Biallelic variants in <i>SNUPN</i> cause a limb girdle muscular dystrophy with myofibrillar-like features-Reference-Cited by-同舟云学术

Biallelic variants in SNUPN cause a limb girdle muscular dystrophy with myofibrillar-like features

Published:2024-02-15 Issue:8 Volume:147 Page:2867-2883
ISSN:0006-8950
Container-title:Brain
language:en
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Author:

Iruzubieta Pablo¹²³^ORCID,Damborenea Alberto¹,Ioghen Mihaela⁴,Bajew Simon¹,Fernandez-Torrón Roberto¹²,Töpf Ana⁵,Herrero-Reiriz Álvaro¹,Epure Diana⁶,Vill Katharina⁷⁸,Hernández-Laín Aurelio⁹¹⁰¹¹^ORCID,Manterola María¹,Azkargorta Mikel¹²¹³^ORCID,Pikatza-Menoio Oihane¹³,Pérez-Fernandez Laura¹¹⁴,García-Puga Mikel¹³,Gaina Gisela¹⁵,Bastian Alexandra¹⁶,Streata Ioana¹⁷,Walter Maggie C¹⁸,Müller-Felber Wolfgang⁸,Thiele Simone¹⁸,Moragón Saioa¹,Bastida-Lertxundi Nerea¹⁹,López-Cortajarena Aitziber¹⁴²⁰,Elortza Felix¹²¹³,Gereñu Gorka¹³²⁰,Alonso-Martin Sonia¹³,Straub Volker⁵,de Sancho David²¹²²^ORCID,Teleanu Raluca⁴,López de Munain Adolfo¹²³²³²⁴,Blázquez Lorea¹³²⁰^ORCID

Affiliation:

1. Department of Neurosciences, Biogipuzkoa Health Research Institute , 20014 San Sebastián , Spain

2. Department of Neurology, Donostia University Hospital, Osakidetza Basque Health Service , 20014 San Sebastián , Spain

3. CIBERNED, ISCIII (CIBER, Carlos III Institute, Spanish Ministry of Sciences and Innovation) , 28031, Madrid , Spain

4. Clinical Neurosciences Department, Faculty of Medicine, Carol Davila University of Medicine and Pharmacy, Paediatric Neurology , 020021 Bucharest , Romania

5. John Walton Muscular Dystrophy Research Centre, Newcastle University and Newcastle Hospitals NHS Foundation Trust , NE4 5NR Newcastle Upon Tyne , UK

6. Department of Paediatric Neurology, Doctor Victor Gomoiu Children’s Hospital , 022102 Bucharest , Romania

7. Department of Pediatric Neurology and Developmental Medicine and LMU Center for Children with Medical Complexity, Dr. von Hauner Children’s Hospital, LMU University Hospital, Ludwig-Maximilians-University Munich , 80539 Munich , Germany

8. Institute of Human Genetics, School of Medicine, Technical University of Munich , 81675 Munich , Germany

9. Neuropathology Unit, Department of Pathology, 12 de Octubre University Hospital , 28041 Madrid , Spain

10. Department of Neuro-oncology, Instituto de Investigación Sanitaria imas12, Hospital Universitario 12 de Octubre , 28041 Madrid , Spain

11. Universidad Complutense de Madrid, Facultad de Medicina , 28040 Madrid , Spain

12. Proteomics Platform, CIC bioGUNE, Basque Research and Technology Alliance (BRTA) , 48160 Derio , Spain

13. Centre for the Study of Liver and Gastrointestinal Diseases (CIBERehd), Instituto de Salud Carlos III (ISCIII) , 28029 Madrid , Spain

14. Center for Cooperative Research in Biomaterials (CIC biomaGUNE), Basque Research and Technology Alliance (BRTA) , 20014 San Sebastián , Spain

15. Department of Cell Biology, Neurosciences and Experimental Myology, Victor Babes National Institute of Pathology , 050096 Bucharest , Romania

16. Department of Pathology, Colentina Clinical Hospital , 020125 Bucharest , Romania

17. Human Genomics Laboratory, Regional Centre of Medical Genetics, Craiova University of Medicine and Pharmacy , 200349 Dolj , Romania

18. Friedrich Baur Institute at the Department of Neurology, LMU University Hospital, Ludwig-Maximilians-University Munich , 80539 Munich , Germany

19. Department of Clinical Genetics, Donostia University Hospital, Osakidetza Basque Health Service , 20014 San Sebastián , Spain

20. Ikerbasque, Basque Foundation for Science , 48009 Bilbao , Spain

21. Donostia International Physics Center , 20018 San Sebastián , Spain

22. Faculty of Chemistry, University of the Basque Country , 20018 San Sebastián , Spain

23. Faculty of Medicine, University of the Basque Country , 20014 San Sebastián , Spain

24. Faculty of Medicine, University of Deusto , 48007 Bilbao , Spain

Abstract

Abstract Alterations in RNA-splicing are a molecular hallmark of several neurological diseases, including muscular dystrophies, where mutations in genes involved in RNA metabolism or characterized by alterations in RNA splicing have been described. Here, we present five patients from two unrelated families with a limb-girdle muscular dystrophy (LGMD) phenotype carrying a biallelic variant in SNUPN gene. Snurportin-1, the protein encoded by SNUPN, plays an important role in the nuclear transport of small nuclear ribonucleoproteins (snRNPs), essential components of the spliceosome. We combine deep phenotyping, including clinical features, histopathology and muscle MRI, with functional studies in patient-derived cells and muscle biopsies to demonstrate that variants in SNUPN are the cause of a new type of LGMD according to current definition. Moreover, an in vivo model in Drosophila melanogaster further supports the relevance of Snurportin-1 in muscle. SNUPN patients show a similar phenotype characterized by proximal weakness starting in childhood, restrictive respiratory dysfunction and prominent contractures, although inter-individual variability in terms of severity even in individuals from the same family was found. Muscle biopsy showed myofibrillar-like features consisting of myotilin deposits and Z-disc disorganization. MRI showed predominant impairment of paravertebral, vasti, sartorius, gracilis, peroneal and medial gastrocnemius muscles. Conservation and structural analyses of Snurportin-1 p.Ile309Ser variant suggest an effect in nuclear-cytosol snRNP trafficking. In patient-derived fibroblasts and muscle, cytoplasmic accumulation of snRNP components is observed, while total expression of Snurportin-1 and snRNPs remains unchanged, which demonstrates a functional impact of SNUPN variant in snRNP metabolism. Furthermore, RNA-splicing analysis in patients’ muscle showed widespread splicing deregulation, in particular in genes relevant for muscle development and splicing factors that participate in the early steps of spliceosome assembly. In conclusion, we report that SNUPN variants are a new cause of limb girdle muscular dystrophy with specific clinical, histopathological and imaging features, supporting SNUPN as a new gene to be included in genetic testing of myopathies. These results further support the relevance of splicing-related proteins in muscle disorders.

Funder

Spanish Ministry of Science and Innovation

Instituto de Salud Carlos III

Fondo Europeo de Desarrollo Regional

FEDER

Ramon y Cajal

Basque Government

Office of Science

MINECO

Publisher

Oxford University Press (OUP)

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