An epilepsy-associated K(V)1.2 charge-transfer-center mutation impairs K(V)1.2 and K(V)1.4 trafficking

We report on a heterozygous KCNA2 variant in a child with epilepsy. KCNA2 encodes K(V)1.2 subunits, which form homotetrameric potassium channels and participate in heterotetrameric channel complexes with other K(V)1-family subunits, regulating neuronal excitability. The mutation causes substitution...

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Autores principales: Nilsson, Michelle, Lindström, Sarah H., Kaneko, Maki, Wang, Kaiqian, Minguez-Viñas, Teresa, Angelini, Marina, Steccanella, Federica, Holder, Deborah, Ottolia, Michela, Olcese, Riccardo, Pantazis, Antonios
Formato: Online Artículo Texto
Lenguaje:English
Publicado: National Academy of Sciences 2022
Materias:
Biological Sciences
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9169947/
https://www.ncbi.nlm.nih.gov/pubmed/35439054
http://dx.doi.org/10.1073/pnas.2113675119
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author Nilsson, Michelle
Lindström, Sarah H.
Kaneko, Maki
Wang, Kaiqian
Minguez-Viñas, Teresa
Angelini, Marina
Steccanella, Federica
Holder, Deborah
Ottolia, Michela
Olcese, Riccardo
Pantazis, Antonios
author_facet Nilsson, Michelle
Lindström, Sarah H.
Kaneko, Maki
Wang, Kaiqian
Minguez-Viñas, Teresa
Angelini, Marina
Steccanella, Federica
Holder, Deborah
Ottolia, Michela
Olcese, Riccardo
Pantazis, Antonios
author_sort Nilsson, Michelle
collection PubMed
description We report on a heterozygous KCNA2 variant in a child with epilepsy. KCNA2 encodes K(V)1.2 subunits, which form homotetrameric potassium channels and participate in heterotetrameric channel complexes with other K(V)1-family subunits, regulating neuronal excitability. The mutation causes substitution F233S at the K(V)1.2 charge transfer center of the voltage-sensing domain. Immunocytochemical trafficking assays showed that K(V)1.2(F233S) subunits are trafficking deficient and reduce the surface expression of wild-type K(V)1.2 and K(V)1.4: a dominant-negative phenotype extending beyond KCNA2, likely profoundly perturbing electrical signaling. Yet some K(V)1.2(F233S) trafficking was rescued by wild-type K(V)1.2 and K(V)1.4 subunits, likely in permissible heterotetrameric stoichiometries: electrophysiological studies utilizing applied transcriptomics and concatemer constructs support that up to one or two K(V)1.2(F233S) subunits can participate in trafficking-capable heterotetramers with wild-type K(V)1.2 or K(V)1.4, respectively, and that both early and late events along the biosynthesis and secretion pathway impair trafficking. These studies suggested that F233S causes a depolarizing shift of ∼48 mV on K(V)1.2 voltage dependence. Optical tracking of the K(V)1.2(F233S) voltage-sensing domain (rescued by wild-type K(V)1.2 or K(V)1.4) revealed that it operates with modestly perturbed voltage dependence and retains pore coupling, evidenced by off-charge immobilization. The equivalent mutation in the Shaker K(+) channel (F290S) was reported to modestly affect trafficking and strongly affect function: an ∼80-mV depolarizing shift, disrupted voltage sensor activation and pore coupling. Our work exposes the multigenic, molecular etiology of a variant associated with epilepsy and reveals that charge-transfer-center disruption has different effects in K(V)1.2 and Shaker, the archetypes for potassium channel structure and function.
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spelling pubmed-91699472022-06-07 An epilepsy-associated K(V)1.2 charge-transfer-center mutation impairs K(V)1.2 and K(V)1.4 trafficking Nilsson, Michelle Lindström, Sarah H. Kaneko, Maki Wang, Kaiqian Minguez-Viñas, Teresa Angelini, Marina Steccanella, Federica Holder, Deborah Ottolia, Michela Olcese, Riccardo Pantazis, Antonios Proc Natl Acad Sci U S A Biological Sciences We report on a heterozygous KCNA2 variant in a child with epilepsy. KCNA2 encodes K(V)1.2 subunits, which form homotetrameric potassium channels and participate in heterotetrameric channel complexes with other K(V)1-family subunits, regulating neuronal excitability. The mutation causes substitution F233S at the K(V)1.2 charge transfer center of the voltage-sensing domain. Immunocytochemical trafficking assays showed that K(V)1.2(F233S) subunits are trafficking deficient and reduce the surface expression of wild-type K(V)1.2 and K(V)1.4: a dominant-negative phenotype extending beyond KCNA2, likely profoundly perturbing electrical signaling. Yet some K(V)1.2(F233S) trafficking was rescued by wild-type K(V)1.2 and K(V)1.4 subunits, likely in permissible heterotetrameric stoichiometries: electrophysiological studies utilizing applied transcriptomics and concatemer constructs support that up to one or two K(V)1.2(F233S) subunits can participate in trafficking-capable heterotetramers with wild-type K(V)1.2 or K(V)1.4, respectively, and that both early and late events along the biosynthesis and secretion pathway impair trafficking. These studies suggested that F233S causes a depolarizing shift of ∼48 mV on K(V)1.2 voltage dependence. Optical tracking of the K(V)1.2(F233S) voltage-sensing domain (rescued by wild-type K(V)1.2 or K(V)1.4) revealed that it operates with modestly perturbed voltage dependence and retains pore coupling, evidenced by off-charge immobilization. The equivalent mutation in the Shaker K(+) channel (F290S) was reported to modestly affect trafficking and strongly affect function: an ∼80-mV depolarizing shift, disrupted voltage sensor activation and pore coupling. Our work exposes the multigenic, molecular etiology of a variant associated with epilepsy and reveals that charge-transfer-center disruption has different effects in K(V)1.2 and Shaker, the archetypes for potassium channel structure and function. National Academy of Sciences 2022-04-19 2022-04-26 /pmc/articles/PMC9169947/ /pubmed/35439054 http://dx.doi.org/10.1073/pnas.2113675119 Text en Copyright © 2022 the Author(s). Published by PNAS. https://creativecommons.org/licenses/by/4.0/This open access article is distributed under Creative Commons Attribution License 4.0 (CC BY) (https://creativecommons.org/licenses/by/4.0/) .
spellingShingle Biological Sciences
Nilsson, Michelle
Lindström, Sarah H.
Kaneko, Maki
Wang, Kaiqian
Minguez-Viñas, Teresa
Angelini, Marina
Steccanella, Federica
Holder, Deborah
Ottolia, Michela
Olcese, Riccardo
Pantazis, Antonios
An epilepsy-associated K(V)1.2 charge-transfer-center mutation impairs K(V)1.2 and K(V)1.4 trafficking
title An epilepsy-associated K(V)1.2 charge-transfer-center mutation impairs K(V)1.2 and K(V)1.4 trafficking
title_full An epilepsy-associated K(V)1.2 charge-transfer-center mutation impairs K(V)1.2 and K(V)1.4 trafficking
title_fullStr An epilepsy-associated K(V)1.2 charge-transfer-center mutation impairs K(V)1.2 and K(V)1.4 trafficking
title_full_unstemmed An epilepsy-associated K(V)1.2 charge-transfer-center mutation impairs K(V)1.2 and K(V)1.4 trafficking
title_short An epilepsy-associated K(V)1.2 charge-transfer-center mutation impairs K(V)1.2 and K(V)1.4 trafficking
title_sort epilepsy-associated k(v)1.2 charge-transfer-center mutation impairs k(v)1.2 and k(v)1.4 trafficking
topic Biological Sciences
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9169947/
https://www.ncbi.nlm.nih.gov/pubmed/35439054
http://dx.doi.org/10.1073/pnas.2113675119
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