Congenital ataxia due to novel variant in ATP8A2

Congenital ataxias are a heterogeneous group of disorders characterized by congenital or early‐onset ataxia. Here, we describe two siblings with congenital ataxia, who acquired independent gait by age 4 years. After 16 years of follow‐up they presented near normal cognition, cerebellar ataxia, mild...

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Veröffentlicht in:	Clinical genetics 2021-07, Vol.100 (1), p.79-83
Hauptverfasser:	Damásio, Joana, Santos, Diana, Morais, Sara, Brás, José, Guerreiro, Rita, Sardoeira, Ana, Cavaco, Sara, Carrilho, Inês, Barbot, Clara, Barros, José, Sequeiros, Jorge
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Schlagworte:	Adenosine Triphosphatases - genetics Adult Ataxia ATP8A2 Bioinformatics Cell Line Cerebellar ataxia Cerebellar Ataxia - genetics Cerebellum Cloning vectors Codon, Nonsense - genetics Cognition Congenital diseases Dystonia Female Gait Genetic Variation - genetics HEK293 Cells hereditary ataxia Homozygote Humans intronic variant Introns - genetics Male minigene assay Nonsense mutation Pedigree Phospholipid Transfer Proteins - genetics RNA Splice Sites - genetics RNA Splicing - genetics Stop codon Transcription
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creator	Damásio, Joana Santos, Diana Morais, Sara Brás, José Guerreiro, Rita Sardoeira, Ana Cavaco, Sara Carrilho, Inês Barbot, Clara Barros, José Sequeiros, Jorge
description	Congenital ataxias are a heterogeneous group of disorders characterized by congenital or early‐onset ataxia. Here, we describe two siblings with congenital ataxia, who acquired independent gait by age 4 years. After 16 years of follow‐up they presented near normal cognition, cerebellar ataxia, mild pyramidal signs, and dystonia. On exome sequencing, a novel homozygous variant (c.1580‐18C > G ‐ intron 17) in ATP8A2 was identified. A new acceptor splice site was predicted by bioinformatics tools, and functionally characterized through a minigene assay. Minigene constructs were generated by PCR‐amplification of genomic sequences surrounding the variant of interest and cloning into the pCMVdi vector. Altered splicing was evaluated by expressing these constructs in HEK293T cells. The construct with the c.1580‐18C > G homozygous variant produced an aberrant transcript, leading to retention of 17 bp of intron 17, by the use of an alternative acceptor splice site, resulting in a premature stop codon by insertion of four amino acids. These results allowed us to establish this as a disease‐causing variant and expand ATP8A2‐related disorders to include less severe forms of congenital ataxia.
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Here, we describe two siblings with congenital ataxia, who acquired independent gait by age 4 years. After 16 years of follow‐up they presented near normal cognition, cerebellar ataxia, mild pyramidal signs, and dystonia. On exome sequencing, a novel homozygous variant (c.1580‐18C > G ‐ intron 17) in ATP8A2 was identified. A new acceptor splice site was predicted by bioinformatics tools, and functionally characterized through a minigene assay. Minigene constructs were generated by PCR‐amplification of genomic sequences surrounding the variant of interest and cloning into the pCMVdi vector. Altered splicing was evaluated by expressing these constructs in HEK293T cells. The construct with the c.1580‐18C > G homozygous variant produced an aberrant transcript, leading to retention of 17 bp of intron 17, by the use of an alternative acceptor splice site, resulting in a premature stop codon by insertion of four amino acids. 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Here, we describe two siblings with congenital ataxia, who acquired independent gait by age 4 years. After 16 years of follow‐up they presented near normal cognition, cerebellar ataxia, mild pyramidal signs, and dystonia. On exome sequencing, a novel homozygous variant (c.1580‐18C > G ‐ intron 17) in ATP8A2 was identified. A new acceptor splice site was predicted by bioinformatics tools, and functionally characterized through a minigene assay. Minigene constructs were generated by PCR‐amplification of genomic sequences surrounding the variant of interest and cloning into the pCMVdi vector. Altered splicing was evaluated by expressing these constructs in HEK293T cells. The construct with the c.1580‐18C > G homozygous variant produced an aberrant transcript, leading to retention of 17 bp of intron 17, by the use of an alternative acceptor splice site, resulting in a premature stop codon by insertion of four amino acids. 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Here, we describe two siblings with congenital ataxia, who acquired independent gait by age 4 years. After 16 years of follow‐up they presented near normal cognition, cerebellar ataxia, mild pyramidal signs, and dystonia. On exome sequencing, a novel homozygous variant (c.1580‐18C > G ‐ intron 17) in ATP8A2 was identified. A new acceptor splice site was predicted by bioinformatics tools, and functionally characterized through a minigene assay. Minigene constructs were generated by PCR‐amplification of genomic sequences surrounding the variant of interest and cloning into the pCMVdi vector. Altered splicing was evaluated by expressing these constructs in HEK293T cells. The construct with the c.1580‐18C > G homozygous variant produced an aberrant transcript, leading to retention of 17 bp of intron 17, by the use of an alternative acceptor splice site, resulting in a premature stop codon by insertion of four amino acids. 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subjects	Adenosine Triphosphatases - genetics Adult Ataxia ATP8A2 Bioinformatics Cell Line Cerebellar ataxia Cerebellar Ataxia - genetics Cerebellum Cloning vectors Codon, Nonsense - genetics Cognition Congenital diseases Dystonia Female Gait Genetic Variation - genetics HEK293 Cells hereditary ataxia Homozygote Humans intronic variant Introns - genetics Male minigene assay Nonsense mutation Pedigree Phospholipid Transfer Proteins - genetics RNA Splice Sites - genetics RNA Splicing - genetics Stop codon Transcription
title	Congenital ataxia due to novel variant in ATP8A2
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