Missense mutations in ITPR1 cause autosomal dominant congenital nonprogressive spinocerebellar ataxia

Huang, Lijia; Chardon, Jodi Warman; Boycott, Kym M; Carter, Melissa T.; Friend, Kathie L; Dudding, Tracy E.; Schwartzentruber, Jeremy; Zou, Roubing; Schofield, Peter W.; Douglas, Stuart; Bulman, Dennis E

Title: Missense mutations in ITPR1 cause autosomal dominant congenital nonprogressive spinocerebellar ataxia
Creator: Huang, Lijia; Chardon, Jodi Warman; Boycott, Kym M; Carter, Melissa T.; Friend, Kathie L; Dudding, Tracy E.; Schwartzentruber, Jeremy; Zou, Roubing; Schofield, Peter W.; Douglas, Stuart; Bulman, Dennis E
Relation: Orphanet Journal of Rare Diseases Vol. 7, Issue 1
Publisher Link: http://dx.doi.org/10.1186/1750-1172-7-67
Publisher: BioMed Central
Resource Type: journal article
Date: 2012
Description: Background: Congenital nonprogressive spinocerebellar ataxia is characterized by early gross motor delay, hypotonia, gait ataxia, mild dysarthria and dysmetria. The clinical presentation remains fairly stable and may be associated with cerebellar atrophy. To date, only a few families with autosomal dominant congenital nonprogressive spinocerebellar ataxia have been reported. Linkage to 3pter was demonstrated in one large Australian family and this locus was designated spinocerebellar ataxia type 29. The objective of this study is to describe an unreported Canadian family with autosomal dominant congenital nonprogressive spinocerebellar ataxia and to identify the underlying genetic causes in this family and the original Australian family. Methods and Results: Exome sequencing was performed for the Australian family, resulting in the identification of a heterozygous mutation in the ITPR1 gene. For the Canadian family, genotyping with microsatellite markers and Sanger sequencing of ITPR1 gene were performed; a heterozygous missense mutation in ITPR1 was identified. Conclusions: ITPR1 encodes inositol 1,4,5-trisphosphate receptor, type 1, a ligand-gated ion channel that mediates calcium release from the endoplasmic reticulum. Deletions of ITPR1 are known to cause spinocerebellar ataxia type 15, a distinct and very slowly progressive form of cerebellar ataxia with onset in adulthood. Our study demonstrates for the first time that, in addition to spinocerebellar ataxia type 15, alteration of ITPR1 function can cause a distinct congenital nonprogressive ataxia; highlighting important clinical heterogeneity associated with the ITPR1 gene and a significant role of the ITPR1-related pathway in the development and maintenance of the normal functions of the cerebellum.
Subject: congenital nonprogressive spinocerebellar ataxia; spinocerebellar ataxia type 29; cerebellar atrophy; ITPR1; gene identification
Identifier: http://hdl.handle.net/1959.13/1306291
Identifier: uon:21181
Identifier: ISSN:1750-1172
Language: eng
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