METTL1 promotes tumorigenesis through tRNA-derived fragment biogenesis in prostate cancer

Raquel García-Vílchez(Universidad de Salamanca), Ana M. Añazco-Guenkova(Universidad de Salamanca), Sabine Dietmann(Washington University in St. Louis), Judith López(Universidad de Salamanca), Virginia Morón-Calvente(Universidad de Salamanca), Silvia D’Ambrosi(CIC bioGUNE), Paz Nombela(Universidad de Salamanca), Kepa Zamacola(CIC bioGUNE), Isabel Mendizabal(Ikerbasque), Saioa Garcia‐Longarte(CIC bioGUNE), Amaia Zabala‐Letona(CIC bioGUNE), Ianire Astobiza(CIC bioGUNE), Sonia Fernández(CIC bioGUNE), Alejandro Paniagua(Universidad de Salamanca), Borja Miguel‐López(Universidad de Salamanca), Virginie Marchand(Centre National de la Recherche Scientifique), Diego Alonso‐López(Universidad de Salamanca), Angelika Merkel(Josep Carreras Leukaemia Research Institute), Ignacio García‐Tuñón(Universidad de Salamanca), Aitziber Ugalde‐Olano(Hospital de Basurto), Ana Loizaga‐Iriarte(BioCruces Health research Institute), Isabel Lacasa-Viscasillas(Hospital de Basurto), Miguel Unda(BioCruces Health research Institute), Mikel Azkargorta(Instituto de Salud Carlos III), Félix Elortza(Instituto de Salud Carlos III), Laura Bárcena(CIC bioGUNE), Monika González-Lopez(CIC bioGUNE), Ana M. Aransay(CIC bioGUNE), Tomás Di Domenico(Spanish National Cancer Research Centre), Manuel Sánchez‐Martín(Universidad de Salamanca), Javier De Las Rivas(Universidad de Salamanca), Sònia Guil(Josep Carreras Leukaemia Research Institute), Yuri Motorin(Centre National de la Recherche Scientifique), Mark Helm(Johannes Gutenberg University Mainz), Pier Paolo Pandolfi(University of Turin), Arkaitz Carracedo(Ikerbasque), Sandra Blanco(Universidad de Salamanca)
Molecular Cancer
July 29, 2023
10.1186/s12943-023-01809-8
Cited by 106Open Access
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Abstract

Abstract Newly growing evidence highlights the essential role that epitranscriptomic marks play in the development of many cancers; however, little is known about the role and implications of altered epitranscriptome deposition in prostate cancer. Here, we show that the transfer RNA N 7 -methylguanosine (m 7 G) transferase METTL1 is highly expressed in primary and advanced prostate tumours. Mechanistically, we find that METTL1 depletion causes the loss of m 7 G tRNA methylation and promotes the biogenesis of a novel class of small non-coding RNAs derived from 5'tRNA fragments. 5'tRNA-derived small RNAs steer translation control to favour the synthesis of key regulators of tumour growth suppression, interferon pathway, and immune effectors. Knockdown of Mettl1 in prostate cancer preclinical models increases intratumoural infiltration of pro-inflammatory immune cells and enhances responses to immunotherapy. Collectively, our findings reveal a therapeutically actionable role of METTL1-directed m 7 G tRNA methylation in cancer cell translation control and tumour biology.

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