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Literature DB >> 27567911

Homozygous KCNMA1 mutation as a cause of cerebellar atrophy, developmental delay and seizures.

Brahim Tabarki¹, Nabil AlMajhad², Amal AlHashem³, Ranad Shaheen⁴, Fowzan S Alkuraya^4,5.

Abstract

Dominant gain-of-function mutations of the KCNMA1 gene, encoding the pore-forming subunit of the large conductance voltage- and Ca2+-activated K+ channel, have been described in a few patients with the syndrome of epilepsy, paroxysmal dyskinesias and developmental delay. In this report, we describe the loss-of-function phenotype of this newly described disease gene. In two siblings from a consanguineous family with epilepsy, developmental delay and severe cerebellar atrophy, combined exome/autozygome analysis identified a homozygous frameshift duplication in KCNMA1 (c.2026dupT; p. (Tyr676 Leufs*7)) in both children. Our report defines a novel autosomal recessive KCNMA1-related epileptic phenotype that encompasses cerebellar atrophy without paroxysmal dyskinesia, and highlights the sensitivity of the developing brain to both increased and decreased activity of the KCNMA1-encoded channels.

Entities: Disease Gene Mutation Species

Mesh：

Substances：

Year: 2016 PMID： 27567911 DOI： 10.1007/s00439-016-1726-y

Source DB: PubMed Journal: Hum Genet ISSN： 0340-6717 Impact factor: 4.132

11 in total

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Journal: J Comp Neurol Date: 2006-05-20 Impact factor: 3.215

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21 in total

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Journal: Proc Natl Acad Sci U S A Date: 2020-03-04 Impact factor: 11.205

2. De novo loss-of-function KCNMA1 variants are associated with a new multiple malformation syndrome and a broad spectrum of developmental and neurological phenotypes.

Authors: Lina Liang; Xia Li; Sébastien Moutton; Samantha A Schrier Vergano; Benjamin Cogné; Anne Saint-Martin; Anna C E Hurst; Yushuang Hu; Olaf Bodamer; Julien Thevenon; Christina Y Hung; Bertrand Isidor; Bénédicte Gerard; Adelaide Rega; Sophie Nambot; Daphné Lehalle; Yannis Duffourd; Christel Thauvin-Robinet; Laurence Faivre; Stéphane Bézieau; Leon S Dure; Daniel C Helbling; David Bick; Chengqi Xu; Qiuyun Chen; Grazia M S Mancini; Antonio Vitobello; Qing Kenneth Wang
Journal: Hum Mol Genet Date: 2019-09-01 Impact factor: 6.150

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Review 4. Ion Channels of the Islets in Type 2 Diabetes.

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Review 5. Paroxysmal Movement Disorders: Recent Advances.

Authors: Zheyu Xu; Che-Kang Lim; Louis C S Tan; Eng-King Tan
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6. BK channel properties correlate with neurobehavioral severity in three KCNMA1-linked channelopathy mouse models.

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7. A Gain-of-Function Mutation in KCNMA1 Causes Dystonia Spells Controlled With Stimulant Therapy.

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8. Biallelic variants in TSPOAP1, encoding the active-zone protein RIMBP1, cause autosomal recessive dystonia.

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Review 9. Paroxysmal Movement Disorders.

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10. An emerging spectrum of variants and clinical features in KCNMA1-linked channelopathy.

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