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Gain and loss of TASK3 channel function and its regulation by novel variation cause KCNK9 imprinting syndrome
BACKGROUND: Genomics enables individualized diagnosis and treatment, but large challenges remain to functionally interpret rare variants. To date, only one causative variant has been described for KCNK9 imprinting syndrome (KIS). The genotypic and phenotypic spectrum of KIS has yet to be described a...
| Autores principales: | , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , |
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| Formato: | Online Artículo Texto |
| Lenguaje: | English |
| Publicado: |
BioMed Central
2022
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| Materias: | |
| Acceso en línea: | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9195326/ https://www.ncbi.nlm.nih.gov/pubmed/35698242 http://dx.doi.org/10.1186/s13073-022-01064-4 |
| _version_ | 1784726942219501568 |
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| author | Cousin, Margot A. Veale, Emma L. Dsouza, Nikita R. Tripathi, Swarnendu Holden, Robyn G. Arelin, Maria Beek, Geoffrey Bekheirnia, Mir Reza Beygo, Jasmin Bhambhani, Vikas Bialer, Martin Bigoni, Stefania Boelman, Cyrus Carmichael, Jenny Courtin, Thomas Cogne, Benjamin Dabaj, Ivana Doummar, Diane Fazilleau, Laura Ferlini, Alessandra Gavrilova, Ralitza H. Graham, John M. Haack, Tobias B. Juusola, Jane Kant, Sarina G. Kayani, Saima Keren, Boris Ketteler, Petra Klöckner, Chiara Koopmann, Tamara T. Kruisselbrink, Teresa M. Kuechler, Alma Lambert, Laëtitia Latypova, Xénia Lebel, Robert Roger Leduc, Magalie S. Leonardi, Emanuela Lewis, Andrea M. Liew, Wendy Machol, Keren Mardini, Samir McWalter, Kirsty Mignot, Cyril McLaughlin, Julie Murgia, Alessandra Narayanan, Vinodh Nava, Caroline Neuser, Sonja Nizon, Mathilde Ognibene, Davide Park, Joohyun Platzer, Konrad Poirsier, Céline Radtke, Maximilian Ramsey, Keri Runke, Cassandra K. Guillen Sacoto, Maria J. Scaglia, Fernando Shinawi, Marwan Spranger, Stephanie Tan, Ee Shien Taylor, John Trentesaux, Anne-Sophie Vairo, Filippo Willaert, Rebecca Zadeh, Neda Urrutia, Raul Babovic-Vuksanovic, Dusica Zimmermann, Michael T. Mathie, Alistair Klee, Eric W. |
| author_facet | Cousin, Margot A. Veale, Emma L. Dsouza, Nikita R. Tripathi, Swarnendu Holden, Robyn G. Arelin, Maria Beek, Geoffrey Bekheirnia, Mir Reza Beygo, Jasmin Bhambhani, Vikas Bialer, Martin Bigoni, Stefania Boelman, Cyrus Carmichael, Jenny Courtin, Thomas Cogne, Benjamin Dabaj, Ivana Doummar, Diane Fazilleau, Laura Ferlini, Alessandra Gavrilova, Ralitza H. Graham, John M. Haack, Tobias B. Juusola, Jane Kant, Sarina G. Kayani, Saima Keren, Boris Ketteler, Petra Klöckner, Chiara Koopmann, Tamara T. Kruisselbrink, Teresa M. Kuechler, Alma Lambert, Laëtitia Latypova, Xénia Lebel, Robert Roger Leduc, Magalie S. Leonardi, Emanuela Lewis, Andrea M. Liew, Wendy Machol, Keren Mardini, Samir McWalter, Kirsty Mignot, Cyril McLaughlin, Julie Murgia, Alessandra Narayanan, Vinodh Nava, Caroline Neuser, Sonja Nizon, Mathilde Ognibene, Davide Park, Joohyun Platzer, Konrad Poirsier, Céline Radtke, Maximilian Ramsey, Keri Runke, Cassandra K. Guillen Sacoto, Maria J. Scaglia, Fernando Shinawi, Marwan Spranger, Stephanie Tan, Ee Shien Taylor, John Trentesaux, Anne-Sophie Vairo, Filippo Willaert, Rebecca Zadeh, Neda Urrutia, Raul Babovic-Vuksanovic, Dusica Zimmermann, Michael T. Mathie, Alistair Klee, Eric W. |
| author_sort | Cousin, Margot A. |
| collection | PubMed |
| description | BACKGROUND: Genomics enables individualized diagnosis and treatment, but large challenges remain to functionally interpret rare variants. To date, only one causative variant has been described for KCNK9 imprinting syndrome (KIS). The genotypic and phenotypic spectrum of KIS has yet to be described and the precise mechanism of disease fully understood. METHODS: This study discovers mechanisms underlying KCNK9 imprinting syndrome (KIS) by describing 15 novel KCNK9 alterations from 47 KIS-affected individuals. We use clinical genetics and computer-assisted facial phenotyping to describe the phenotypic spectrum of KIS. We then interrogate the functional effects of the variants in the encoded TASK3 channel using sequence-based analysis, 3D molecular mechanic and dynamic protein modeling, and in vitro electrophysiological and functional methodologies. RESULTS: We describe the broader genetic and phenotypic variability for KIS in a cohort of individuals identifying an additional mutational hotspot at p.Arg131 and demonstrating the common features of this neurodevelopmental disorder to include motor and speech delay, intellectual disability, early feeding difficulties, muscular hypotonia, behavioral abnormalities, and dysmorphic features. The computational protein modeling and in vitro electrophysiological studies discover variability of the impact of KCNK9 variants on TASK3 channel function identifying variants causing gain and others causing loss of conductance. The most consistent functional impact of KCNK9 genetic variants, however, was altered channel regulation. CONCLUSIONS: This study extends our understanding of KIS mechanisms demonstrating its complex etiology including gain and loss of channel function and consistent loss of channel regulation. These data are rapidly applicable to diagnostic strategies, as KIS is not identifiable from clinical features alone and thus should be molecularly diagnosed. Furthermore, our data suggests unique therapeutic strategies may be needed to address the specific functional consequences of KCNK9 variation on channel function and regulation. SUPPLEMENTARY INFORMATION: The online version contains supplementary material available at 10.1186/s13073-022-01064-4. |
| format | Online Article Text |
| id | pubmed-9195326 |
| institution | National Center for Biotechnology Information |
| language | English |
| publishDate | 2022 |
| publisher | BioMed Central |
| record_format | MEDLINE/PubMed |
| spelling | pubmed-91953262022-06-15 Gain and loss of TASK3 channel function and its regulation by novel variation cause KCNK9 imprinting syndrome Cousin, Margot A. Veale, Emma L. Dsouza, Nikita R. Tripathi, Swarnendu Holden, Robyn G. Arelin, Maria Beek, Geoffrey Bekheirnia, Mir Reza Beygo, Jasmin Bhambhani, Vikas Bialer, Martin Bigoni, Stefania Boelman, Cyrus Carmichael, Jenny Courtin, Thomas Cogne, Benjamin Dabaj, Ivana Doummar, Diane Fazilleau, Laura Ferlini, Alessandra Gavrilova, Ralitza H. Graham, John M. Haack, Tobias B. Juusola, Jane Kant, Sarina G. Kayani, Saima Keren, Boris Ketteler, Petra Klöckner, Chiara Koopmann, Tamara T. Kruisselbrink, Teresa M. Kuechler, Alma Lambert, Laëtitia Latypova, Xénia Lebel, Robert Roger Leduc, Magalie S. Leonardi, Emanuela Lewis, Andrea M. Liew, Wendy Machol, Keren Mardini, Samir McWalter, Kirsty Mignot, Cyril McLaughlin, Julie Murgia, Alessandra Narayanan, Vinodh Nava, Caroline Neuser, Sonja Nizon, Mathilde Ognibene, Davide Park, Joohyun Platzer, Konrad Poirsier, Céline Radtke, Maximilian Ramsey, Keri Runke, Cassandra K. Guillen Sacoto, Maria J. Scaglia, Fernando Shinawi, Marwan Spranger, Stephanie Tan, Ee Shien Taylor, John Trentesaux, Anne-Sophie Vairo, Filippo Willaert, Rebecca Zadeh, Neda Urrutia, Raul Babovic-Vuksanovic, Dusica Zimmermann, Michael T. Mathie, Alistair Klee, Eric W. Genome Med Research BACKGROUND: Genomics enables individualized diagnosis and treatment, but large challenges remain to functionally interpret rare variants. To date, only one causative variant has been described for KCNK9 imprinting syndrome (KIS). The genotypic and phenotypic spectrum of KIS has yet to be described and the precise mechanism of disease fully understood. METHODS: This study discovers mechanisms underlying KCNK9 imprinting syndrome (KIS) by describing 15 novel KCNK9 alterations from 47 KIS-affected individuals. We use clinical genetics and computer-assisted facial phenotyping to describe the phenotypic spectrum of KIS. We then interrogate the functional effects of the variants in the encoded TASK3 channel using sequence-based analysis, 3D molecular mechanic and dynamic protein modeling, and in vitro electrophysiological and functional methodologies. RESULTS: We describe the broader genetic and phenotypic variability for KIS in a cohort of individuals identifying an additional mutational hotspot at p.Arg131 and demonstrating the common features of this neurodevelopmental disorder to include motor and speech delay, intellectual disability, early feeding difficulties, muscular hypotonia, behavioral abnormalities, and dysmorphic features. The computational protein modeling and in vitro electrophysiological studies discover variability of the impact of KCNK9 variants on TASK3 channel function identifying variants causing gain and others causing loss of conductance. The most consistent functional impact of KCNK9 genetic variants, however, was altered channel regulation. CONCLUSIONS: This study extends our understanding of KIS mechanisms demonstrating its complex etiology including gain and loss of channel function and consistent loss of channel regulation. These data are rapidly applicable to diagnostic strategies, as KIS is not identifiable from clinical features alone and thus should be molecularly diagnosed. Furthermore, our data suggests unique therapeutic strategies may be needed to address the specific functional consequences of KCNK9 variation on channel function and regulation. SUPPLEMENTARY INFORMATION: The online version contains supplementary material available at 10.1186/s13073-022-01064-4. BioMed Central 2022-06-13 /pmc/articles/PMC9195326/ /pubmed/35698242 http://dx.doi.org/10.1186/s13073-022-01064-4 Text en © The Author(s) 2022 https://creativecommons.org/licenses/by/4.0/Open AccessThis article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons licence, and indicate if changes were made. The images or other third party material in this article are included in the article's Creative Commons licence, unless indicated otherwise in a credit line to the material. If material is not included in the article's Creative Commons licence and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this licence, visit http://creativecommons.org/licenses/by/4.0/ (https://creativecommons.org/licenses/by/4.0/) . The Creative Commons Public Domain Dedication waiver (http://creativecommons.org/publicdomain/zero/1.0/ (https://creativecommons.org/publicdomain/zero/1.0/) ) applies to the data made available in this article, unless otherwise stated in a credit line to the data. |
| spellingShingle | Research Cousin, Margot A. Veale, Emma L. Dsouza, Nikita R. Tripathi, Swarnendu Holden, Robyn G. Arelin, Maria Beek, Geoffrey Bekheirnia, Mir Reza Beygo, Jasmin Bhambhani, Vikas Bialer, Martin Bigoni, Stefania Boelman, Cyrus Carmichael, Jenny Courtin, Thomas Cogne, Benjamin Dabaj, Ivana Doummar, Diane Fazilleau, Laura Ferlini, Alessandra Gavrilova, Ralitza H. Graham, John M. Haack, Tobias B. Juusola, Jane Kant, Sarina G. Kayani, Saima Keren, Boris Ketteler, Petra Klöckner, Chiara Koopmann, Tamara T. Kruisselbrink, Teresa M. Kuechler, Alma Lambert, Laëtitia Latypova, Xénia Lebel, Robert Roger Leduc, Magalie S. Leonardi, Emanuela Lewis, Andrea M. Liew, Wendy Machol, Keren Mardini, Samir McWalter, Kirsty Mignot, Cyril McLaughlin, Julie Murgia, Alessandra Narayanan, Vinodh Nava, Caroline Neuser, Sonja Nizon, Mathilde Ognibene, Davide Park, Joohyun Platzer, Konrad Poirsier, Céline Radtke, Maximilian Ramsey, Keri Runke, Cassandra K. Guillen Sacoto, Maria J. Scaglia, Fernando Shinawi, Marwan Spranger, Stephanie Tan, Ee Shien Taylor, John Trentesaux, Anne-Sophie Vairo, Filippo Willaert, Rebecca Zadeh, Neda Urrutia, Raul Babovic-Vuksanovic, Dusica Zimmermann, Michael T. Mathie, Alistair Klee, Eric W. Gain and loss of TASK3 channel function and its regulation by novel variation cause KCNK9 imprinting syndrome |
| title | Gain and loss of TASK3 channel function and its regulation by novel variation cause KCNK9 imprinting syndrome |
| title_full | Gain and loss of TASK3 channel function and its regulation by novel variation cause KCNK9 imprinting syndrome |
| title_fullStr | Gain and loss of TASK3 channel function and its regulation by novel variation cause KCNK9 imprinting syndrome |
| title_full_unstemmed | Gain and loss of TASK3 channel function and its regulation by novel variation cause KCNK9 imprinting syndrome |
| title_short | Gain and loss of TASK3 channel function and its regulation by novel variation cause KCNK9 imprinting syndrome |
| title_sort | gain and loss of task3 channel function and its regulation by novel variation cause kcnk9 imprinting syndrome |
| topic | Research |
| url | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9195326/ https://www.ncbi.nlm.nih.gov/pubmed/35698242 http://dx.doi.org/10.1186/s13073-022-01064-4 |
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