Non-invasive and high-throughput interrogation of exon-specific isoform expression

Expression of exon-specific isoforms from alternatively spliced mRNA is a fundamental mechanism that substantially expands the proteome of a cell. However, conventional methods to assess alternative splicing are either consumptive and work-intensive or do not quantify isoform expression longitudinal...

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Autores principales: Truong, Dong-Jiunn Jeffery, Phlairaharn, Teeradon, Eßwein, Bianca, Gruber, Christoph, Tümen, Deniz, Baligács, Enikő, Armbrust, Niklas, Vaccaro, Francesco Leandro, Lederer, Eva-Maria, Beck, Eva Magdalena, Geilenkeuser, Julian, Göppert, Simone, Krumwiede, Luisa, Grätz, Christian, Raffl, Gerald, Schwarz, Dominic, Zirngibl, Martin, Živanić, Milica, Beyer, Maren, Körner, Johann Dietmar, Santl, Tobias, Evsyukov, Valentin, Strauß, Tabea, Schwarz, Sigrid C., Höglinger, Günter U., Heutink, Peter, Doll, Sebastian, Conrad, Marcus, Giesert, Florian, Wurst, Wolfgang, Westmeyer, Gil Gregor
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Nature Publishing Group UK 2021
Materias:
Technical Report
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8189919/
https://www.ncbi.nlm.nih.gov/pubmed/34083785
http://dx.doi.org/10.1038/s41556-021-00678-x
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author Truong, Dong-Jiunn Jeffery
Phlairaharn, Teeradon
Eßwein, Bianca
Gruber, Christoph
Tümen, Deniz
Baligács, Enikő
Armbrust, Niklas
Vaccaro, Francesco Leandro
Lederer, Eva-Maria
Beck, Eva Magdalena
Geilenkeuser, Julian
Göppert, Simone
Krumwiede, Luisa
Grätz, Christian
Raffl, Gerald
Schwarz, Dominic
Zirngibl, Martin
Živanić, Milica
Beyer, Maren
Körner, Johann Dietmar
Santl, Tobias
Evsyukov, Valentin
Strauß, Tabea
Schwarz, Sigrid C.
Höglinger, Günter U.
Heutink, Peter
Doll, Sebastian
Conrad, Marcus
Giesert, Florian
Wurst, Wolfgang
Westmeyer, Gil Gregor
author_facet Truong, Dong-Jiunn Jeffery
Phlairaharn, Teeradon
Eßwein, Bianca
Gruber, Christoph
Tümen, Deniz
Baligács, Enikő
Armbrust, Niklas
Vaccaro, Francesco Leandro
Lederer, Eva-Maria
Beck, Eva Magdalena
Geilenkeuser, Julian
Göppert, Simone
Krumwiede, Luisa
Grätz, Christian
Raffl, Gerald
Schwarz, Dominic
Zirngibl, Martin
Živanić, Milica
Beyer, Maren
Körner, Johann Dietmar
Santl, Tobias
Evsyukov, Valentin
Strauß, Tabea
Schwarz, Sigrid C.
Höglinger, Günter U.
Heutink, Peter
Doll, Sebastian
Conrad, Marcus
Giesert, Florian
Wurst, Wolfgang
Westmeyer, Gil Gregor
author_sort Truong, Dong-Jiunn Jeffery
collection PubMed
description Expression of exon-specific isoforms from alternatively spliced mRNA is a fundamental mechanism that substantially expands the proteome of a cell. However, conventional methods to assess alternative splicing are either consumptive and work-intensive or do not quantify isoform expression longitudinally at the protein level. Here, we therefore developed an exon-specific isoform expression reporter system (EXSISERS), which non-invasively reports the translation of exon-containing isoforms of endogenous genes by scarlessly excising reporter proteins from the nascent polypeptide chain through highly efficient, intein-mediated protein splicing. We applied EXSISERS to quantify the inclusion of the disease-associated exon 10 in microtubule-associated protein tau (MAPT) in patient-derived induced pluripotent stem cells and screened Cas13-based RNA-targeting effectors for isoform specificity. We also coupled cell survival to the inclusion of exon 18b of FOXP1, which is involved in maintaining pluripotency of embryonic stem cells, and confirmed that MBNL1 is a dominant factor for exon 18b exclusion. EXSISERS enables non-disruptive and multimodal monitoring of exon-specific isoform expression with high sensitivity and cellular resolution, and empowers high-throughput screening of exon-specific therapeutic interventions.
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spelling pubmed-81899192021-06-25 Non-invasive and high-throughput interrogation of exon-specific isoform expression Truong, Dong-Jiunn Jeffery Phlairaharn, Teeradon Eßwein, Bianca Gruber, Christoph Tümen, Deniz Baligács, Enikő Armbrust, Niklas Vaccaro, Francesco Leandro Lederer, Eva-Maria Beck, Eva Magdalena Geilenkeuser, Julian Göppert, Simone Krumwiede, Luisa Grätz, Christian Raffl, Gerald Schwarz, Dominic Zirngibl, Martin Živanić, Milica Beyer, Maren Körner, Johann Dietmar Santl, Tobias Evsyukov, Valentin Strauß, Tabea Schwarz, Sigrid C. Höglinger, Günter U. Heutink, Peter Doll, Sebastian Conrad, Marcus Giesert, Florian Wurst, Wolfgang Westmeyer, Gil Gregor Nat Cell Biol Technical Report Expression of exon-specific isoforms from alternatively spliced mRNA is a fundamental mechanism that substantially expands the proteome of a cell. However, conventional methods to assess alternative splicing are either consumptive and work-intensive or do not quantify isoform expression longitudinally at the protein level. Here, we therefore developed an exon-specific isoform expression reporter system (EXSISERS), which non-invasively reports the translation of exon-containing isoforms of endogenous genes by scarlessly excising reporter proteins from the nascent polypeptide chain through highly efficient, intein-mediated protein splicing. We applied EXSISERS to quantify the inclusion of the disease-associated exon 10 in microtubule-associated protein tau (MAPT) in patient-derived induced pluripotent stem cells and screened Cas13-based RNA-targeting effectors for isoform specificity. We also coupled cell survival to the inclusion of exon 18b of FOXP1, which is involved in maintaining pluripotency of embryonic stem cells, and confirmed that MBNL1 is a dominant factor for exon 18b exclusion. EXSISERS enables non-disruptive and multimodal monitoring of exon-specific isoform expression with high sensitivity and cellular resolution, and empowers high-throughput screening of exon-specific therapeutic interventions. Nature Publishing Group UK 2021-06-03 2021 /pmc/articles/PMC8189919/ /pubmed/34083785 http://dx.doi.org/10.1038/s41556-021-00678-x Text en © The Author(s) 2021 https://creativecommons.org/licenses/by/4.0/Open Access This 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 license, and indicate if changes were made. The images or other third party material in this article are included in the article’s Creative Commons license, unless indicated otherwise in a credit line to the material. If material is not included in the article’s Creative Commons license 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 license, visit http://creativecommons.org/licenses/by/4.0/ (https://creativecommons.org/licenses/by/4.0/) .
spellingShingle Technical Report
Truong, Dong-Jiunn Jeffery
Phlairaharn, Teeradon
Eßwein, Bianca
Gruber, Christoph
Tümen, Deniz
Baligács, Enikő
Armbrust, Niklas
Vaccaro, Francesco Leandro
Lederer, Eva-Maria
Beck, Eva Magdalena
Geilenkeuser, Julian
Göppert, Simone
Krumwiede, Luisa
Grätz, Christian
Raffl, Gerald
Schwarz, Dominic
Zirngibl, Martin
Živanić, Milica
Beyer, Maren
Körner, Johann Dietmar
Santl, Tobias
Evsyukov, Valentin
Strauß, Tabea
Schwarz, Sigrid C.
Höglinger, Günter U.
Heutink, Peter
Doll, Sebastian
Conrad, Marcus
Giesert, Florian
Wurst, Wolfgang
Westmeyer, Gil Gregor
Non-invasive and high-throughput interrogation of exon-specific isoform expression
title Non-invasive and high-throughput interrogation of exon-specific isoform expression
title_full Non-invasive and high-throughput interrogation of exon-specific isoform expression
title_fullStr Non-invasive and high-throughput interrogation of exon-specific isoform expression
title_full_unstemmed Non-invasive and high-throughput interrogation of exon-specific isoform expression
title_short Non-invasive and high-throughput interrogation of exon-specific isoform expression
title_sort non-invasive and high-throughput interrogation of exon-specific isoform expression
topic Technical Report
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8189919/
https://www.ncbi.nlm.nih.gov/pubmed/34083785
http://dx.doi.org/10.1038/s41556-021-00678-x
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