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De novo variants in the RNU4-2 snRNA cause a frequent neurodevelopmental syndrome

De novo variants in the RNU4-2 snRNA cause a frequent neurodevelopmental syndrome
De novo variants in the RNU4-2 snRNA cause a frequent neurodevelopmental syndrome
Around 60% of individuals with neurodevelopmental disorders (NDD) remain undiagnosed after comprehensive genetic testing, primarily of protein-coding genes1. Large genome-sequenced cohorts are improving our ability to discover new diagnoses in the non-coding genome. Here, we identify the non-coding RNA RNU4-2 as a syndromic NDD gene. RNU4-2 encodes the U4 small nuclear RNA (snRNA), which is a critical component of the U4/U6.U5 tri-snRNP complex of the major spliceosome2. We identify an 18 bp region of RNU4-2 mapping to two structural elements in the U4/U6 snRNA duplex (the T-loop and Stem III) that is severely depleted of variation in the general population, but in which we identify heterozygous variants in 115 individuals with NDD. Most individuals (77.4%) have the same highly recurrent single base insertion (n.64_65insT). In 54 individuals where it could be determined, the de novo variants were all on the maternal allele. We demonstrate that RNU4-2 is highly expressed in the developing human brain, in contrast to RNU4-1 and other U4 homologs. Using RNA-sequencing, we show how 5’ splice site usage is systematically disrupted in individuals with RNU4-2 variants, consistent with the known role of this region during spliceosome activation. Finally, we estimate that variants in this 18 bp region explain 0.4% of individuals with NDD. This work underscores the importance of non-coding genes in rare disorders and will provide a diagnosis to thousands of individuals with NDD worldwide.
0028-0836
832-840
Chen, Yuyang
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Dawes, Ruebena
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Kim, Hyung Chul
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Ljungdahl, Alicia
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Stenton, Sarah L.
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Walker, Susan
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Lord, Jenny
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Lemire, Gabrielle
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Martin-Geary, Alexandra C.
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Ganesh, Vijay S
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Ma, Jialan
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Ellingford, Jamie M.
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Delage, Erwan
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D'Souza, Elston N.
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Dong, Shan
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Baralle, Diana
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et al.
Chen, Yuyang
08e38c4f-83ef-40c0-b173-b591e7a31f4c
Dawes, Ruebena
62350073-493b-4686-83ca-2b495125b7bd
Kim, Hyung Chul
61c198c2-be7e-42f5-86bd-c90714663611
Ljungdahl, Alicia
8113e9cb-3a32-482a-88aa-cca2539593e0
Stenton, Sarah L.
59128357-1028-4580-9faf-e51f97751b58
Walker, Susan
7d4352c2-62d2-44b2-8ab4-f8e4a986c85c
Lord, Jenny
b11b1d10-bba4-4a12-b200-f609d07d08c4
Lemire, Gabrielle
dd5dbb95-eb99-437f-94f3-54c6a36f35bb
Martin-Geary, Alexandra C.
9de52595-0a0d-47b9-833e-7b9d937f1dd3
Ganesh, Vijay S
358c90f6-3021-4a0d-92d9-c29f7549715a
Ma, Jialan
38ec4950-0656-4ee3-8787-a9f2d119ce48
Ellingford, Jamie M.
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Delage, Erwan
c828d6ca-f011-4fb3-88df-80dd97d795a1
D'Souza, Elston N.
c48933ef-703a-41a8-97eb-c0fe312ec14a
Dong, Shan
dbfa3faa-f8bc-496c-9baf-7b9dcdcd6e94
Baralle, Diana
faac16e5-7928-4801-9811-8b3a9ea4bb91

Chen, Yuyang and Dawes, Ruebena , et al. (2024) De novo variants in the RNU4-2 snRNA cause a frequent neurodevelopmental syndrome. Nature, 632 (8026), 832-840. (doi:10.1038/s41586-024-07773-7).

Record type: Article

Abstract

Around 60% of individuals with neurodevelopmental disorders (NDD) remain undiagnosed after comprehensive genetic testing, primarily of protein-coding genes1. Large genome-sequenced cohorts are improving our ability to discover new diagnoses in the non-coding genome. Here, we identify the non-coding RNA RNU4-2 as a syndromic NDD gene. RNU4-2 encodes the U4 small nuclear RNA (snRNA), which is a critical component of the U4/U6.U5 tri-snRNP complex of the major spliceosome2. We identify an 18 bp region of RNU4-2 mapping to two structural elements in the U4/U6 snRNA duplex (the T-loop and Stem III) that is severely depleted of variation in the general population, but in which we identify heterozygous variants in 115 individuals with NDD. Most individuals (77.4%) have the same highly recurrent single base insertion (n.64_65insT). In 54 individuals where it could be determined, the de novo variants were all on the maternal allele. We demonstrate that RNU4-2 is highly expressed in the developing human brain, in contrast to RNU4-1 and other U4 homologs. Using RNA-sequencing, we show how 5’ splice site usage is systematically disrupted in individuals with RNU4-2 variants, consistent with the known role of this region during spliceosome activation. Finally, we estimate that variants in this 18 bp region explain 0.4% of individuals with NDD. This work underscores the importance of non-coding genes in rare disorders and will provide a diagnosis to thousands of individuals with NDD worldwide.

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Accepted/In Press date: 2 July 2024
e-pub ahead of print date: 11 July 2024
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Identifiers

Local EPrints ID: 492820
URI: http://eprints.soton.ac.uk/id/eprint/492820
DOI: doi:10.1038/s41586-024-07773-7
ISSN: 0028-0836
PURE UUID: 484d9e15-099c-4e89-ab73-aedf59249669
ORCID for Diana Baralle: ORCID iD orcid.org/0000-0003-3217-4833

Catalogue record

Date deposited: 15 Aug 2024 16:42
Last modified: 29 Aug 2024 01:41

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Contributors

Author: Yuyang Chen
Author: Ruebena Dawes
Author: Hyung Chul Kim
Author: Alicia Ljungdahl
Author: Sarah L. Stenton
Author: Susan Walker
Author: Jenny Lord
Author: Gabrielle Lemire
Author: Alexandra C. Martin-Geary
Author: Vijay S Ganesh
Author: Jialan Ma
Author: Jamie M. Ellingford
Author: Erwan Delage
Author: Elston N. D'Souza
Author: Shan Dong
Author: Diana Baralle ORCID iD
Corporate Author: et al.

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