Epigenetic loss of RNA‑methyltransferase NSUN5 in glioma targets ribosomes to drive stress adaptive translational program

Tumors have aberrant proteomes that often do not match their corresponding transcriptome profiles. One possible cause of this discrepancy is the existence of aberrant RNA modification landscapes in the so-called epitranscriptome. Here, we report that human glioma cells undergo DNA methylation-associ...

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Veröffentlicht in:	Acta neuropathologica 2019-08
Hauptverfasser:	Janin, Maxime, Ortiz‑Barahona, Vanessa, Esteller, Manel, Castro de Moura, Manuel, Carrato, Cristina, Martínez Cardús, Anna, Llinàs-Arias, Pere, Soler Gallart, Marta, Nachmani, Daphna, Pelletier, Joffrey, Schumann, Ulrike, Calleja Cervantes, Maria E, Moran, Sebastian, Guil, Sonia, Bueno Costa, Alberto, Piñeyro, David, Pérez Salvia, Montserrat, Rosselló-Tortella, Margalida, Piqué, Laia, Bech-Serra, Joan J, Torre Gómez, Carolina de la, Vidal-Bel, August, Martínez Iniesta, María, Martín‑Tejera, Juan F, Tejera, Juan F, Villanueva Garatachea, Alberto, Arias, Alexandra, Cuartas, Isabel, Aransay, Ana Maria, Morales La Madrid, Andres, Carcaboso, Angel M, Santa-Maria Lopez, Vicente, Mora Graupera, Jaume, Fernández, Agustín F, Fraga, Mario F, Aldecoa Ansórregui, Iban, Pedrosa, Leire, Graus Ribas, Francesc, Martínez Soler, Fina, Tortosa i Moreno, Avelina
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Schlagworte:	Avaluació de resultats (Assistència mèdica) Glioma Gliomas Methylation Metilació Outcome assessment (Medical care) RNA
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creator	Janin, Maxime Ortiz‑Barahona, Vanessa Esteller, Manel Castro de Moura, Manuel Carrato, Cristina Martínez Cardús, Anna Llinàs-Arias, Pere Soler Gallart, Marta Nachmani, Daphna Pelletier, Joffrey Schumann, Ulrike Calleja Cervantes, Maria E Moran, Sebastian Guil, Sonia Bueno Costa, Alberto Piñeyro, David Pérez Salvia, Montserrat Rosselló-Tortella, Margalida Piqué, Laia Bech-Serra, Joan J Torre Gómez, Carolina de la Vidal-Bel, August Martínez Iniesta, María Martín‑Tejera, Juan F Tejera, Juan F Villanueva Garatachea, Alberto Arias, Alexandra Cuartas, Isabel Aransay, Ana Maria Morales La Madrid, Andres Carcaboso, Angel M Santa-Maria Lopez, Vicente Mora Graupera, Jaume Fernández, Agustín F Fraga, Mario F Aldecoa Ansórregui, Iban Pedrosa, Leire Graus Ribas, Francesc Martínez Soler, Fina Tortosa i Moreno, Avelina
description	Tumors have aberrant proteomes that often do not match their corresponding transcriptome profiles. One possible cause of this discrepancy is the existence of aberrant RNA modification landscapes in the so-called epitranscriptome. Here, we report that human glioma cells undergo DNA methylation-associated epigenetic silencing of NSUN5, a candidate RNA methyltransferase for 5-methylcytosine. In this setting, NSUN5 exhibits tumor-suppressor characteristics in vivo glioma models. We also found that NSUN5 loss generates an unmethylated status at the C3782 position of 28S rRNA that drives an overall depletion of protein synthesis, and leads to the emergence of an adaptive translational program for survival under conditions of cellular stress. Interestingly, NSUN5 epigenetic inactivation also renders these gliomas sensitive to bioactivatable substrates of the stress-related enzyme NQO1. Most importantly, NSUN5 epigenetic inactivation is a hallmark of glioma patients with long-term survival for this otherwise devastating disease.
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One possible cause of this discrepancy is the existence of aberrant RNA modification landscapes in the so-called epitranscriptome. Here, we report that human glioma cells undergo DNA methylation-associated epigenetic silencing of NSUN5, a candidate RNA methyltransferase for 5-methylcytosine. In this setting, NSUN5 exhibits tumor-suppressor characteristics in vivo glioma models. We also found that NSUN5 loss generates an unmethylated status at the C3782 position of 28S rRNA that drives an overall depletion of protein synthesis, and leads to the emergence of an adaptive translational program for survival under conditions of cellular stress. Interestingly, NSUN5 epigenetic inactivation also renders these gliomas sensitive to bioactivatable substrates of the stress-related enzyme NQO1. 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One possible cause of this discrepancy is the existence of aberrant RNA modification landscapes in the so-called epitranscriptome. Here, we report that human glioma cells undergo DNA methylation-associated epigenetic silencing of NSUN5, a candidate RNA methyltransferase for 5-methylcytosine. In this setting, NSUN5 exhibits tumor-suppressor characteristics in vivo glioma models. We also found that NSUN5 loss generates an unmethylated status at the C3782 position of 28S rRNA that drives an overall depletion of protein synthesis, and leads to the emergence of an adaptive translational program for survival under conditions of cellular stress. Interestingly, NSUN5 epigenetic inactivation also renders these gliomas sensitive to bioactivatable substrates of the stress-related enzyme NQO1. 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match their corresponding transcriptome profiles. One possible cause of this discrepancy is the existence of aberrant RNA modification landscapes in the so-called epitranscriptome. Here, we report that human glioma cells undergo DNA methylation-associated epigenetic silencing of NSUN5, a candidate RNA methyltransferase for 5-methylcytosine. In this setting, NSUN5 exhibits tumor-suppressor characteristics in vivo glioma models. We also found that NSUN5 loss generates an unmethylated status at the C3782 position of 28S rRNA that drives an overall depletion of protein synthesis, and leads to the emergence of an adaptive translational program for survival under conditions of cellular stress. Interestingly, NSUN5 epigenetic inactivation also renders these gliomas sensitive to bioactivatable substrates of the stress-related enzyme NQO1. Most importantly, NSUN5 epigenetic inactivation is a hallmark of glioma patients with long-term survival for this otherwise devastating disease.</abstract><pub>Springer Verlag</pub><tpages>22</tpages><oa>free_for_read</oa></addata></record>
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subjects	Avaluació de resultats (Assistència mèdica) Glioma Gliomas Methylation Metilació Outcome assessment (Medical care) RNA
title	Epigenetic loss of RNA‑methyltransferase NSUN5 in glioma targets ribosomes to drive stress adaptive translational program
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