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The paralogues MAGOH and MAGOHB are oncogenic factors in high-grade gliomas and safeguard the splicing of cell division and cell cycle genes

The exon junction complex (EJC) plays key roles throughout the lifespan of RNA and is particularly relevant in the nervous system. We investigated the roles of two EJC members, the paralogs MAGOH and MAGOHB, with respect to brain tumour development. High MAGOH/MAGOHB expression was observed in 14 tu...

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Published in:	RNA biology 2023-12, Vol.20 (1), p.311-322
Main Authors:	Barreiro, Rodrigo A. S., Guardia, Gabriela D. A., Meliso, Fabiana M., Lei, Xiufen, Li, Wei-Qing, Savio, Andre, Fellermeyer, Martin, Conceição, Helena B., Mercuri, Rafael L. V., Landry, Tesha, Qiao, Mei, Blazquez, Lorea, Ule, Jernej, Penalva, Luiz O.F., Galante, Pedro A. F.
Format:	Article
Language:	English
Subjects:	cancer genomics Cell Division Cell Nucleus - metabolism gene expression regulation Genes, cdc glioblastoma Glioblastoma - metabolism glioma Humans Nuclear Proteins - metabolism Research Paper RNA Splicing RNA-binding proteins splicing
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creator	Barreiro, Rodrigo A. S. Guardia, Gabriela D. A. Meliso, Fabiana M. Lei, Xiufen Li, Wei-Qing Savio, Andre Fellermeyer, Martin Conceição, Helena B. Mercuri, Rafael L. V. Landry, Tesha Qiao, Mei Blazquez, Lorea Ule, Jernej Penalva, Luiz O.F. Galante, Pedro A. F.
description	The exon junction complex (EJC) plays key roles throughout the lifespan of RNA and is particularly relevant in the nervous system. We investigated the roles of two EJC members, the paralogs MAGOH and MAGOHB, with respect to brain tumour development. High MAGOH/MAGOHB expression was observed in 14 tumour types; glioblastoma (GBM) showed the greatest difference compared to normal tissue. Increased MAGOH/MAGOHB expression was associated with poor prognosis in glioma patients, while knockdown of MAGOH/MAGOHB affected different cancer phenotypes. Reduced MAGOH/MAGOHB expression in GBM cells caused alterations in the splicing profile, including re-splicing and skipping of multiple exons. The binding profiles of EJC proteins indicated that exons affected by MAGOH/MAGOHB knockdown accumulated fewer complexes on average, providing a possible explanation for their sensitivity to MAGOH/MAGOHB knockdown. Transcripts (genes) showing alterations in the splicing profile are mainly implicated in cell division, cell cycle, splicing, and translation. We propose that high MAGOH/MAGOHB levels are required to safeguard the splicing of genes in high demand in scenarios requiring increased cell proliferation (brain development and GBM growth), ensuring efficient cell division, cell cycle regulation, and gene expression (splicing and translation). Since differentiated neuronal cells do not require increased MAGOH/MAGOHB expression, targeting these paralogs is a potential option for treating GBM.
doi_str_mv	10.1080/15476286.2023.2221511
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S. ; Guardia, Gabriela D. A. ; Meliso, Fabiana M. ; Lei, Xiufen ; Li, Wei-Qing ; Savio, Andre ; Fellermeyer, Martin ; Conceição, Helena B. ; Mercuri, Rafael L. V. ; Landry, Tesha ; Qiao, Mei ; Blazquez, Lorea ; Ule, Jernej ; Penalva, Luiz O.F. ; Galante, Pedro A. F.</creator><creatorcontrib>Barreiro, Rodrigo A. S. ; Guardia, Gabriela D. A. ; Meliso, Fabiana M. ; Lei, Xiufen ; Li, Wei-Qing ; Savio, Andre ; Fellermeyer, Martin ; Conceição, Helena B. ; Mercuri, Rafael L. V. ; Landry, Tesha ; Qiao, Mei ; Blazquez, Lorea ; Ule, Jernej ; Penalva, Luiz O.F. ; Galante, Pedro A. F.</creatorcontrib><description>The exon junction complex (EJC) plays key roles throughout the lifespan of RNA and is particularly relevant in the nervous system. We investigated the roles of two EJC members, the paralogs MAGOH and MAGOHB, with respect to brain tumour development. High MAGOH/MAGOHB expression was observed in 14 tumour types; glioblastoma (GBM) showed the greatest difference compared to normal tissue. Increased MAGOH/MAGOHB expression was associated with poor prognosis in glioma patients, while knockdown of MAGOH/MAGOHB affected different cancer phenotypes. Reduced MAGOH/MAGOHB expression in GBM cells caused alterations in the splicing profile, including re-splicing and skipping of multiple exons. The binding profiles of EJC proteins indicated that exons affected by MAGOH/MAGOHB knockdown accumulated fewer complexes on average, providing a possible explanation for their sensitivity to MAGOH/MAGOHB knockdown. Transcripts (genes) showing alterations in the splicing profile are mainly implicated in cell division, cell cycle, splicing, and translation. We propose that high MAGOH/MAGOHB levels are required to safeguard the splicing of genes in high demand in scenarios requiring increased cell proliferation (brain development and GBM growth), ensuring efficient cell division, cell cycle regulation, and gene expression (splicing and translation). 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F.</creatorcontrib><title>The paralogues MAGOH and MAGOHB are oncogenic factors in high-grade gliomas and safeguard the splicing of cell division and cell cycle genes</title><title>RNA biology</title><addtitle>RNA Biol</addtitle><description>The exon junction complex (EJC) plays key roles throughout the lifespan of RNA and is particularly relevant in the nervous system. We investigated the roles of two EJC members, the paralogs MAGOH and MAGOHB, with respect to brain tumour development. High MAGOH/MAGOHB expression was observed in 14 tumour types; glioblastoma (GBM) showed the greatest difference compared to normal tissue. Increased MAGOH/MAGOHB expression was associated with poor prognosis in glioma patients, while knockdown of MAGOH/MAGOHB affected different cancer phenotypes. Reduced MAGOH/MAGOHB expression in GBM cells caused alterations in the splicing profile, including re-splicing and skipping of multiple exons. 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Increased MAGOH/MAGOHB expression was associated with poor prognosis in glioma patients, while knockdown of MAGOH/MAGOHB affected different cancer phenotypes. Reduced MAGOH/MAGOHB expression in GBM cells caused alterations in the splicing profile, including re-splicing and skipping of multiple exons. The binding profiles of EJC proteins indicated that exons affected by MAGOH/MAGOHB knockdown accumulated fewer complexes on average, providing a possible explanation for their sensitivity to MAGOH/MAGOHB knockdown. Transcripts (genes) showing alterations in the splicing profile are mainly implicated in cell division, cell cycle, splicing, and translation. We propose that high MAGOH/MAGOHB levels are required to safeguard the splicing of genes in high demand in scenarios requiring increased cell proliferation (brain development and GBM growth), ensuring efficient cell division, cell cycle regulation, and gene expression (splicing and translation). 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subjects	cancer genomics Cell Division Cell Nucleus - metabolism gene expression regulation Genes, cdc glioblastoma Glioblastoma - metabolism glioma Humans Nuclear Proteins - metabolism Research Paper RNA Splicing RNA-binding proteins splicing
title	The paralogues MAGOH and MAGOHB are oncogenic factors in high-grade gliomas and safeguard the splicing of cell division and cell cycle genes
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