PTBP1 variants displaying altered nucleocytoplasmic distribution are responsible for a neurodevelopmental disorder with skeletal dysplasia.

The Journal of Clinical Investigation Pub Date : 2025-09-18 DOI:10.1172/jci182100

Aymeric Masson,Julien Paccaud,Martina Orefice,Estelle Colin,Outi Mäkitie,Valérie Cormier-Daire,Raissa Relator,Sourav Ghosh,Jean-Marc Strub,Christine Schaeffer-Reiss,Carlo Marcelis,David A Koolen,Rolph Pfundt,Elke de Boer,Lisenka Elm Vissers,Thatjana Gardeitchik,Lonneke Am Aarts,Tuula Rinne,Paulien A Terhal,Nienke E Verbeek,Linda C Zuurbier,Astrid S Plomp,Marja W Wessels,Stella A de Man,Arjan Bouman,Lynne M Bird,Reem Saadeh-Haddad,Maria J Guillen Sacoto,Richard Person,Catherine Gooch,Anna Ce Hurst,Michelle L Thompson,Susan M Hiatt,Rebecca O Littlejohn,Elizabeth R Roeder,Mari Mori,Scott Hickey,Jesse M Hunter,Kristy Lee,Khaled Osman,Rana Halloun,Ruxandra Bachmann-Gagescu,Anita Rauch,Dagmar Wieczorek,Konrad Platzer,Johannes Luppe,Laurence Duplomb-Jego,Fatima El It,Yannis Duffourd,Frédéric Tran Mau-Them,Celine Huber,Christopher T Gordon,Fulya Taylan,Riikka E Mäkitie,Alice Costantini,Helena Valta,Stephen Robertson,Gemma Poke,Michel Francoise,Andrea Ciolfi,Marco Tartaglia,Nina Ekhilevitch,Rinat Zaid,Michael A Levy,Jennifer Kerkhof,Haley McConkey,Julian Delanne,Martin Chevarin,Valentin Vautrot,Valentin Bourgeois,Sylvie Nguyen,Nathalie Marle,Patrick Callier,Hana Safraou,Angela Morgan,David J Amor,Michael Hildebrand,David Coman,Marion Aubert Mucca,Julien Thevenon,Fanny Laffargue,Frédéric Bilan,Céline Pebrel-Richard,Grace Yoon,Michelle M Axford,Luis A Pérez-Jurado,Marta Sevilla-Porras,Douglas Black,Christophe Philippe,Bekim Sadikovic,Christel Thauvin-Robinet,Laurence Olivier-Faivre,Michela Ori,Quentin Thomas,Antonio Vitobello

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Abstract

Polypyrimidine tract-binding protein PTBP1 is a heterogeneous nuclear ribonucleoprotein primarily known for its alternative splicing activity. It shuttles between the nucleus and cytoplasm via partially overlapping N-terminal nuclear localization (NLS) and export (NES) signals. Despite its fundamental role in cell growth and differentiation, its involvement in human disease remains poorly understood. We identified 27 individuals from 25 families harboring de novo or inherited pathogenic variants - predominantly start-loss (89%) and, to a lesser extent, missense (11%) - affecting NES/NLS motifs. Affected individual presented with a syndromic neurodevelopmental disorder and variable skeletal dysplasia with disproportionate short-limbed short stature. Intellectual functioning ranged from normal to moderately delayed. Start-loss variants led to translation initiation from an alternative downstream in-frame methionine, resulting in loss of the NES and the first half of the bipartite NLS, and increased cytoplasmic stability. Start-loss and missense variants shared a DNA methylation episignature in peripheral blood and altered nucleocytoplasmic distribution in vitro and in vivo with preferential accumulation in processing bodies, causing aberrant gene expression but normal RNA splicing. Transcriptomic analysis of patient-derived fibroblasts revealed dysregulated pathways involved in osteochondrogenesis and neurodevelopment. Overall, our findings highlight a cytoplasmic role for PTBP1 in RNA stability and disease pathogenesis.

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显示核细胞质分布改变的PTBP1变异是骨骼发育不良的神经发育障碍的原因。

多嘧啶束结合蛋白PTBP1是一种异质核核糖核蛋白，主要以其选择性剪接活性而闻名。它通过部分重叠的n端核定位（NLS）和输出（NES）信号在细胞核和细胞质之间穿梭。尽管它在细胞生长和分化中起着基本作用，但它在人类疾病中的作用仍然知之甚少。我们从25个家族中鉴定了27个个体，这些个体携带有新生或遗传的致病变异——主要是启动缺失（89%），在较小程度上是错义（11%）——影响NES/NLS基序。受影响的个体表现为综合征性神经发育障碍和变异性骨骼发育不良，伴有不成比例的四肢矮小。智力功能从正常到中度迟缓不等。Start-loss变异导致下游替代框架内蛋氨酸的翻译起始，导致NES和双部NLS的前半部分丢失，并增加细胞质稳定性。Start-loss和missense变体在外周血中具有相同的DNA甲基化特征，并在体外和体内改变核质分布，在加工体中优先积累，导致基因表达异常，但RNA剪接正常。患者源性成纤维细胞的转录组学分析揭示了参与骨软骨形成和神经发育的失调通路。总之，我们的发现强调了pptbp1在RNA稳定性和疾病发病机制中的细胞质作用。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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The Journal of Clinical Investigation

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