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A functional link between lariat debranching enzyme and the intron-binding complex is defective in non-photosensitive trichothiodystrophy.

Townley, Brittany A; Buerer, Luke; Tsao, Ning; Bacolla, Albino; Mansoori, Fadhel; Rusanov, Timur; Clark, Nathanial; Goodarzi, Negar; Schmidt, Nicolas; Srivatsan, Sridhar Nonavinkere; Sun, Hua; Sample, Reilly A; Brickner, Joshua R; McDonald, Drew; Tsai, Miaw-Sheue; Walter, Matthew J; Wozniak, David F; Holehouse, Alex S; Pena, Vladimir; Tainer, John A; Fairbrother, William G; Mosammaparast, Nima.

Mol Cell ; 83(13): 2258-2275.e11, 2023 07 06.

Artículo en Inglés | MEDLINE | ID: mdl-37369199

RESUMEN

The pre-mRNA life cycle requires intron processing; yet, how intron-processing defects influence splicing and gene expression is unclear. Here, we find that TTDN1/MPLKIP, which is encoded by a gene implicated in non-photosensitive trichothiodystrophy (NP-TTD), functionally links intron lariat processing to spliceosomal function. The conserved TTDN1 C-terminal region directly binds lariat debranching enzyme DBR1, whereas its N-terminal intrinsically disordered region (IDR) binds the intron-binding complex (IBC). TTDN1 loss, or a mutated IDR, causes significant intron lariat accumulation, as well as splicing and gene expression defects, mirroring phenotypes observed in NP-TTD patient cells. A Ttdn1-deficient mouse model recapitulates intron-processing defects and certain neurodevelopmental phenotypes seen in NP-TTD. Fusing DBR1 to the TTDN1 IDR is sufficient to recruit DBR1 to the IBC and circumvents the functional requirement for TTDN1. Collectively, our findings link RNA lariat processing with splicing outcomes by revealing the molecular function of TTDN1.

Asunto(s)

Síndromes de Tricotiodistrofia , Animales , Ratones , Intrones/genética , Síndromes de Tricotiodistrofia/genética , ARN Nucleotidiltransferasas/genética , Empalme del ARN

Inborn Errors of RNA Lariat Metabolism in Humans with Brainstem Viral Infection.

Zhang, Shen-Ying; Clark, Nathaniel E; Freije, Catherine A; Pauwels, Elodie; Taggart, Allison J; Okada, Satoshi; Mandel, Hanna; Garcia, Paula; Ciancanelli, Michael J; Biran, Anat; Lafaille, Fabien G; Tsumura, Miyuki; Cobat, Aurélie; Luo, Jingchuan; Volpi, Stefano; Zimmer, Bastian; Sakata, Sonoko; Dinis, Alexandra; Ohara, Osamu; Garcia Reino, Eduardo J; Dobbs, Kerry; Hasek, Mary; Holloway, Stephen P; McCammon, Karen; Hussong, Stacy A; DeRosa, Nicholas; Van Skike, Candice E; Katolik, Adam; Lorenzo, Lazaro; Hyodo, Maki; Faria, Emilia; Halwani, Rabih; Fukuhara, Rie; Smith, Gregory A; Galvan, Veronica; Damha, Masad J; Al-Muhsen, Saleh; Itan, Yuval; Boeke, Jef D; Notarangelo, Luigi D; Studer, Lorenz; Kobayashi, Masao; Diogo, Luisa; Fairbrother, William G; Abel, Laurent; Rosenberg, Brad R; Hart, P John; Etzioni, Amos; Casanova, Jean-Laurent.

Cell ; 172(5): 952-965.e18, 2018 02 22.

Artículo en Inglés | MEDLINE | ID: mdl-29474921

RESUMEN

Viruses that are typically benign sometimes invade the brainstem in otherwise healthy children. We report bi-allelic DBR1 mutations in unrelated patients from different ethnicities, each of whom had brainstem infection due to herpes simplex virus 1 (HSV1), influenza virus, or norovirus. DBR1 encodes the only known RNA lariat debranching enzyme. We show that DBR1 expression is ubiquitous, but strongest in the spinal cord and brainstem. We also show that all DBR1 mutant alleles are severely hypomorphic, in terms of expression and function. The fibroblasts of DBR1-mutated patients contain higher RNA lariat levels than control cells, this difference becoming even more marked during HSV1 infection. Finally, we show that the patients' fibroblasts are highly susceptible to HSV1. RNA lariat accumulation and viral susceptibility are rescued by wild-type DBR1. Autosomal recessive, partial DBR1 deficiency underlies viral infection of the brainstem in humans through the disruption of tissue-specific and cell-intrinsic immunity to viruses.

Asunto(s)

Encefalopatías Metabólicas Innatas/genética , Tronco Encefálico/metabolismo , Tronco Encefálico/virología , ARN/química , ARN/metabolismo , Alelos , Secuencia de Aminoácidos , Animales , Encefalopatías Metabólicas Innatas/patología , Tronco Encefálico/patología , Encefalitis Viral/genética , Escherichia coli/metabolismo , Femenino , Fibroblastos/metabolismo , Fibroblastos/patología , Fibroblastos/virología , Herpesvirus Humano 1 , Humanos , Interferones/metabolismo , Intrones/genética , Masculino , Ratones , Proteínas Mutantes/metabolismo , Mutación/genética , Sistemas de Lectura Abierta/genética , Linaje , ARN Nucleotidiltransferasas/química , ARN Nucleotidiltransferasas/deficiencia , ARN Nucleotidiltransferasas/genética , Receptor Toll-Like 3/metabolismo , Replicación Viral

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