A truncated Kv1.1 protein in the brain of the megencephaly mouse: expression and interaction

BACKGROUND: The megencephaly mouse, mceph/mceph, is epileptic and displays a dramatically increased brain volume and neuronal count. The responsible mutation was recently revealed to be an eleven base pair deletion, leading to a frame shift, in the gene encoding the potassium channel Kv1.1. The pred...

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Autores principales: Persson, Ann-Sophie, Klement, Göran, Almgren, Malin, Sahlholm, Kristoffer, Nilsson, Johanna, Petersson, Susanna, Århem, Peter, Schalling, Martin, Lavebratt, Catharina
Formato: Texto
Lenguaje:English
Publicado: BioMed Central 2005
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC1322225/
https://www.ncbi.nlm.nih.gov/pubmed/16305740
http://dx.doi.org/10.1186/1471-2202-6-65
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author Persson, Ann-Sophie
Klement, Göran
Almgren, Malin
Sahlholm, Kristoffer
Nilsson, Johanna
Petersson, Susanna
Århem, Peter
Schalling, Martin
Lavebratt, Catharina
author_facet Persson, Ann-Sophie
Klement, Göran
Almgren, Malin
Sahlholm, Kristoffer
Nilsson, Johanna
Petersson, Susanna
Århem, Peter
Schalling, Martin
Lavebratt, Catharina
author_sort Persson, Ann-Sophie
collection PubMed
description BACKGROUND: The megencephaly mouse, mceph/mceph, is epileptic and displays a dramatically increased brain volume and neuronal count. The responsible mutation was recently revealed to be an eleven base pair deletion, leading to a frame shift, in the gene encoding the potassium channel Kv1.1. The predicted MCEPH protein is truncated at amino acid 230 out of 495. Truncated proteins are usually not expressed since nonsense mRNAs are most often degraded. However, high Kv1.1 mRNA levels in mceph/mceph brain indicated that it escaped this control mechanism. Therefore, we hypothesized that the truncated Kv1.1 would be expressed and dysregulate other Kv1 subunits in the mceph/mceph mice. RESULTS: We found that the MCEPH protein is expressed in the brain of mceph/mceph mice. MCEPH was found to lack mature (Golgi) glycosylation, but to be core glycosylated and trapped in the endoplasmic reticulum (ER). Interactions between MCEPH and other Kv1 subunits were studied in cell culture, Xenopus oocytes and the brain. MCEPH can form tetramers with Kv1.1 in cell culture and has a dominant negative effect on Kv1.2 and Kv1.3 currents in oocytes. However, it does not retain Kv1.2 in the ER of neurons. CONCLUSION: The megencephaly mice express a truncated Kv1.1 in the brain, and constitute a unique tool to study Kv1.1 trafficking relevant for understanding epilepsy, ataxia and pathologic brain overgrowth.
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spelling pubmed-13222252005-12-24 A truncated Kv1.1 protein in the brain of the megencephaly mouse: expression and interaction Persson, Ann-Sophie Klement, Göran Almgren, Malin Sahlholm, Kristoffer Nilsson, Johanna Petersson, Susanna Århem, Peter Schalling, Martin Lavebratt, Catharina BMC Neurosci Research Article BACKGROUND: The megencephaly mouse, mceph/mceph, is epileptic and displays a dramatically increased brain volume and neuronal count. The responsible mutation was recently revealed to be an eleven base pair deletion, leading to a frame shift, in the gene encoding the potassium channel Kv1.1. The predicted MCEPH protein is truncated at amino acid 230 out of 495. Truncated proteins are usually not expressed since nonsense mRNAs are most often degraded. However, high Kv1.1 mRNA levels in mceph/mceph brain indicated that it escaped this control mechanism. Therefore, we hypothesized that the truncated Kv1.1 would be expressed and dysregulate other Kv1 subunits in the mceph/mceph mice. RESULTS: We found that the MCEPH protein is expressed in the brain of mceph/mceph mice. MCEPH was found to lack mature (Golgi) glycosylation, but to be core glycosylated and trapped in the endoplasmic reticulum (ER). Interactions between MCEPH and other Kv1 subunits were studied in cell culture, Xenopus oocytes and the brain. MCEPH can form tetramers with Kv1.1 in cell culture and has a dominant negative effect on Kv1.2 and Kv1.3 currents in oocytes. However, it does not retain Kv1.2 in the ER of neurons. CONCLUSION: The megencephaly mice express a truncated Kv1.1 in the brain, and constitute a unique tool to study Kv1.1 trafficking relevant for understanding epilepsy, ataxia and pathologic brain overgrowth. BioMed Central 2005-11-23 /pmc/articles/PMC1322225/ /pubmed/16305740 http://dx.doi.org/10.1186/1471-2202-6-65 Text en Copyright © 2005 Persson et al; licensee BioMed Central Ltd.
spellingShingle Research Article
Persson, Ann-Sophie
Klement, Göran
Almgren, Malin
Sahlholm, Kristoffer
Nilsson, Johanna
Petersson, Susanna
Århem, Peter
Schalling, Martin
Lavebratt, Catharina
A truncated Kv1.1 protein in the brain of the megencephaly mouse: expression and interaction
title A truncated Kv1.1 protein in the brain of the megencephaly mouse: expression and interaction
title_full A truncated Kv1.1 protein in the brain of the megencephaly mouse: expression and interaction
title_fullStr A truncated Kv1.1 protein in the brain of the megencephaly mouse: expression and interaction
title_full_unstemmed A truncated Kv1.1 protein in the brain of the megencephaly mouse: expression and interaction
title_short A truncated Kv1.1 protein in the brain of the megencephaly mouse: expression and interaction
title_sort truncated kv1.1 protein in the brain of the megencephaly mouse: expression and interaction
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC1322225/
https://www.ncbi.nlm.nih.gov/pubmed/16305740
http://dx.doi.org/10.1186/1471-2202-6-65
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