Cargando…
Genetically induced dysfunctions of Kir2.1 channels: implications for short QT3 syndrome and autism–epilepsy phenotype
Short QT3 syndrome (SQT3S) is a cardiac disorder characterized by a high risk of mortality and associated with mutations in Kir2.1 (KCNJ2) channels. The molecular mechanisms leading to channel dysfunction, cardiac rhythm disturbances and neurodevelopmental disorders, potentially associated with SQT3...
| Autores principales: | , , , , , , , , , , , , , , , , , , , , , |
|---|---|
| Formato: | Online Artículo Texto |
| Lenguaje: | English |
| Publicado: |
Oxford University Press
2014
|
| Materias: | |
| Acceso en línea: | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4140467/ https://www.ncbi.nlm.nih.gov/pubmed/24794859 http://dx.doi.org/10.1093/hmg/ddu201 |
| _version_ | 1782331513827753984 |
|---|---|
| author | Ambrosini, Elena Sicca, Federico Brignone, Maria S. D'Adamo, Maria C. Napolitano, Carlo Servettini, Ilenio Moro, Francesca Ruan, Yanfei Guglielmi, Luca Pieroni, Stefania Servillo, Giuseppe Lanciotti, Angela Valvo, Giulia Catacuzzeno, Luigi Franciolini, Fabio Molinari, Paola Marchese, Maria Grottesi, Alessandro Guerrini, Renzo Santorelli, Filippo M. Priori, Silvia Pessia, Mauro |
| author_facet | Ambrosini, Elena Sicca, Federico Brignone, Maria S. D'Adamo, Maria C. Napolitano, Carlo Servettini, Ilenio Moro, Francesca Ruan, Yanfei Guglielmi, Luca Pieroni, Stefania Servillo, Giuseppe Lanciotti, Angela Valvo, Giulia Catacuzzeno, Luigi Franciolini, Fabio Molinari, Paola Marchese, Maria Grottesi, Alessandro Guerrini, Renzo Santorelli, Filippo M. Priori, Silvia Pessia, Mauro |
| author_sort | Ambrosini, Elena |
| collection | PubMed |
| description | Short QT3 syndrome (SQT3S) is a cardiac disorder characterized by a high risk of mortality and associated with mutations in Kir2.1 (KCNJ2) channels. The molecular mechanisms leading to channel dysfunction, cardiac rhythm disturbances and neurodevelopmental disorders, potentially associated with SQT3S, remain incompletely understood. Here, we report on monozygotic twins displaying a short QT interval on electrocardiogram recordings and autism–epilepsy phenotype. Genetic screening identified a novel KCNJ2 variant in Kir2.1 that (i) enhanced the channel's surface expression and stability at the plasma membrane, (ii) reduced protein ubiquitylation and degradation, (iii) altered protein compartmentalization in lipid rafts by targeting more channels to cholesterol-poor domains and (iv) reduced interactions with caveolin 2. Importantly, our study reveals novel physiological mechanisms concerning wild-type Kir2.1 channel processing by the cell, such as binding to both caveolin 1 and 2, protein degradation through the ubiquitin–proteasome pathway; in addition, it uncovers a potential multifunctional site that controls Kir2.1 surface expression, protein half-life and partitioning to lipid rafts. The reported mechanisms emerge as crucial also for proper astrocyte function, suggesting the need for a neuropsychiatric evaluation in patients with SQT3S and offering new opportunities for disease management. |
| format | Online Article Text |
| id | pubmed-4140467 |
| institution | National Center for Biotechnology Information |
| language | English |
| publishDate | 2014 |
| publisher | Oxford University Press |
| record_format | MEDLINE/PubMed |
| spelling | pubmed-41404672014-08-22 Genetically induced dysfunctions of Kir2.1 channels: implications for short QT3 syndrome and autism–epilepsy phenotype Ambrosini, Elena Sicca, Federico Brignone, Maria S. D'Adamo, Maria C. Napolitano, Carlo Servettini, Ilenio Moro, Francesca Ruan, Yanfei Guglielmi, Luca Pieroni, Stefania Servillo, Giuseppe Lanciotti, Angela Valvo, Giulia Catacuzzeno, Luigi Franciolini, Fabio Molinari, Paola Marchese, Maria Grottesi, Alessandro Guerrini, Renzo Santorelli, Filippo M. Priori, Silvia Pessia, Mauro Hum Mol Genet Articles Short QT3 syndrome (SQT3S) is a cardiac disorder characterized by a high risk of mortality and associated with mutations in Kir2.1 (KCNJ2) channels. The molecular mechanisms leading to channel dysfunction, cardiac rhythm disturbances and neurodevelopmental disorders, potentially associated with SQT3S, remain incompletely understood. Here, we report on monozygotic twins displaying a short QT interval on electrocardiogram recordings and autism–epilepsy phenotype. Genetic screening identified a novel KCNJ2 variant in Kir2.1 that (i) enhanced the channel's surface expression and stability at the plasma membrane, (ii) reduced protein ubiquitylation and degradation, (iii) altered protein compartmentalization in lipid rafts by targeting more channels to cholesterol-poor domains and (iv) reduced interactions with caveolin 2. Importantly, our study reveals novel physiological mechanisms concerning wild-type Kir2.1 channel processing by the cell, such as binding to both caveolin 1 and 2, protein degradation through the ubiquitin–proteasome pathway; in addition, it uncovers a potential multifunctional site that controls Kir2.1 surface expression, protein half-life and partitioning to lipid rafts. The reported mechanisms emerge as crucial also for proper astrocyte function, suggesting the need for a neuropsychiatric evaluation in patients with SQT3S and offering new opportunities for disease management. Oxford University Press 2014-09-15 2014-05-02 /pmc/articles/PMC4140467/ /pubmed/24794859 http://dx.doi.org/10.1093/hmg/ddu201 Text en © The Author 2014. Published by Oxford University Press. http://creativecommons.org/licenses/by/4.0/ This is an Open Access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted reuse, distribution, and reproduction in any medium, provided the original work is properly cited. |
| spellingShingle | Articles Ambrosini, Elena Sicca, Federico Brignone, Maria S. D'Adamo, Maria C. Napolitano, Carlo Servettini, Ilenio Moro, Francesca Ruan, Yanfei Guglielmi, Luca Pieroni, Stefania Servillo, Giuseppe Lanciotti, Angela Valvo, Giulia Catacuzzeno, Luigi Franciolini, Fabio Molinari, Paola Marchese, Maria Grottesi, Alessandro Guerrini, Renzo Santorelli, Filippo M. Priori, Silvia Pessia, Mauro Genetically induced dysfunctions of Kir2.1 channels: implications for short QT3 syndrome and autism–epilepsy phenotype |
| title | Genetically induced dysfunctions of Kir2.1 channels: implications for short QT3 syndrome and autism–epilepsy phenotype |
| title_full | Genetically induced dysfunctions of Kir2.1 channels: implications for short QT3 syndrome and autism–epilepsy phenotype |
| title_fullStr | Genetically induced dysfunctions of Kir2.1 channels: implications for short QT3 syndrome and autism–epilepsy phenotype |
| title_full_unstemmed | Genetically induced dysfunctions of Kir2.1 channels: implications for short QT3 syndrome and autism–epilepsy phenotype |
| title_short | Genetically induced dysfunctions of Kir2.1 channels: implications for short QT3 syndrome and autism–epilepsy phenotype |
| title_sort | genetically induced dysfunctions of kir2.1 channels: implications for short qt3 syndrome and autism–epilepsy phenotype |
| topic | Articles |
| url | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4140467/ https://www.ncbi.nlm.nih.gov/pubmed/24794859 http://dx.doi.org/10.1093/hmg/ddu201 |
| work_keys_str_mv | AT ambrosinielena geneticallyinduceddysfunctionsofkir21channelsimplicationsforshortqt3syndromeandautismepilepsyphenotype AT siccafederico geneticallyinduceddysfunctionsofkir21channelsimplicationsforshortqt3syndromeandautismepilepsyphenotype AT brignonemarias geneticallyinduceddysfunctionsofkir21channelsimplicationsforshortqt3syndromeandautismepilepsyphenotype AT dadamomariac geneticallyinduceddysfunctionsofkir21channelsimplicationsforshortqt3syndromeandautismepilepsyphenotype AT napolitanocarlo geneticallyinduceddysfunctionsofkir21channelsimplicationsforshortqt3syndromeandautismepilepsyphenotype AT servettiniilenio geneticallyinduceddysfunctionsofkir21channelsimplicationsforshortqt3syndromeandautismepilepsyphenotype AT morofrancesca geneticallyinduceddysfunctionsofkir21channelsimplicationsforshortqt3syndromeandautismepilepsyphenotype AT ruanyanfei geneticallyinduceddysfunctionsofkir21channelsimplicationsforshortqt3syndromeandautismepilepsyphenotype AT guglielmiluca geneticallyinduceddysfunctionsofkir21channelsimplicationsforshortqt3syndromeandautismepilepsyphenotype AT pieronistefania geneticallyinduceddysfunctionsofkir21channelsimplicationsforshortqt3syndromeandautismepilepsyphenotype AT servillogiuseppe geneticallyinduceddysfunctionsofkir21channelsimplicationsforshortqt3syndromeandautismepilepsyphenotype AT lanciottiangela geneticallyinduceddysfunctionsofkir21channelsimplicationsforshortqt3syndromeandautismepilepsyphenotype AT valvogiulia geneticallyinduceddysfunctionsofkir21channelsimplicationsforshortqt3syndromeandautismepilepsyphenotype AT catacuzzenoluigi geneticallyinduceddysfunctionsofkir21channelsimplicationsforshortqt3syndromeandautismepilepsyphenotype AT franciolinifabio geneticallyinduceddysfunctionsofkir21channelsimplicationsforshortqt3syndromeandautismepilepsyphenotype AT molinaripaola geneticallyinduceddysfunctionsofkir21channelsimplicationsforshortqt3syndromeandautismepilepsyphenotype AT marchesemaria geneticallyinduceddysfunctionsofkir21channelsimplicationsforshortqt3syndromeandautismepilepsyphenotype AT grottesialessandro geneticallyinduceddysfunctionsofkir21channelsimplicationsforshortqt3syndromeandautismepilepsyphenotype AT guerrinirenzo geneticallyinduceddysfunctionsofkir21channelsimplicationsforshortqt3syndromeandautismepilepsyphenotype AT santorellifilippom geneticallyinduceddysfunctionsofkir21channelsimplicationsforshortqt3syndromeandautismepilepsyphenotype AT priorisilvia geneticallyinduceddysfunctionsofkir21channelsimplicationsforshortqt3syndromeandautismepilepsyphenotype AT pessiamauro geneticallyinduceddysfunctionsofkir21channelsimplicationsforshortqt3syndromeandautismepilepsyphenotype |