De novo and inherited dominant variants in U4 and U6 snRNA genes cause retinitis pigmentosa

U4 和 U6 snRNA 基因的新生突变和遗传性显性突变会导致视网膜色素变性。

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作者:Quinodoz,Mathieu,Rodenburg,Kim,Cvackova,Zuzana,Kaminska,Karolina,de Bruijn,Suzanne E,Iglesias-Romero,Ana Belén,Boonen,Erica G M,Ullah,Mukhtar,Zomer,Nick,Folcher,Marc,Bijon,Jacques,Holtes,Lara K,Tsang,Stephen H,Corradi,Zelia,Freund,K Bailey,Shliaga,Stefanida,Panneman,Daan M,Hitti-Malin,Rebekkah J,Ali,Manir,AlTalbishi,Ala'a,Andréasson,Sten,Ansari,Georg,Arno,Gavin,Astuti,Galuh D N,Ayuso,Carmen,Ayyagari,Radha,Banfi,Sandro,Banin,Eyal,Barakat,Tahsin Stefan,Barboni,Mirella T S,Bauwens,Miriam,Ben-Yosef,Tamar,Bernard,Virginie,Birch,David G,Biswas,Pooja,Blanco-Kelly,Fiona,Bocquet,Beatrice,Boon,Camiel J F,Branham,Kari,Bremond-Gignac,Dominique,Britten-Jones,Alexis Ceecee,Bujakowska,Kinga M,Burin des Roziers,Cyril,Cadena,Elizabeth L,Calzetti,Giacomo,Cancellieri,Francesca,Cattaneo,Luca,Chadderton,Naomi,Charbel Issa,Peter,Coutinho-Santos,Luísa,Daiger,Stephen P,De Baere,Elfride,De Bruyne,Marieke,de la Cerda,Berta,De Roach,John N,De Zaeytijd,Julie,Derks,Ronny,Dhaenens,Claire-Marie,Dudakova,Lubica,Duncan,Jacque L,Farrar,G Jane,Feltgen,Nicolas,Fenner,Beau J,Fernández-Caballero,Lidia,Ferraz Sallum,Juliana M,Gana,Simone,Garanto,Alejandro,Gardner,Jessica C,Gilissen,Christian,Gonzàlez-Duarte,Roser,Goto,Kensuke,Griffiths-Jones,Sam,Haack,Tobias B,Haer-Wigman,Lonneke,Hardcastle,Alison J,Hayashi,Takaaki,Héon,Elise,Hoefsloot,Lies H,Hoischen,Alexander,Holtan,Josephine P,Hoyng,Carel B,Ibanez,Manuel Benjamin B 4th,Inglehearn,Chris F,Iwata,Takeshi,Jensson,Brynjar O,Jones,Kaylie,Kalatzis,Vasiliki,Kamakari,Smaragda,Karali,Marianthi,Kellner,Ulrich,Klaver,Caroline C W,Knézy,Krisztina,Koenekoop,Robert K,Kohl,Susanne,Kominami,Taro,Kühlewein,Laura,Lamey,Tina M,Leibu,Rina,Leroy,Bart P,Liskova,Petra,Lopez,Irma,López-Rodríguez,Victor R de J,Mahieu,Quinten,Mahroo,Omar A,Manes,Gaël,Mansard,Luke,Martín-Gutiérrez,M Pilar,Martins,Nelson,Mauring,Laura,McKibbin,Martin,McLaren,Terri L,Meunier,Isabelle,Michaelides,Michel,Millán,José M,Mizobuchi,Kei,Mukherjee,Rajarshi,Nagy,Zoltán Zsolt,Neveling,Kornelia,Ołdak,Monika,Oorsprong,Michiel,Pan,Yang,Papachristou,Anastasia,Percesepe,Antonio,Pfau,Maximilian,Pierce,Eric A,Place,Emily,Ramesar,Raj,Ramond,Francis,Rasquin,Florence Andrée,Rice,Gillian I,Roberts,Lisa,Rodríguez-Hidalgo,María,Ruiz-Ederra,Javier,Sabir,Ataf H,Sajiki,Ai Fujita,Sánchez-Barbero,Ana Isabel,Sarma,Asodu Sandeep,Sangermano,Riccardo,Santos,Cristina M,Scarpato,Margherita,Scholl,Hendrik P N,Sharon,Dror,Signorini,Sabrina G,Simonelli,Francesca,Sousa,Ana Berta,Stefaniotou,Maria,Stefansson,Kari,Stingl,Katarina,Suga,Akiko,Sulem,Patrick,Sullivan,Lori S,Szabó,Viktória,Szaflik,Jacek P,Taurina,Gita,Thiadens,Alberta A H J,Toomes,Carmel,Tran,Viet H,Tsilimbaris,Miltiadis K,Tsoka,Pavlina,Vaclavik,Veronika,Vajter,Marie,Valeina,Sandra,Valente,Enza Maria,Valentine,Casey,Valero,Rebeca,Valleix,Sophie,van Aerschot,Joseph,van den Born,L Ingeborgh,Van Heetvelde,Mattias,Verhoeven,Virginie J M,Vincent,Andrea L,Webster,Andrew R,Whelan,Laura,Wissinger,Bernd,Yioti,Georgia G,Yoshitake,Kazutoshi,Zenteno,Juan C,Zeuli,Roberta,Zuleger,Theresia,Landau,Chaim,Jacob,Allan I,Lin,Siying,Cremers,Frans P M,Lee,Winston,Ellingford,Jamie M,Stanek,David,Roosing,Susanne,Rivolta,Carlo
期刊:Nature Genetics影响因子:29.000
时间:2026起止号:2026 Jan;58(1):169-179
doi:10.1038/s41588-025-02451-4

Abstract

Small nuclear RNAs (snRNAs) combine with specific proteins to generate small nuclear ribonucleoproteins (snRNPs), the building blocks of the spliceosome. U4 snRNA forms a duplex with U6 and, together with U5, contributes to the tri-snRNP spliceosomal complex. Variants in RNU4-2, which encodes U4, have recently been implicated in neurodevelopmental disorders. Here we show that heterozygous inherited and de novo variants in RNU4-2 and in four RNU6 paralogs (RNU6-1, RNU6-2, RNU6-8 and RNU6-9), which encode U6, recur in individuals with nonsyndromic retinitis pigmentosa (RP), a genetic disorder causing progressive blindness. These variants cluster within the three-way junction of the U4/U6 duplex, a site that interacts with tri-snRNP splicing factors also known to cause RP (PRPF3, PRPF8, PRPF31), and seem to affect snRNP biogenesis. Based on our cohort, deleterious variants in RNU4-2 and RNU6 paralogs may explain up to ~1.4% of otherwise undiagnosed RP cases. This study highlights the contribution of noncoding RNA genes to Mendelian disease and reveals pleiotropy in RNU4-2, where distinct variants underlie neurodevelopmental disorder and retinal degeneration.

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