The ribose methylation enzyme FTSJ1 has a conserved role in neuron morphology and learning performance

FTSJ1 is a conserved human 2′-O-methyltransferase (Nm-MTase) that modifies several tRNAs at position 32 and the wobble position 34 in the anticodon loop. Its loss of function has been linked to X-linked intellectual disability (XLID), and more recently to cancers. However, the molecular mechanisms u...

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Autores principales: Brazane, Mira, Dimitrova, Dilyana G, Pigeon, Julien, Paolantoni, Chiara, Ye, Tao, Marchand, Virginie, Da Silva, Bruno, Schaefer, Elise, Angelova, Margarita T, Stark, Zornitza, Delatycki, Martin, Dudding-Byth, Tracy, Gecz, Jozef, Plaçais, Pierre-Yves, Teysset, Laure, Préat, Thomas, Piton, Amélie, Hassan, Bassem A, Roignant, Jean-Yves, Motorin, Yuri, Carré, Clément
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Life Science Alliance LLC 2023
Materias:
Research Articles
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9889914/
https://www.ncbi.nlm.nih.gov/pubmed/36720500
http://dx.doi.org/10.26508/lsa.202201877
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author Brazane, Mira
Dimitrova, Dilyana G
Pigeon, Julien
Paolantoni, Chiara
Ye, Tao
Marchand, Virginie
Da Silva, Bruno
Schaefer, Elise
Angelova, Margarita T
Stark, Zornitza
Delatycki, Martin
Dudding-Byth, Tracy
Gecz, Jozef
Plaçais, Pierre-Yves
Teysset, Laure
Préat, Thomas
Piton, Amélie
Hassan, Bassem A
Roignant, Jean-Yves
Motorin, Yuri
Carré, Clément
author_facet Brazane, Mira
Dimitrova, Dilyana G
Pigeon, Julien
Paolantoni, Chiara
Ye, Tao
Marchand, Virginie
Da Silva, Bruno
Schaefer, Elise
Angelova, Margarita T
Stark, Zornitza
Delatycki, Martin
Dudding-Byth, Tracy
Gecz, Jozef
Plaçais, Pierre-Yves
Teysset, Laure
Préat, Thomas
Piton, Amélie
Hassan, Bassem A
Roignant, Jean-Yves
Motorin, Yuri
Carré, Clément
author_sort Brazane, Mira
collection PubMed
description FTSJ1 is a conserved human 2′-O-methyltransferase (Nm-MTase) that modifies several tRNAs at position 32 and the wobble position 34 in the anticodon loop. Its loss of function has been linked to X-linked intellectual disability (XLID), and more recently to cancers. However, the molecular mechanisms underlying these pathologies are currently unclear. Here, we report a novel FTSJ1 pathogenic variant from an X-linked intellectual disability patient. Using blood cells derived from this patient and other affected individuals carrying FTSJ1 mutations, we performed an unbiased and comprehensive RiboMethSeq analysis to map the ribose methylation on all human tRNAs and identify novel targets. In addition, we performed a transcriptome analysis in these cells and found that several genes previously associated with intellectual disability and cancers were deregulated. We also found changes in the miRNA population that suggest potential cross-regulation of some miRNAs with these key mRNA targets. Finally, we show that differentiation of FTSJ1-depleted human neural progenitor cells into neurons displays long and thin spine neurites compared with control cells. These defects are also observed in Drosophila and are associated with long-term memory deficits. Altogether, our study adds insight into FTSJ1 pathologies in humans and flies by the identification of novel FTSJ1 targets and the defect in neuron morphology.
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spelling pubmed-98899142023-02-02 The ribose methylation enzyme FTSJ1 has a conserved role in neuron morphology and learning performance Brazane, Mira Dimitrova, Dilyana G Pigeon, Julien Paolantoni, Chiara Ye, Tao Marchand, Virginie Da Silva, Bruno Schaefer, Elise Angelova, Margarita T Stark, Zornitza Delatycki, Martin Dudding-Byth, Tracy Gecz, Jozef Plaçais, Pierre-Yves Teysset, Laure Préat, Thomas Piton, Amélie Hassan, Bassem A Roignant, Jean-Yves Motorin, Yuri Carré, Clément Life Sci Alliance Research Articles FTSJ1 is a conserved human 2′-O-methyltransferase (Nm-MTase) that modifies several tRNAs at position 32 and the wobble position 34 in the anticodon loop. Its loss of function has been linked to X-linked intellectual disability (XLID), and more recently to cancers. However, the molecular mechanisms underlying these pathologies are currently unclear. Here, we report a novel FTSJ1 pathogenic variant from an X-linked intellectual disability patient. Using blood cells derived from this patient and other affected individuals carrying FTSJ1 mutations, we performed an unbiased and comprehensive RiboMethSeq analysis to map the ribose methylation on all human tRNAs and identify novel targets. In addition, we performed a transcriptome analysis in these cells and found that several genes previously associated with intellectual disability and cancers were deregulated. We also found changes in the miRNA population that suggest potential cross-regulation of some miRNAs with these key mRNA targets. Finally, we show that differentiation of FTSJ1-depleted human neural progenitor cells into neurons displays long and thin spine neurites compared with control cells. These defects are also observed in Drosophila and are associated with long-term memory deficits. Altogether, our study adds insight into FTSJ1 pathologies in humans and flies by the identification of novel FTSJ1 targets and the defect in neuron morphology. Life Science Alliance LLC 2023-01-31 /pmc/articles/PMC9889914/ /pubmed/36720500 http://dx.doi.org/10.26508/lsa.202201877 Text en © 2023 Brazane et al. https://creativecommons.org/licenses/by/4.0/This article is available under a Creative Commons License (Attribution 4.0 International, as described at https://creativecommons.org/licenses/by/4.0/).
spellingShingle Research Articles
Brazane, Mira
Dimitrova, Dilyana G
Pigeon, Julien
Paolantoni, Chiara
Ye, Tao
Marchand, Virginie
Da Silva, Bruno
Schaefer, Elise
Angelova, Margarita T
Stark, Zornitza
Delatycki, Martin
Dudding-Byth, Tracy
Gecz, Jozef
Plaçais, Pierre-Yves
Teysset, Laure
Préat, Thomas
Piton, Amélie
Hassan, Bassem A
Roignant, Jean-Yves
Motorin, Yuri
Carré, Clément
The ribose methylation enzyme FTSJ1 has a conserved role in neuron morphology and learning performance
title The ribose methylation enzyme FTSJ1 has a conserved role in neuron morphology and learning performance
title_full The ribose methylation enzyme FTSJ1 has a conserved role in neuron morphology and learning performance
title_fullStr The ribose methylation enzyme FTSJ1 has a conserved role in neuron morphology and learning performance
title_full_unstemmed The ribose methylation enzyme FTSJ1 has a conserved role in neuron morphology and learning performance
title_short The ribose methylation enzyme FTSJ1 has a conserved role in neuron morphology and learning performance
title_sort ribose methylation enzyme ftsj1 has a conserved role in neuron morphology and learning performance
topic Research Articles
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9889914/
https://www.ncbi.nlm.nih.gov/pubmed/36720500
http://dx.doi.org/10.26508/lsa.202201877
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