 7 rare ataxia genes. Results: We screened patients for published mutations in SYNE1 (n = 80) and TGM6 (n = 118), copy number variations in LMNB1 (n = 40) and SETX (n = 11), sequence variants in SACS (n = 39) and PDYN (n = 119), and the pentanucleotide insertion of spinocerebellar ataxia type 31 (n = 101). Overall, we identified 1 patient with a LMNB1 duplication, 1 patient with a PDYN variant, and 1 compound SACS heterozygote, including a novel variant. Conclusions: The rare genetic ataxias examined here do not significantly contribute to sporadic cerebellar ataxia in our tertiary care population.",

keywords = "Cerebellar ataxia, Copy number variation, Dominant genetic conditions, Recessive genetic conditions, Spinocerebellar ataxia",

author = "Fogel, \{Brent L.\} and Lee, \{Ji Yong\} and Jessica Lane and Amanda Wahnich and Sandy Chan and Alden Huang and Osborn, \{Greg E.\} and Eric Klein and Catherine Mamah and Susan Perlman and Geschwind, \{Daniel H.\} and Giovanni Coppola",

year = "2012",

month = mar,

doi = "10.1002/mds.24064",

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AU - Fogel, Brent L.

AU - Lee, Ji Yong

AU - Lane, Jessica

AU - Wahnich, Amanda

AU - Chan, Sandy

AU - Huang, Alden

AU - Osborn, Greg E.

AU - Klein, Eric

AU - Mamah, Catherine

AU - Perlman, Susan

AU - Geschwind, Daniel H.

AU - Coppola, Giovanni

PY - 2012/3

Y1 - 2012/3

N2 - Background: Sporadic-onset ataxia is common in a tertiary care setting but a significant percentage remains unidentified despite extensive evaluation. Rare genetic ataxias, reported only in specific populations or families, may contribute to a percentage of sporadic ataxia. Methods: Patients with adult-onset sporadic ataxia, who tested negative for common genetic ataxias (SCA1, SCA2, SCA3, SCA6, SCA7, and/or Friedreich ataxia), were evaluated using a stratified screening approach for variants in 7 rare ataxia genes. Results: We screened patients for published mutations in SYNE1 (n = 80) and TGM6 (n = 118), copy number variations in LMNB1 (n = 40) and SETX (n = 11), sequence variants in SACS (n = 39) and PDYN (n = 119), and the pentanucleotide insertion of spinocerebellar ataxia type 31 (n = 101). Overall, we identified 1 patient with a LMNB1 duplication, 1 patient with a PDYN variant, and 1 compound SACS heterozygote, including a novel variant. Conclusions: The rare genetic ataxias examined here do not significantly contribute to sporadic cerebellar ataxia in our tertiary care population.

AB - Background: Sporadic-onset ataxia is common in a tertiary care setting but a significant percentage remains unidentified despite extensive evaluation. Rare genetic ataxias, reported only in specific populations or families, may contribute to a percentage of sporadic ataxia. Methods: Patients with adult-onset sporadic ataxia, who tested negative for common genetic ataxias (SCA1, SCA2, SCA3, SCA6, SCA7, and/or Friedreich ataxia), were evaluated using a stratified screening approach for variants in 7 rare ataxia genes. Results: We screened patients for published mutations in SYNE1 (n = 80) and TGM6 (n = 118), copy number variations in LMNB1 (n = 40) and SETX (n = 11), sequence variants in SACS (n = 39) and PDYN (n = 119), and the pentanucleotide insertion of spinocerebellar ataxia type 31 (n = 101). Overall, we identified 1 patient with a LMNB1 duplication, 1 patient with a PDYN variant, and 1 compound SACS heterozygote, including a novel variant. Conclusions: The rare genetic ataxias examined here do not significantly contribute to sporadic cerebellar ataxia in our tertiary care population.

KW - Cerebellar ataxia

KW - Copy number variation

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KW - Recessive genetic conditions

KW - Spinocerebellar ataxia

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Mutations in rare ataxia genes are uncommon causes of sporadic cerebellar ataxia

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Keywords

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