Cargando…
A loss-of-function mutation in human Oxidation Resistance 1 disrupts the spatial–temporal regulation of histone arginine methylation in neurodevelopment
BACKGROUND: Oxidation Resistance 1 (OXR1) gene is a highly conserved gene of the TLDc domain-containing family. OXR1 is involved in fundamental biological and cellular processes, including DNA damage response, antioxidant pathways, cell cycle, neuronal protection, and arginine methylation. In 2019,...
| Autores principales: | , , , , , , , , , , , , , , , , , , , , , , , , , , , , |
|---|---|
| Formato: | Online Artículo Texto |
| Lenguaje: | English |
| Publicado: |
BioMed Central
2023
|
| Materias: | |
| Acceso en línea: | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10540402/ https://www.ncbi.nlm.nih.gov/pubmed/37773136 http://dx.doi.org/10.1186/s13059-023-03037-1 |
| _version_ | 1785113709134217216 |
|---|---|
| author | Lin, Xiaolin Wang, Wei Yang, Mingyi Damseh, Nadirah de Sousa, Mirta Mittelstedt Leal Jacob, Fadi Lång, Anna Kristiansen, Elise Pannone, Marco Kissova, Miroslava Almaas, Runar Kuśnierczyk, Anna Siller, Richard Shahrour, Maher Al-Ashhab, Motee Abu-Libdeh, Bassam Tang, Wannan Slupphaug, Geir Elpeleg, Orly Bøe, Stig Ove Eide, Lars Sullivan, Gareth J. Rinholm, Johanne Egge Song, Hongjun Ming, Guo-li van Loon, Barbara Edvardson, Simon Ye, Jing Bjørås, Magnar |
| author_facet | Lin, Xiaolin Wang, Wei Yang, Mingyi Damseh, Nadirah de Sousa, Mirta Mittelstedt Leal Jacob, Fadi Lång, Anna Kristiansen, Elise Pannone, Marco Kissova, Miroslava Almaas, Runar Kuśnierczyk, Anna Siller, Richard Shahrour, Maher Al-Ashhab, Motee Abu-Libdeh, Bassam Tang, Wannan Slupphaug, Geir Elpeleg, Orly Bøe, Stig Ove Eide, Lars Sullivan, Gareth J. Rinholm, Johanne Egge Song, Hongjun Ming, Guo-li van Loon, Barbara Edvardson, Simon Ye, Jing Bjørås, Magnar |
| author_sort | Lin, Xiaolin |
| collection | PubMed |
| description | BACKGROUND: Oxidation Resistance 1 (OXR1) gene is a highly conserved gene of the TLDc domain-containing family. OXR1 is involved in fundamental biological and cellular processes, including DNA damage response, antioxidant pathways, cell cycle, neuronal protection, and arginine methylation. In 2019, five patients from three families carrying four biallelic loss-of-function variants in OXR1 were reported to be associated with cerebellar atrophy. However, the impact of OXR1 on cellular functions and molecular mechanisms in the human brain is largely unknown. Notably, no human disease models are available to explore the pathological impact of OXR1 deficiency. RESULTS: We report a novel loss-of-function mutation in the TLDc domain of the human OXR1 gene, resulting in early-onset epilepsy, developmental delay, cognitive disabilities, and cerebellar atrophy. Patient lymphoblasts show impaired cell survival, proliferation, and hypersensitivity to oxidative stress. These phenotypes are rescued by TLDc domain replacement. We generate patient-derived induced pluripotent stem cells (iPSCs) revealing impaired neural differentiation along with dysregulation of genes essential for neurodevelopment. We identify that OXR1 influences histone arginine methylation by activating protein arginine methyltransferases (PRMTs), suggesting OXR1-dependent mechanisms regulating gene expression during neurodevelopment. We model the function of OXR1 in early human brain development using patient-derived brain organoids revealing that OXR1 contributes to the spatial–temporal regulation of histone arginine methylation in specific brain regions. CONCLUSIONS: This study provides new insights into pathological features and molecular underpinnings associated with OXR1 deficiency in patients. SUPPLEMENTARY INFORMATION: The online version contains supplementary material available at 10.1186/s13059-023-03037-1. |
| format | Online Article Text |
| id | pubmed-10540402 |
| institution | National Center for Biotechnology Information |
| language | English |
| publishDate | 2023 |
| publisher | BioMed Central |
| record_format | MEDLINE/PubMed |
| spelling | pubmed-105404022023-09-30 A loss-of-function mutation in human Oxidation Resistance 1 disrupts the spatial–temporal regulation of histone arginine methylation in neurodevelopment Lin, Xiaolin Wang, Wei Yang, Mingyi Damseh, Nadirah de Sousa, Mirta Mittelstedt Leal Jacob, Fadi Lång, Anna Kristiansen, Elise Pannone, Marco Kissova, Miroslava Almaas, Runar Kuśnierczyk, Anna Siller, Richard Shahrour, Maher Al-Ashhab, Motee Abu-Libdeh, Bassam Tang, Wannan Slupphaug, Geir Elpeleg, Orly Bøe, Stig Ove Eide, Lars Sullivan, Gareth J. Rinholm, Johanne Egge Song, Hongjun Ming, Guo-li van Loon, Barbara Edvardson, Simon Ye, Jing Bjørås, Magnar Genome Biol Research BACKGROUND: Oxidation Resistance 1 (OXR1) gene is a highly conserved gene of the TLDc domain-containing family. OXR1 is involved in fundamental biological and cellular processes, including DNA damage response, antioxidant pathways, cell cycle, neuronal protection, and arginine methylation. In 2019, five patients from three families carrying four biallelic loss-of-function variants in OXR1 were reported to be associated with cerebellar atrophy. However, the impact of OXR1 on cellular functions and molecular mechanisms in the human brain is largely unknown. Notably, no human disease models are available to explore the pathological impact of OXR1 deficiency. RESULTS: We report a novel loss-of-function mutation in the TLDc domain of the human OXR1 gene, resulting in early-onset epilepsy, developmental delay, cognitive disabilities, and cerebellar atrophy. Patient lymphoblasts show impaired cell survival, proliferation, and hypersensitivity to oxidative stress. These phenotypes are rescued by TLDc domain replacement. We generate patient-derived induced pluripotent stem cells (iPSCs) revealing impaired neural differentiation along with dysregulation of genes essential for neurodevelopment. We identify that OXR1 influences histone arginine methylation by activating protein arginine methyltransferases (PRMTs), suggesting OXR1-dependent mechanisms regulating gene expression during neurodevelopment. We model the function of OXR1 in early human brain development using patient-derived brain organoids revealing that OXR1 contributes to the spatial–temporal regulation of histone arginine methylation in specific brain regions. CONCLUSIONS: This study provides new insights into pathological features and molecular underpinnings associated with OXR1 deficiency in patients. SUPPLEMENTARY INFORMATION: The online version contains supplementary material available at 10.1186/s13059-023-03037-1. BioMed Central 2023-09-29 /pmc/articles/PMC10540402/ /pubmed/37773136 http://dx.doi.org/10.1186/s13059-023-03037-1 Text en © The Author(s) 2023 https://creativecommons.org/licenses/by/4.0/Open Access This article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons licence, and indicate if changes were made. The images or other third party material in this article are included in the article's Creative Commons licence, unless indicated otherwise in a credit line to the material. If material is not included in the article's Creative Commons licence and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this licence, visit http://creativecommons.org/licenses/by/4.0/ (https://creativecommons.org/licenses/by/4.0/) . The Creative Commons Public Domain Dedication waiver (http://creativecommons.org/publicdomain/zero/1.0/ (https://creativecommons.org/publicdomain/zero/1.0/) ) applies to the data made available in this article, unless otherwise stated in a credit line to the data. |
| spellingShingle | Research Lin, Xiaolin Wang, Wei Yang, Mingyi Damseh, Nadirah de Sousa, Mirta Mittelstedt Leal Jacob, Fadi Lång, Anna Kristiansen, Elise Pannone, Marco Kissova, Miroslava Almaas, Runar Kuśnierczyk, Anna Siller, Richard Shahrour, Maher Al-Ashhab, Motee Abu-Libdeh, Bassam Tang, Wannan Slupphaug, Geir Elpeleg, Orly Bøe, Stig Ove Eide, Lars Sullivan, Gareth J. Rinholm, Johanne Egge Song, Hongjun Ming, Guo-li van Loon, Barbara Edvardson, Simon Ye, Jing Bjørås, Magnar A loss-of-function mutation in human Oxidation Resistance 1 disrupts the spatial–temporal regulation of histone arginine methylation in neurodevelopment |
| title | A loss-of-function mutation in human Oxidation Resistance 1 disrupts the spatial–temporal regulation of histone arginine methylation in neurodevelopment |
| title_full | A loss-of-function mutation in human Oxidation Resistance 1 disrupts the spatial–temporal regulation of histone arginine methylation in neurodevelopment |
| title_fullStr | A loss-of-function mutation in human Oxidation Resistance 1 disrupts the spatial–temporal regulation of histone arginine methylation in neurodevelopment |
| title_full_unstemmed | A loss-of-function mutation in human Oxidation Resistance 1 disrupts the spatial–temporal regulation of histone arginine methylation in neurodevelopment |
| title_short | A loss-of-function mutation in human Oxidation Resistance 1 disrupts the spatial–temporal regulation of histone arginine methylation in neurodevelopment |
| title_sort | loss-of-function mutation in human oxidation resistance 1 disrupts the spatial–temporal regulation of histone arginine methylation in neurodevelopment |
| topic | Research |
| url | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10540402/ https://www.ncbi.nlm.nih.gov/pubmed/37773136 http://dx.doi.org/10.1186/s13059-023-03037-1 |
| work_keys_str_mv | AT linxiaolin alossoffunctionmutationinhumanoxidationresistance1disruptsthespatialtemporalregulationofhistoneargininemethylationinneurodevelopment AT wangwei alossoffunctionmutationinhumanoxidationresistance1disruptsthespatialtemporalregulationofhistoneargininemethylationinneurodevelopment AT yangmingyi alossoffunctionmutationinhumanoxidationresistance1disruptsthespatialtemporalregulationofhistoneargininemethylationinneurodevelopment AT damsehnadirah alossoffunctionmutationinhumanoxidationresistance1disruptsthespatialtemporalregulationofhistoneargininemethylationinneurodevelopment AT desousamirtamittelstedtleal alossoffunctionmutationinhumanoxidationresistance1disruptsthespatialtemporalregulationofhistoneargininemethylationinneurodevelopment AT jacobfadi alossoffunctionmutationinhumanoxidationresistance1disruptsthespatialtemporalregulationofhistoneargininemethylationinneurodevelopment AT langanna alossoffunctionmutationinhumanoxidationresistance1disruptsthespatialtemporalregulationofhistoneargininemethylationinneurodevelopment AT kristiansenelise alossoffunctionmutationinhumanoxidationresistance1disruptsthespatialtemporalregulationofhistoneargininemethylationinneurodevelopment AT pannonemarco alossoffunctionmutationinhumanoxidationresistance1disruptsthespatialtemporalregulationofhistoneargininemethylationinneurodevelopment AT kissovamiroslava alossoffunctionmutationinhumanoxidationresistance1disruptsthespatialtemporalregulationofhistoneargininemethylationinneurodevelopment AT almaasrunar alossoffunctionmutationinhumanoxidationresistance1disruptsthespatialtemporalregulationofhistoneargininemethylationinneurodevelopment AT kusnierczykanna alossoffunctionmutationinhumanoxidationresistance1disruptsthespatialtemporalregulationofhistoneargininemethylationinneurodevelopment AT sillerrichard alossoffunctionmutationinhumanoxidationresistance1disruptsthespatialtemporalregulationofhistoneargininemethylationinneurodevelopment AT shahrourmaher alossoffunctionmutationinhumanoxidationresistance1disruptsthespatialtemporalregulationofhistoneargininemethylationinneurodevelopment AT alashhabmotee alossoffunctionmutationinhumanoxidationresistance1disruptsthespatialtemporalregulationofhistoneargininemethylationinneurodevelopment AT abulibdehbassam alossoffunctionmutationinhumanoxidationresistance1disruptsthespatialtemporalregulationofhistoneargininemethylationinneurodevelopment AT tangwannan alossoffunctionmutationinhumanoxidationresistance1disruptsthespatialtemporalregulationofhistoneargininemethylationinneurodevelopment AT slupphauggeir alossoffunctionmutationinhumanoxidationresistance1disruptsthespatialtemporalregulationofhistoneargininemethylationinneurodevelopment AT elpelegorly alossoffunctionmutationinhumanoxidationresistance1disruptsthespatialtemporalregulationofhistoneargininemethylationinneurodevelopment AT bøestigove alossoffunctionmutationinhumanoxidationresistance1disruptsthespatialtemporalregulationofhistoneargininemethylationinneurodevelopment AT eidelars alossoffunctionmutationinhumanoxidationresistance1disruptsthespatialtemporalregulationofhistoneargininemethylationinneurodevelopment AT sullivangarethj alossoffunctionmutationinhumanoxidationresistance1disruptsthespatialtemporalregulationofhistoneargininemethylationinneurodevelopment AT rinholmjohanneegge alossoffunctionmutationinhumanoxidationresistance1disruptsthespatialtemporalregulationofhistoneargininemethylationinneurodevelopment AT songhongjun alossoffunctionmutationinhumanoxidationresistance1disruptsthespatialtemporalregulationofhistoneargininemethylationinneurodevelopment AT mingguoli alossoffunctionmutationinhumanoxidationresistance1disruptsthespatialtemporalregulationofhistoneargininemethylationinneurodevelopment AT vanloonbarbara alossoffunctionmutationinhumanoxidationresistance1disruptsthespatialtemporalregulationofhistoneargininemethylationinneurodevelopment AT edvardsonsimon alossoffunctionmutationinhumanoxidationresistance1disruptsthespatialtemporalregulationofhistoneargininemethylationinneurodevelopment AT yejing alossoffunctionmutationinhumanoxidationresistance1disruptsthespatialtemporalregulationofhistoneargininemethylationinneurodevelopment AT bjørasmagnar alossoffunctionmutationinhumanoxidationresistance1disruptsthespatialtemporalregulationofhistoneargininemethylationinneurodevelopment AT linxiaolin lossoffunctionmutationinhumanoxidationresistance1disruptsthespatialtemporalregulationofhistoneargininemethylationinneurodevelopment AT wangwei lossoffunctionmutationinhumanoxidationresistance1disruptsthespatialtemporalregulationofhistoneargininemethylationinneurodevelopment AT yangmingyi lossoffunctionmutationinhumanoxidationresistance1disruptsthespatialtemporalregulationofhistoneargininemethylationinneurodevelopment AT damsehnadirah lossoffunctionmutationinhumanoxidationresistance1disruptsthespatialtemporalregulationofhistoneargininemethylationinneurodevelopment AT desousamirtamittelstedtleal lossoffunctionmutationinhumanoxidationresistance1disruptsthespatialtemporalregulationofhistoneargininemethylationinneurodevelopment AT jacobfadi lossoffunctionmutationinhumanoxidationresistance1disruptsthespatialtemporalregulationofhistoneargininemethylationinneurodevelopment AT langanna lossoffunctionmutationinhumanoxidationresistance1disruptsthespatialtemporalregulationofhistoneargininemethylationinneurodevelopment AT kristiansenelise lossoffunctionmutationinhumanoxidationresistance1disruptsthespatialtemporalregulationofhistoneargininemethylationinneurodevelopment AT pannonemarco lossoffunctionmutationinhumanoxidationresistance1disruptsthespatialtemporalregulationofhistoneargininemethylationinneurodevelopment AT kissovamiroslava lossoffunctionmutationinhumanoxidationresistance1disruptsthespatialtemporalregulationofhistoneargininemethylationinneurodevelopment AT almaasrunar lossoffunctionmutationinhumanoxidationresistance1disruptsthespatialtemporalregulationofhistoneargininemethylationinneurodevelopment AT kusnierczykanna lossoffunctionmutationinhumanoxidationresistance1disruptsthespatialtemporalregulationofhistoneargininemethylationinneurodevelopment AT sillerrichard lossoffunctionmutationinhumanoxidationresistance1disruptsthespatialtemporalregulationofhistoneargininemethylationinneurodevelopment AT shahrourmaher lossoffunctionmutationinhumanoxidationresistance1disruptsthespatialtemporalregulationofhistoneargininemethylationinneurodevelopment AT alashhabmotee lossoffunctionmutationinhumanoxidationresistance1disruptsthespatialtemporalregulationofhistoneargininemethylationinneurodevelopment AT abulibdehbassam lossoffunctionmutationinhumanoxidationresistance1disruptsthespatialtemporalregulationofhistoneargininemethylationinneurodevelopment AT tangwannan lossoffunctionmutationinhumanoxidationresistance1disruptsthespatialtemporalregulationofhistoneargininemethylationinneurodevelopment AT slupphauggeir lossoffunctionmutationinhumanoxidationresistance1disruptsthespatialtemporalregulationofhistoneargininemethylationinneurodevelopment AT elpelegorly lossoffunctionmutationinhumanoxidationresistance1disruptsthespatialtemporalregulationofhistoneargininemethylationinneurodevelopment AT bøestigove lossoffunctionmutationinhumanoxidationresistance1disruptsthespatialtemporalregulationofhistoneargininemethylationinneurodevelopment AT eidelars lossoffunctionmutationinhumanoxidationresistance1disruptsthespatialtemporalregulationofhistoneargininemethylationinneurodevelopment AT sullivangarethj lossoffunctionmutationinhumanoxidationresistance1disruptsthespatialtemporalregulationofhistoneargininemethylationinneurodevelopment AT rinholmjohanneegge lossoffunctionmutationinhumanoxidationresistance1disruptsthespatialtemporalregulationofhistoneargininemethylationinneurodevelopment AT songhongjun lossoffunctionmutationinhumanoxidationresistance1disruptsthespatialtemporalregulationofhistoneargininemethylationinneurodevelopment AT mingguoli lossoffunctionmutationinhumanoxidationresistance1disruptsthespatialtemporalregulationofhistoneargininemethylationinneurodevelopment AT vanloonbarbara lossoffunctionmutationinhumanoxidationresistance1disruptsthespatialtemporalregulationofhistoneargininemethylationinneurodevelopment AT edvardsonsimon lossoffunctionmutationinhumanoxidationresistance1disruptsthespatialtemporalregulationofhistoneargininemethylationinneurodevelopment AT yejing lossoffunctionmutationinhumanoxidationresistance1disruptsthespatialtemporalregulationofhistoneargininemethylationinneurodevelopment AT bjørasmagnar lossoffunctionmutationinhumanoxidationresistance1disruptsthespatialtemporalregulationofhistoneargininemethylationinneurodevelopment |