Biallelic Variants in <i>ASNA1</i>, Encoding a Cytosolic Targeting Factor of Tail-Anchored Proteins, Cause Rapidly Progressive Pediatric Cardiomyopathy.

Verhagen, Judith M A; van den Born, Myrthe; van der Linde, Herma C; G J Nikkels, Peter; Verdijk, Rob M; Kivlen, Maryann H; van Unen, Leontine M A; Baas, Annette F; Ter Heide, Henriette; van Osch-Gevers, Lennie; Hoogeveen-Westerveld, Marianne; Herkert, Johanna C; Bertoli-Avella, Aida M; van Slegtenhorst, Marjon A; Wessels, Marja W; Verheijen, Frans W; Hassel, David; Hofstra, Robert M W; Hegde, Ramanujan S; van Hasselt, Peter M; van Ham, Tjakko J; van de Laar, Ingrid M B H

Biallelic Variants in ASNA1, Encoding a Cytosolic Targeting Factor of Tail-Anchored Proteins, Cause Rapidly Progressive Pediatric Cardiomyopathy.

Verhagen, Judith M A; van den Born, Myrthe; van der Linde, Herma C; G J Nikkels, Peter; Verdijk, Rob M; Kivlen, Maryann H; van Unen, Leontine M A; Baas, Annette F; Ter Heide, Henriette; van Osch-Gevers, Lennie; Hoogeveen-Westerveld, Marianne; Herkert, Johanna C; Bertoli-Avella, Aida M; van Slegtenhorst, Marjon A; Wessels, Marja W; Verheijen, Frans W; Hassel, David; Hofstra, Robert M W; Hegde, Ramanujan S; van Hasselt, Peter M; van Ham, Tjakko J; van de Laar, Ingrid M B H.

Afiliação

Verhagen JMA; Department of Clinical Genetics (J.M.A.V., M.v.d.B., H.C.v.d.L., L.M.A.v.U., M.H.-W., M.A.v.S., M.W.W., F.W.V., R.M.W.H., T.J.v.H., I.M.B.H.v.d.L.), Erasmus MC, University Medical Center Rotterdam.
van den Born M; Department of Clinical Genetics (J.M.A.V., M.v.d.B., H.C.v.d.L., L.M.A.v.U., M.H.-W., M.A.v.S., M.W.W., F.W.V., R.M.W.H., T.J.v.H., I.M.B.H.v.d.L.), Erasmus MC, University Medical Center Rotterdam.
van der Linde HC; Department of Clinical Genetics (J.M.A.V., M.v.d.B., H.C.v.d.L., L.M.A.v.U., M.H.-W., M.A.v.S., M.W.W., F.W.V., R.M.W.H., T.J.v.H., I.M.B.H.v.d.L.), Erasmus MC, University Medical Center Rotterdam.
G J Nikkels P; Department of Pathology (P.G.J.N.), University Medical Center Utrecht, Utrecht University, the Netherlands.
Verdijk RM; Department of Pathology (R.M.V.), Erasmus MC, University Medical Center Rotterdam.
Kivlen MH; Medical Research Council Laboratory of Molecular Biology, Cambridge Biomedical Campus, United Kingdom (M.H.K., R.S.H.).
van Unen LMA; Department of Clinical Genetics (J.M.A.V., M.v.d.B., H.C.v.d.L., L.M.A.v.U., M.H.-W., M.A.v.S., M.W.W., F.W.V., R.M.W.H., T.J.v.H., I.M.B.H.v.d.L.), Erasmus MC, University Medical Center Rotterdam.
Baas AF; Department of Genetics (A.F.B.), University Medical Center Utrecht, Utrecht University, the Netherlands.
Ter Heide H; Department of Pediatric Cardiology (H.t.H.), University Medical Center Utrecht, Utrecht University, the Netherlands.
van Osch-Gevers L; Department of Pediatric Cardiology (L.v.O.-G.), Erasmus MC, University Medical Center Rotterdam.
Hoogeveen-Westerveld M; Department of Clinical Genetics (J.M.A.V., M.v.d.B., H.C.v.d.L., L.M.A.v.U., M.H.-W., M.A.v.S., M.W.W., F.W.V., R.M.W.H., T.J.v.H., I.M.B.H.v.d.L.), Erasmus MC, University Medical Center Rotterdam.
Herkert JC; Department of Genetics, University of Groningen, University Medical Center Groningen, the Netherlands (J.C.H.).
Bertoli-Avella AM; Centogene AG, Rostock (A.M.B.-A.).
van Slegtenhorst MA; Department of Clinical Genetics (J.M.A.V., M.v.d.B., H.C.v.d.L., L.M.A.v.U., M.H.-W., M.A.v.S., M.W.W., F.W.V., R.M.W.H., T.J.v.H., I.M.B.H.v.d.L.), Erasmus MC, University Medical Center Rotterdam.
Wessels MW; Department of Clinical Genetics (J.M.A.V., M.v.d.B., H.C.v.d.L., L.M.A.v.U., M.H.-W., M.A.v.S., M.W.W., F.W.V., R.M.W.H., T.J.v.H., I.M.B.H.v.d.L.), Erasmus MC, University Medical Center Rotterdam.
Verheijen FW; Department of Clinical Genetics (J.M.A.V., M.v.d.B., H.C.v.d.L., L.M.A.v.U., M.H.-W., M.A.v.S., M.W.W., F.W.V., R.M.W.H., T.J.v.H., I.M.B.H.v.d.L.), Erasmus MC, University Medical Center Rotterdam.
Hassel D; Department of Medicine III, University Hospital Heidelberg, Germany (D.H.).
Hofstra RMW; Department of Clinical Genetics (J.M.A.V., M.v.d.B., H.C.v.d.L., L.M.A.v.U., M.H.-W., M.A.v.S., M.W.W., F.W.V., R.M.W.H., T.J.v.H., I.M.B.H.v.d.L.), Erasmus MC, University Medical Center Rotterdam.
Hegde RS; Medical Research Council Laboratory of Molecular Biology, Cambridge Biomedical Campus, United Kingdom (M.H.K., R.S.H.).
van Hasselt PM; Department of Pediatrics (P.M.v.H.), University Medical Center Utrecht, Utrecht University, the Netherlands.
van Ham TJ; Department of Clinical Genetics (J.M.A.V., M.v.d.B., H.C.v.d.L., L.M.A.v.U., M.H.-W., M.A.v.S., M.W.W., F.W.V., R.M.W.H., T.J.v.H., I.M.B.H.v.d.L.), Erasmus MC, University Medical Center Rotterdam.
van de Laar IMBH; Department of Clinical Genetics (J.M.A.V., M.v.d.B., H.C.v.d.L., L.M.A.v.U., M.H.-W., M.A.v.S., M.W.W., F.W.V., R.M.W.H., T.J.v.H., I.M.B.H.v.d.L.), Erasmus MC, University Medical Center Rotterdam.

Circ Genom Precis Med ; 12(9): 397-406, 2019 09.

Article em En | MEDLINE | ID: mdl-31461301

ABSTRACT

ABSTRACT

BACKGROUND:

Pediatric cardiomyopathies are a clinically and genetically heterogeneous group of heart muscle disorders associated with high morbidity and mortality. Although knowledge of the genetic basis of pediatric cardiomyopathy has improved considerably, the underlying cause remains elusive in a substantial proportion of cases.

METHODS:

Exome sequencing was used to screen for the causative genetic defect in a pair of siblings with rapidly progressive dilated cardiomyopathy and death in early infancy. Protein expression was assessed in patient samples, followed by an in vitro tail-anchored protein insertion assay and functional analyses in zebrafish.

RESULTS:

We identified compound heterozygous variants in the highly conserved ASNA1 gene (arsA arsenite transporter, ATP-binding, homolog), which encodes an ATPase required for post-translational membrane insertion of tail-anchored proteins. The c.913C>T variant on the paternal allele is predicted to result in a premature stop codon p.(Gln305*), and likely explains the decreased protein expression observed in myocardial tissue and skin fibroblasts. The c.488T>C variant on the maternal allele results in a valine to alanine substitution at residue 163 (p.Val163Ala). Functional studies showed that this variant leads to protein misfolding as well as less effective tail-anchored protein insertion. Loss of asna1 in zebrafish resulted in reduced cardiac contractility and early lethality. In contrast to wild-type mRNA, injection of either mutant mRNA failed to rescue this phenotype.

CONCLUSIONS:

Biallelic variants in ASNA1 cause severe pediatric cardiomyopathy and early death. Our findings point toward a critical role of the tail-anchored membrane protein insertion pathway in vertebrate cardiac function and disease.

Assuntos

ATPases Transportadoras de Arsenito/genética; Cardiomiopatias/genética; Citosol/enzimologia; Mutação Puntual; Proteínas de Peixe-Zebra/genética; Alelos; Sequência de Aminoácidos; Animais; ATPases Transportadoras de Arsenito/química; ATPases Transportadoras de Arsenito/metabolismo; Cardiomiopatias/enzimologia; Pré-Escolar; Modelos Animais de Doenças; Exoma; Feminino; Variação Genética; Humanos; Transporte Proteico; Alinhamento de Sequência; Peixe-Zebra/genética; Peixe-Zebra/metabolismo; Proteínas de Peixe-Zebra/química; Proteínas de Peixe-Zebra/metabolismo

Palavras-chave

cardiomyopathies; endoplasmic reticulum; exome; membrane proteins; zebrafish

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Texto completo: 1 Coleções: 01-internacional Base de dados: MEDLINE Assunto principal: Mutação Puntual / Citosol / Proteínas de Peixe-Zebra / ATPases Transportadoras de Arsenito / Cardiomiopatias Tipo de estudo: Prognostic_studies Limite: Animals / Child, preschool / Female / Humans Idioma: En Revista: Circ Genom Precis Med Ano de publicação: 2019 Tipo de documento: Article

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