Xiaolan Fang, Timothy Fee, Jessica Davis, Elliot S Stolerman, Raymond C Caylor
{"title":"临床病例报告:马赛克ANK3致病性变异在自闭症谱系障碍和神经发育迟缓患者。","authors":"Xiaolan Fang, Timothy Fee, Jessica Davis, Elliot S Stolerman, Raymond C Caylor","doi":"10.1101/mcs.a006233","DOIUrl":null,"url":null,"abstract":"<p><p>Ankyrins are a family of proteins that link integral membrane proteins to the underlying spectrin-actin cytoskeleton and play a key role in activities such as cell motility, activation, proliferation, cell-cell contact, and the maintenance of specialized membrane domains. <i>Ankyrin 3 (ANK3)</i> is one of the three major subtypes of the ankyrin protein family. Ankryin genes are ubiquitously expressed, but their expression is highest in the brain. In the central nervous system, ankyrins have critical roles at the axonal initial segment, the nodes of Ranvier, and at synapses. To date, pathogenic variants in <i>ANK3</i> have been reported in individuals with neuropsychiatric, cognitive, and neurodevelopmental disorders. The clinical severity is variable in these individuals with both autosomal recessive and autosomal dominant patterns of inheritance observed. These findings have suggested genotype-phenotype correlations and even isoform-specific implications for individuals with <i>ANK3</i> pathogenic variants. Here, we report a patient with speech delay, autism spectrum disorder, and a language disorder in which a de novo nonsense <i>ANK3</i> alteration was discovered by exome sequencing. Interestingly, the next-generation sequencing data suggested the change was mosaic in the affected child, and it was confirmed by digital polymerase chain reaction (dPCR) at 22% allelic fraction. To our knowledge, this is the first case of an individual with a pathogenic mosaic <i>ANK3</i> variant. This finding expands upon the existing genotype-phenotype information available for the <i>ANK3</i> gene while also highlighting potential gene expression correlations with phenotype.</p>","PeriodicalId":10360,"journal":{"name":"Cold Spring Harbor Molecular Case Studies","volume":null,"pages":null},"PeriodicalIF":1.8000,"publicationDate":"2023-06-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://ftp.ncbi.nlm.nih.gov/pub/pmc/oa_pdf/7d/e2/MCS006233Fan.PMC10393183.pdf","citationCount":"0","resultStr":"{\"title\":\"Clinical case report: mosaic <i>ANK3</i> pathogenic variant in a patient with autism spectrum disorder and neurodevelopmental delay.\",\"authors\":\"Xiaolan Fang, Timothy Fee, Jessica Davis, Elliot S Stolerman, Raymond C Caylor\",\"doi\":\"10.1101/mcs.a006233\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p><p>Ankyrins are a family of proteins that link integral membrane proteins to the underlying spectrin-actin cytoskeleton and play a key role in activities such as cell motility, activation, proliferation, cell-cell contact, and the maintenance of specialized membrane domains. <i>Ankyrin 3 (ANK3)</i> is one of the three major subtypes of the ankyrin protein family. Ankryin genes are ubiquitously expressed, but their expression is highest in the brain. In the central nervous system, ankyrins have critical roles at the axonal initial segment, the nodes of Ranvier, and at synapses. To date, pathogenic variants in <i>ANK3</i> have been reported in individuals with neuropsychiatric, cognitive, and neurodevelopmental disorders. The clinical severity is variable in these individuals with both autosomal recessive and autosomal dominant patterns of inheritance observed. These findings have suggested genotype-phenotype correlations and even isoform-specific implications for individuals with <i>ANK3</i> pathogenic variants. Here, we report a patient with speech delay, autism spectrum disorder, and a language disorder in which a de novo nonsense <i>ANK3</i> alteration was discovered by exome sequencing. Interestingly, the next-generation sequencing data suggested the change was mosaic in the affected child, and it was confirmed by digital polymerase chain reaction (dPCR) at 22% allelic fraction. To our knowledge, this is the first case of an individual with a pathogenic mosaic <i>ANK3</i> variant. 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Clinical case report: mosaic ANK3 pathogenic variant in a patient with autism spectrum disorder and neurodevelopmental delay.
Ankyrins are a family of proteins that link integral membrane proteins to the underlying spectrin-actin cytoskeleton and play a key role in activities such as cell motility, activation, proliferation, cell-cell contact, and the maintenance of specialized membrane domains. Ankyrin 3 (ANK3) is one of the three major subtypes of the ankyrin protein family. Ankryin genes are ubiquitously expressed, but their expression is highest in the brain. In the central nervous system, ankyrins have critical roles at the axonal initial segment, the nodes of Ranvier, and at synapses. To date, pathogenic variants in ANK3 have been reported in individuals with neuropsychiatric, cognitive, and neurodevelopmental disorders. The clinical severity is variable in these individuals with both autosomal recessive and autosomal dominant patterns of inheritance observed. These findings have suggested genotype-phenotype correlations and even isoform-specific implications for individuals with ANK3 pathogenic variants. Here, we report a patient with speech delay, autism spectrum disorder, and a language disorder in which a de novo nonsense ANK3 alteration was discovered by exome sequencing. Interestingly, the next-generation sequencing data suggested the change was mosaic in the affected child, and it was confirmed by digital polymerase chain reaction (dPCR) at 22% allelic fraction. To our knowledge, this is the first case of an individual with a pathogenic mosaic ANK3 variant. This finding expands upon the existing genotype-phenotype information available for the ANK3 gene while also highlighting potential gene expression correlations with phenotype.
期刊介绍:
Cold Spring Harbor Molecular Case Studies is an open-access, peer-reviewed, international journal in the field of precision medicine. Articles in the journal present genomic and molecular analyses of individuals or cohorts alongside their clinical presentations and phenotypic information. The journal''s purpose is to rapidly share insights into disease development and treatment gained by application of genomics, proteomics, metabolomics, biomarker analysis, and other approaches. The journal covers the fields of cancer, complex diseases, monogenic disorders, neurological conditions, orphan diseases, infectious disease, gene therapy, and pharmacogenomics. It has a rapid peer-review process that is based on technical evaluation of the analyses performed, not the novelty of findings, and offers a swift, clear path to publication. The journal publishes: Research Reports presenting detailed case studies of individuals and small cohorts, Research Articles describing more extensive work using larger cohorts and/or functional analyses, Rapid Communications presenting the discovery of a novel variant and/or novel phenotype associated with a known disease gene, Rapid Cancer Communications presenting the discovery of a novel variant or combination of variants in a cancer type, Variant Discrepancy Resolution describing efforts to resolve differences or update variant interpretations in ClinVar through case-level data sharing, Follow-up Reports linked to previous observations, Plus Review Articles, Editorials, and Position Statements on best practices for research in precision medicine.