Recessive mutations in SPTBN2 implicate β-III spectrin in both cognitive and motor development

Stefano Lise*, Yvonne Clarkson, Emma Perkins, Alexandra Kwasniewska, Elham Sadighi Akha, Ricardo Parolin Schnekenberg, Daumante Suminaite, Jilly Hope, Ian Baker, Lorna Gregory, Angie Green, Chris Allan, Sarah Lamble, Sandeep Jayawant, Gerardine Quaghebeur, M. Zameel Cader, Sarah Hughes, Richard J. E. Armstrong, Alexander Kanapin, Andrew RimmerGerton Lunter, Iain Mathieson, Jean-Baptiste Cazier, David Buck, Jenny C. Taylor, David Bentley, Gilean McVean, Peter Donnelly, Samantha J. L. Knight, Mandy Jackson, Jiannis Ragoussis, Andrea H. Nemeth

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

Abstract / Description of output

β-III spectrin is present in the brain and is known to be important in the function of the cerebellum. Heterozygous mutations in SPTBN2, the gene encoding β-III spectrin, cause Spinocerebellar Ataxia Type 5 (SCA5), an adult-onset, slowly progressive, autosomal-dominant pure cerebellar ataxia. SCA5 is sometimes known as "Lincoln ataxia," because the largest known family is descended from relatives of the United States President Abraham Lincoln. Using targeted capture and next-generation sequencing, we identified a homozygous stop codon in SPTBN2 in a consanguineous family in which childhood developmental ataxia co-segregates with cognitive impairment. The cognitive impairment could result from mutations in a second gene, but further analysis using whole-genome sequencing combined with SNP array analysis did not reveal any evidence of other mutations. We also examined a mouse knockout of β-III spectrin in which ataxia and progressive degeneration of cerebellar Purkinje cells has been previously reported and found morphological abnormalities in neurons from prefrontal cortex and deficits in object recognition tasks, consistent with the human cognitive phenotype. These data provide the first evidence that β-III spectrin plays an important role in cortical brain development and cognition, in addition to its function in the cerebellum; and we conclude that cognitive impairment is an integral part of this novel recessive ataxic syndrome, Spectrin-associated Autosomal Recessive Cerebellar Ataxia type 1 (SPARCA1). In addition, the identification of SPARCA1 and normal heterozygous carriers of the stop codon in SPTBN2 provides insights into the mechanism of molecular dominance in SCA5 and demonstrates that the cell-specific repertoire of spectrin subunits underlies a novel group of disorders, the neuronal spectrinopathies, which includes SCA5, SPARCA1, and a form of West syndrome.
Original languageEnglish
Article numberARTN e1003074
Number of pages14
JournalPLoS Genetics
Volume8
Issue number12
DOIs
Publication statusPublished - Dec 2012

Keywords / Materials (for Non-textual outputs)

  • DATABASE
  • FEATURES
  • HIPPOCAMPUS
  • ATAXIA TYPE 5
  • ASSOCIATION
  • MEDIAL PREFRONTAL CORTEX
  • SPINOCEREBELLAR ATAXIA
  • LINCOLN ATAXIA
  • VARIANTS
  • RECOGNITION MEMORY

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