MINPP1 prevents intracellular accumulation of the chelator inositol hexakisphosphate and is mutated in Pontocerebellar Hypoplasia

Inositol polyphosphates are vital metabolic and secondary messengers, involved in diverse cellular functions. Therefore, tight regulation of inositol polyphosphate metabolism is essential for proper cell physiology. Here, we describe an early-onset neurodegenerative syndrome caused by loss-of-functi...

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Autores principales: Ucuncu, Ekin, Rajamani, Karthyayani, Wilson, Miranda S. C., Medina-Cano, Daniel, Altin, Nami, David, Pierre, Barcia, Giulia, Lefort, Nathalie, Banal, Céline, Vasilache-Dangles, Marie-Thérèse, Pitelet, Gaële, Lorino, Elsa, Rabasse, Nathalie, Bieth, Eric, Zaki, Maha S., Topcu, Meral, Sonmez, Fatma Mujgan, Musaev, Damir, Stanley, Valentina, Bole-Feysot, Christine, Nitschké, Patrick, Munnich, Arnold, Bahi-Buisson, Nadia, Fossoud, Catherine, Giuliano, Fabienne, Colleaux, Laurence, Burglen, Lydie, Gleeson, Joseph G., Boddaert, Nathalie, Saiardi, Adolfo, Cantagrel, Vincent
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Nature Publishing Group UK 2020
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7705663/
https://www.ncbi.nlm.nih.gov/pubmed/33257696
http://dx.doi.org/10.1038/s41467-020-19919-y
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author Ucuncu, Ekin
Rajamani, Karthyayani
Wilson, Miranda S. C.
Medina-Cano, Daniel
Altin, Nami
David, Pierre
Barcia, Giulia
Lefort, Nathalie
Banal, Céline
Vasilache-Dangles, Marie-Thérèse
Pitelet, Gaële
Lorino, Elsa
Rabasse, Nathalie
Bieth, Eric
Zaki, Maha S.
Topcu, Meral
Sonmez, Fatma Mujgan
Musaev, Damir
Stanley, Valentina
Bole-Feysot, Christine
Nitschké, Patrick
Munnich, Arnold
Bahi-Buisson, Nadia
Fossoud, Catherine
Giuliano, Fabienne
Colleaux, Laurence
Burglen, Lydie
Gleeson, Joseph G.
Boddaert, Nathalie
Saiardi, Adolfo
Cantagrel, Vincent
author_facet Ucuncu, Ekin
Rajamani, Karthyayani
Wilson, Miranda S. C.
Medina-Cano, Daniel
Altin, Nami
David, Pierre
Barcia, Giulia
Lefort, Nathalie
Banal, Céline
Vasilache-Dangles, Marie-Thérèse
Pitelet, Gaële
Lorino, Elsa
Rabasse, Nathalie
Bieth, Eric
Zaki, Maha S.
Topcu, Meral
Sonmez, Fatma Mujgan
Musaev, Damir
Stanley, Valentina
Bole-Feysot, Christine
Nitschké, Patrick
Munnich, Arnold
Bahi-Buisson, Nadia
Fossoud, Catherine
Giuliano, Fabienne
Colleaux, Laurence
Burglen, Lydie
Gleeson, Joseph G.
Boddaert, Nathalie
Saiardi, Adolfo
Cantagrel, Vincent
author_sort Ucuncu, Ekin
collection PubMed
description Inositol polyphosphates are vital metabolic and secondary messengers, involved in diverse cellular functions. Therefore, tight regulation of inositol polyphosphate metabolism is essential for proper cell physiology. Here, we describe an early-onset neurodegenerative syndrome caused by loss-of-function mutations in the multiple inositol-polyphosphate phosphatase 1 gene (MINPP1). Patients are found to have a distinct type of Pontocerebellar Hypoplasia with typical basal ganglia involvement on neuroimaging. We find that patient-derived and genome edited MINPP1(−/−) induced stem cells exhibit an inefficient neuronal differentiation combined with an increased cell death. MINPP1 deficiency results in an intracellular imbalance of the inositol polyphosphate metabolism. This metabolic defect is characterized by an accumulation of highly phosphorylated inositols, mostly inositol hexakisphosphate (IP(6)), detected in HEK293 cells, fibroblasts, iPSCs and differentiating neurons lacking MINPP1. In mutant cells, higher IP(6) level is expected to be associated with an increased chelation of intracellular cations, such as iron or calcium, resulting in decreased levels of available ions. These data suggest the involvement of IP(6)-mediated chelation on Pontocerebellar Hypoplasia disease pathology and thereby highlight the critical role of MINPP1 in the regulation of human brain development and homeostasis.
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spelling pubmed-77056632020-12-03 MINPP1 prevents intracellular accumulation of the chelator inositol hexakisphosphate and is mutated in Pontocerebellar Hypoplasia Ucuncu, Ekin Rajamani, Karthyayani Wilson, Miranda S. C. Medina-Cano, Daniel Altin, Nami David, Pierre Barcia, Giulia Lefort, Nathalie Banal, Céline Vasilache-Dangles, Marie-Thérèse Pitelet, Gaële Lorino, Elsa Rabasse, Nathalie Bieth, Eric Zaki, Maha S. Topcu, Meral Sonmez, Fatma Mujgan Musaev, Damir Stanley, Valentina Bole-Feysot, Christine Nitschké, Patrick Munnich, Arnold Bahi-Buisson, Nadia Fossoud, Catherine Giuliano, Fabienne Colleaux, Laurence Burglen, Lydie Gleeson, Joseph G. Boddaert, Nathalie Saiardi, Adolfo Cantagrel, Vincent Nat Commun Article Inositol polyphosphates are vital metabolic and secondary messengers, involved in diverse cellular functions. Therefore, tight regulation of inositol polyphosphate metabolism is essential for proper cell physiology. Here, we describe an early-onset neurodegenerative syndrome caused by loss-of-function mutations in the multiple inositol-polyphosphate phosphatase 1 gene (MINPP1). Patients are found to have a distinct type of Pontocerebellar Hypoplasia with typical basal ganglia involvement on neuroimaging. We find that patient-derived and genome edited MINPP1(−/−) induced stem cells exhibit an inefficient neuronal differentiation combined with an increased cell death. MINPP1 deficiency results in an intracellular imbalance of the inositol polyphosphate metabolism. This metabolic defect is characterized by an accumulation of highly phosphorylated inositols, mostly inositol hexakisphosphate (IP(6)), detected in HEK293 cells, fibroblasts, iPSCs and differentiating neurons lacking MINPP1. In mutant cells, higher IP(6) level is expected to be associated with an increased chelation of intracellular cations, such as iron or calcium, resulting in decreased levels of available ions. These data suggest the involvement of IP(6)-mediated chelation on Pontocerebellar Hypoplasia disease pathology and thereby highlight the critical role of MINPP1 in the regulation of human brain development and homeostasis. Nature Publishing Group UK 2020-11-30 /pmc/articles/PMC7705663/ /pubmed/33257696 http://dx.doi.org/10.1038/s41467-020-19919-y Text en © The Author(s) 2020 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 license, and indicate if changes were made. The images or other third party material in this article are included in the article’s Creative Commons license, unless indicated otherwise in a credit line to the material. If material is not included in the article’s Creative Commons license 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 license, visit http://creativecommons.org/licenses/by/4.0/.
spellingShingle Article
Ucuncu, Ekin
Rajamani, Karthyayani
Wilson, Miranda S. C.
Medina-Cano, Daniel
Altin, Nami
David, Pierre
Barcia, Giulia
Lefort, Nathalie
Banal, Céline
Vasilache-Dangles, Marie-Thérèse
Pitelet, Gaële
Lorino, Elsa
Rabasse, Nathalie
Bieth, Eric
Zaki, Maha S.
Topcu, Meral
Sonmez, Fatma Mujgan
Musaev, Damir
Stanley, Valentina
Bole-Feysot, Christine
Nitschké, Patrick
Munnich, Arnold
Bahi-Buisson, Nadia
Fossoud, Catherine
Giuliano, Fabienne
Colleaux, Laurence
Burglen, Lydie
Gleeson, Joseph G.
Boddaert, Nathalie
Saiardi, Adolfo
Cantagrel, Vincent
MINPP1 prevents intracellular accumulation of the chelator inositol hexakisphosphate and is mutated in Pontocerebellar Hypoplasia
title MINPP1 prevents intracellular accumulation of the chelator inositol hexakisphosphate and is mutated in Pontocerebellar Hypoplasia
title_full MINPP1 prevents intracellular accumulation of the chelator inositol hexakisphosphate and is mutated in Pontocerebellar Hypoplasia
title_fullStr MINPP1 prevents intracellular accumulation of the chelator inositol hexakisphosphate and is mutated in Pontocerebellar Hypoplasia
title_full_unstemmed MINPP1 prevents intracellular accumulation of the chelator inositol hexakisphosphate and is mutated in Pontocerebellar Hypoplasia
title_short MINPP1 prevents intracellular accumulation of the chelator inositol hexakisphosphate and is mutated in Pontocerebellar Hypoplasia
title_sort minpp1 prevents intracellular accumulation of the chelator inositol hexakisphosphate and is mutated in pontocerebellar hypoplasia
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7705663/
https://www.ncbi.nlm.nih.gov/pubmed/33257696
http://dx.doi.org/10.1038/s41467-020-19919-y
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