Pathogenic proteotoxicity of cryptic splicing is alleviated by ubiquitination 
and ER-phagy

Prieto-Garcia, Cristian; Matkovic, Vigor; Mosler, Thorsten; Li, Congxin; Liang, Jie; Oo, James A.; Haidle, Felix; Mačinković, Igor; Cabrera-Orefice, Alfredo; Berkane, Rayene; Giuliani, Giulio; Xu, Fenfen; Jacomin, Anne-Claire; Tomaskovic, Ines; Basoglu, Marion; Hoffmann, Marina E.; Rathore, Rajeshwari; Cetin, Ronay; Boutguetait, Doha; Bozkurt, Süleyman; Hernández Cañás, María Clara; Keller, Mario; Busam, Jonas; Shah, Varun Jayeshkumar; Wittig, Ilka; Kaulich, Manuel; Beli, Petra; Galej, Wojciech P.; Ebersberger, Ingo; Wang, Likun; Münch, Christian; Stolz, Alexandra; Brandes, Ralf P.; Tse, William Ka Fai; Eimer, Stefan; Stainier, Didier Y. R.; Legewie, Stefan; Zarnack, Kathi; Müller-McNicoll, Michaela; Dikic, Ivan

doi:10.1126/science.adi5295

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Pathogenic proteotoxicity of cryptic splicing is alleviated by ubiquitination and ER-phagy

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Müller-McNicoll, Michaela
Institute of Molecular Biosciences, Goethe University Frankfurt, Frankfurt, Germany;
Max Planck Fellow Group RNA regulation Group, Prof. Michaela Müller-McNicoll, Max Planck Institute of Biophysics, Max Planck Society;

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Dikic, Ivan
Institute of Biochemistry II, Faculty of Medicine, Goethe University Frankfurt, Frankfurt, Germany;
Buchmann Institute for Molecular Life Sciences, Goethe University Frankfurt, Frankfurt, Germany;
Max Planck Fellow Group ER remodelling Group, Prof. Ivan Đikić, Max Planck Institute of Biophysics, Max Planck Society;

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Citation

Prieto-Garcia, C., Matkovic, V., Mosler, T., Li, C., Liang, J., Oo, J. A., et al. (2024). Pathogenic proteotoxicity of cryptic splicing is alleviated by ubiquitination and ER-phagy. Science, 386(6723), 768-776. doi:10.1126/science.adi5295.

Cite as: https://hdl.handle.net/21.11116/0000-0010-2CFD-1

Abstract

RNA splicing enables the functional adaptation of cells to changing contexts. Impaired splicing has been associated with diseases, including retinitis pigmentosa, but the underlying molecular mechanisms and cellular responses remain poorly understood. In this work, we report that deficiency of ubiquitin-specific protease 39 (USP39) in human cell lines, zebrafish larvae, and mice led to impaired spliceosome assembly and a cytotoxic splicing profile characterized by the use of cryptic 5' splice sites. Disruptive cryptic variants evaded messenger RNA (mRNA) surveillance pathways and were translated into misfolded proteins, which caused proteotoxic aggregates, endoplasmic reticulum (ER) stress, and, ultimately, cell death. The detrimental consequence of splicing-induced proteotoxicity could be mitigated by up-regulating the ubiquitin-proteasome system and selective autophagy. Our findings provide insight into the molecular pathogenesis of spliceosome-associated diseases.