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Hereditary Xerocytosis: Differential Behavior of PIEZO1 Mutations in the N-Terminal Extracellular Domain Between Red Blood Cells and HEK Cells

Hereditary Xerocytosis, a rare hemolytic anemia, is due to gain of function mutations in PIEZO1, a non-selective cation channel activated by mechanical stress. How these PIEZO1 mutations impair channel function and alter red blood cell (RBC) physiology, is not completely understood. Here, we report...

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Autores principales: Yamaguchi, Yohei, Allegrini, Benoit, Rapetti-Mauss, Raphaël, Picard, Véronique, Garçon, Loïc, Kohl, Peter, Soriani, Olivier, Peyronnet, Rémi, Guizouarn, Hélène
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Frontiers Media S.A. 2021
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8562563/
https://www.ncbi.nlm.nih.gov/pubmed/34737711
http://dx.doi.org/10.3389/fphys.2021.736585
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author Yamaguchi, Yohei
Allegrini, Benoit
Rapetti-Mauss, Raphaël
Picard, Véronique
Garçon, Loïc
Kohl, Peter
Soriani, Olivier
Peyronnet, Rémi
Guizouarn, Hélène
author_facet Yamaguchi, Yohei
Allegrini, Benoit
Rapetti-Mauss, Raphaël
Picard, Véronique
Garçon, Loïc
Kohl, Peter
Soriani, Olivier
Peyronnet, Rémi
Guizouarn, Hélène
author_sort Yamaguchi, Yohei
collection PubMed
description Hereditary Xerocytosis, a rare hemolytic anemia, is due to gain of function mutations in PIEZO1, a non-selective cation channel activated by mechanical stress. How these PIEZO1 mutations impair channel function and alter red blood cell (RBC) physiology, is not completely understood. Here, we report the characterization of mutations in the N-terminal part of the protein (V598M, F681S and the double mutation G782S/R808Q), a part of the channel that was subject of many investigations to decipher its role in channel gating. Our data show that the electrophysiological features of these PIEZO1 mutants expressed in HEK293T cells are different from previously characterized PIEZO1 mutations that are located in the pore or at the C-terminal extracellular domain of the protein. Although RBC with PIEZO1 mutations showed a dehydrated phenotype, the activity of V598M, F681S or R808Q in response to stretch was not significantly different from the WT channels. In contrast, the G782S mutant showed larger currents compared to the WT PIEZO1. Interestingly, basal activity of all the mutated channels was not significantly altered at the opposite of what was expected according to the decreased water and cation contents of resting RBC. In addition, the features of mutant PIEZO1 expressed in HEK293 cells do not always correlate with the observation in RBC where PIEZO1 mutations induced a cation leak associated with an increased conductance. Our work emphasizes the role of the membrane environment in PIEZO1 activity and the need to characterize RBC permeability to assess pathogenicity to PIEZO1 mutants associated with erythrocyte diseases.
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spelling pubmed-85625632021-11-03 Hereditary Xerocytosis: Differential Behavior of PIEZO1 Mutations in the N-Terminal Extracellular Domain Between Red Blood Cells and HEK Cells Yamaguchi, Yohei Allegrini, Benoit Rapetti-Mauss, Raphaël Picard, Véronique Garçon, Loïc Kohl, Peter Soriani, Olivier Peyronnet, Rémi Guizouarn, Hélène Front Physiol Physiology Hereditary Xerocytosis, a rare hemolytic anemia, is due to gain of function mutations in PIEZO1, a non-selective cation channel activated by mechanical stress. How these PIEZO1 mutations impair channel function and alter red blood cell (RBC) physiology, is not completely understood. Here, we report the characterization of mutations in the N-terminal part of the protein (V598M, F681S and the double mutation G782S/R808Q), a part of the channel that was subject of many investigations to decipher its role in channel gating. Our data show that the electrophysiological features of these PIEZO1 mutants expressed in HEK293T cells are different from previously characterized PIEZO1 mutations that are located in the pore or at the C-terminal extracellular domain of the protein. Although RBC with PIEZO1 mutations showed a dehydrated phenotype, the activity of V598M, F681S or R808Q in response to stretch was not significantly different from the WT channels. In contrast, the G782S mutant showed larger currents compared to the WT PIEZO1. Interestingly, basal activity of all the mutated channels was not significantly altered at the opposite of what was expected according to the decreased water and cation contents of resting RBC. In addition, the features of mutant PIEZO1 expressed in HEK293 cells do not always correlate with the observation in RBC where PIEZO1 mutations induced a cation leak associated with an increased conductance. Our work emphasizes the role of the membrane environment in PIEZO1 activity and the need to characterize RBC permeability to assess pathogenicity to PIEZO1 mutants associated with erythrocyte diseases. Frontiers Media S.A. 2021-10-18 /pmc/articles/PMC8562563/ /pubmed/34737711 http://dx.doi.org/10.3389/fphys.2021.736585 Text en Copyright © 2021 Yamaguchi, Allegrini, Rapetti-Mauss, Picard, Garçon, Kohl, Soriani, Peyronnet and Guizouarn. https://creativecommons.org/licenses/by/4.0/This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner(s) are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.
spellingShingle Physiology
Yamaguchi, Yohei
Allegrini, Benoit
Rapetti-Mauss, Raphaël
Picard, Véronique
Garçon, Loïc
Kohl, Peter
Soriani, Olivier
Peyronnet, Rémi
Guizouarn, Hélène
Hereditary Xerocytosis: Differential Behavior of PIEZO1 Mutations in the N-Terminal Extracellular Domain Between Red Blood Cells and HEK Cells
title Hereditary Xerocytosis: Differential Behavior of PIEZO1 Mutations in the N-Terminal Extracellular Domain Between Red Blood Cells and HEK Cells
title_full Hereditary Xerocytosis: Differential Behavior of PIEZO1 Mutations in the N-Terminal Extracellular Domain Between Red Blood Cells and HEK Cells
title_fullStr Hereditary Xerocytosis: Differential Behavior of PIEZO1 Mutations in the N-Terminal Extracellular Domain Between Red Blood Cells and HEK Cells
title_full_unstemmed Hereditary Xerocytosis: Differential Behavior of PIEZO1 Mutations in the N-Terminal Extracellular Domain Between Red Blood Cells and HEK Cells
title_short Hereditary Xerocytosis: Differential Behavior of PIEZO1 Mutations in the N-Terminal Extracellular Domain Between Red Blood Cells and HEK Cells
title_sort hereditary xerocytosis: differential behavior of piezo1 mutations in the n-terminal extracellular domain between red blood cells and hek cells
topic Physiology
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8562563/
https://www.ncbi.nlm.nih.gov/pubmed/34737711
http://dx.doi.org/10.3389/fphys.2021.736585
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