A novel, primate-specific, brain isoform of KCNH2 impacts cortical physiology, cognition, neuronal repolarization and risk for schizophrenia

Organized neuronal firing is critical for cortical processing and is disrupted in schizophrenia. Using 5’ RACE in human brain, we identified a primate-specific isoform (3.1) of the K(+)-channel KCNH2 that modulates neuronal firing. KCNH2-3.1 mRNA levels are comparable to KCNH2-1A in brain, but 1000-...

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Autores principales: Huffaker, Stephen J., Chen, Jingshan, Nicodemus, Kristin K., Sambataro, Fabio, Yang, Feng, Mattay, Venkata, Lipska, Barbara K., Hyde, Thomas M., Song, Jian, Rujescu, Daniel, Giegling, Ina, Mayilyan, Karine, Proust, Morgan J., Soghoyan, Armen, Caforio, Grazia, Callicott, Joseph H., Bertolino, Alessandro, Meyer-Lindenberg, Andreas, Chang, Jay, Ji, Yuanyuan, Egan, Michael F., Goldberg, Terry E., Kleinman, Joel E., Lu, Bai, Weinberger, Daniel R.
Formato: Texto
Lenguaje:English
Publicado: 2009
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2756110/
https://www.ncbi.nlm.nih.gov/pubmed/19412172
http://dx.doi.org/10.1038/nm.1962
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author Huffaker, Stephen J.
Chen, Jingshan
Nicodemus, Kristin K.
Sambataro, Fabio
Yang, Feng
Mattay, Venkata
Lipska, Barbara K.
Hyde, Thomas M.
Song, Jian
Rujescu, Daniel
Giegling, Ina
Mayilyan, Karine
Proust, Morgan J.
Soghoyan, Armen
Caforio, Grazia
Callicott, Joseph H.
Bertolino, Alessandro
Meyer-Lindenberg, Andreas
Chang, Jay
Ji, Yuanyuan
Egan, Michael F.
Goldberg, Terry E.
Kleinman, Joel E.
Lu, Bai
Weinberger, Daniel R.
author_facet Huffaker, Stephen J.
Chen, Jingshan
Nicodemus, Kristin K.
Sambataro, Fabio
Yang, Feng
Mattay, Venkata
Lipska, Barbara K.
Hyde, Thomas M.
Song, Jian
Rujescu, Daniel
Giegling, Ina
Mayilyan, Karine
Proust, Morgan J.
Soghoyan, Armen
Caforio, Grazia
Callicott, Joseph H.
Bertolino, Alessandro
Meyer-Lindenberg, Andreas
Chang, Jay
Ji, Yuanyuan
Egan, Michael F.
Goldberg, Terry E.
Kleinman, Joel E.
Lu, Bai
Weinberger, Daniel R.
author_sort Huffaker, Stephen J.
collection PubMed
description Organized neuronal firing is critical for cortical processing and is disrupted in schizophrenia. Using 5’ RACE in human brain, we identified a primate-specific isoform (3.1) of the K(+)-channel KCNH2 that modulates neuronal firing. KCNH2-3.1 mRNA levels are comparable to KCNH2-1A in brain, but 1000-fold lower in heart. In schizophrenic hippocampus, KCNH2-3.1 expression is 2.5-fold greater than KCNH2-1A. A meta-analysis of 5 clinical samples (367 families, 1158 unrelated cases, 1704 controls) shows association of SNPs in KCNH2 with schizophrenia. Risk-associated alleles predict lower IQ scores and speed of cognitive processing, altered memory-linked fMRI signals, and increased KCNH2-3.1 expression in post-mortem hippocampus. KCNH2-3.1 lacks a domain critical for slow channel deactivation. Overexpression of KCNH2-3.1 in primary cortical neurons induces a rapidly deactivating K(+) current and a high-frequency, non-adapting firing pattern. These results identify a novel KCNH2 channel involved in cortical physiology, cognition, and psychosis, providing a potential new psychotherapeutic drug target.
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spelling pubmed-27561102009-11-01 A novel, primate-specific, brain isoform of KCNH2 impacts cortical physiology, cognition, neuronal repolarization and risk for schizophrenia Huffaker, Stephen J. Chen, Jingshan Nicodemus, Kristin K. Sambataro, Fabio Yang, Feng Mattay, Venkata Lipska, Barbara K. Hyde, Thomas M. Song, Jian Rujescu, Daniel Giegling, Ina Mayilyan, Karine Proust, Morgan J. Soghoyan, Armen Caforio, Grazia Callicott, Joseph H. Bertolino, Alessandro Meyer-Lindenberg, Andreas Chang, Jay Ji, Yuanyuan Egan, Michael F. Goldberg, Terry E. Kleinman, Joel E. Lu, Bai Weinberger, Daniel R. Nat Med Article Organized neuronal firing is critical for cortical processing and is disrupted in schizophrenia. Using 5’ RACE in human brain, we identified a primate-specific isoform (3.1) of the K(+)-channel KCNH2 that modulates neuronal firing. KCNH2-3.1 mRNA levels are comparable to KCNH2-1A in brain, but 1000-fold lower in heart. In schizophrenic hippocampus, KCNH2-3.1 expression is 2.5-fold greater than KCNH2-1A. A meta-analysis of 5 clinical samples (367 families, 1158 unrelated cases, 1704 controls) shows association of SNPs in KCNH2 with schizophrenia. Risk-associated alleles predict lower IQ scores and speed of cognitive processing, altered memory-linked fMRI signals, and increased KCNH2-3.1 expression in post-mortem hippocampus. KCNH2-3.1 lacks a domain critical for slow channel deactivation. Overexpression of KCNH2-3.1 in primary cortical neurons induces a rapidly deactivating K(+) current and a high-frequency, non-adapting firing pattern. These results identify a novel KCNH2 channel involved in cortical physiology, cognition, and psychosis, providing a potential new psychotherapeutic drug target. 2009-05-03 2009-05 /pmc/articles/PMC2756110/ /pubmed/19412172 http://dx.doi.org/10.1038/nm.1962 Text en http://www.nature.com/authors/editorial_policies/license.html#terms Users may view, print, copy, and download text and data-mine the content in such documents, for the purposes of academic research, subject always to the full Conditions of use:http://www.nature.com/authors/editorial_policies/license.html#terms
spellingShingle Article
Huffaker, Stephen J.
Chen, Jingshan
Nicodemus, Kristin K.
Sambataro, Fabio
Yang, Feng
Mattay, Venkata
Lipska, Barbara K.
Hyde, Thomas M.
Song, Jian
Rujescu, Daniel
Giegling, Ina
Mayilyan, Karine
Proust, Morgan J.
Soghoyan, Armen
Caforio, Grazia
Callicott, Joseph H.
Bertolino, Alessandro
Meyer-Lindenberg, Andreas
Chang, Jay
Ji, Yuanyuan
Egan, Michael F.
Goldberg, Terry E.
Kleinman, Joel E.
Lu, Bai
Weinberger, Daniel R.
A novel, primate-specific, brain isoform of KCNH2 impacts cortical physiology, cognition, neuronal repolarization and risk for schizophrenia
title A novel, primate-specific, brain isoform of KCNH2 impacts cortical physiology, cognition, neuronal repolarization and risk for schizophrenia
title_full A novel, primate-specific, brain isoform of KCNH2 impacts cortical physiology, cognition, neuronal repolarization and risk for schizophrenia
title_fullStr A novel, primate-specific, brain isoform of KCNH2 impacts cortical physiology, cognition, neuronal repolarization and risk for schizophrenia
title_full_unstemmed A novel, primate-specific, brain isoform of KCNH2 impacts cortical physiology, cognition, neuronal repolarization and risk for schizophrenia
title_short A novel, primate-specific, brain isoform of KCNH2 impacts cortical physiology, cognition, neuronal repolarization and risk for schizophrenia
title_sort novel, primate-specific, brain isoform of kcnh2 impacts cortical physiology, cognition, neuronal repolarization and risk for schizophrenia
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2756110/
https://www.ncbi.nlm.nih.gov/pubmed/19412172
http://dx.doi.org/10.1038/nm.1962
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