An Alternative Splice Variant of HIPK2 with Intron Retention Contributes to Cytokinesis

HIPK2 is a DYRK-like kinase involved in cellular stress response pathways, development, and cell division. Two alternative splice variants of HIPK2, HIPK2-FL and HIPK2-Δe8, have been previously identified as having different protein stability but similar functional activity in the stress response. H...

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Autores principales: Gatti, Veronica, Ferrara, Manuela, Virdia, Ilaria, Matteoni, Silvia, Monteonofrio, Laura, di Martino, Simona, Diodoro, Maria Grazia, Di Rocco, Giuliana, Rinaldo, Cinzia, Soddu, Silvia
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2020
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Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7072727/
https://www.ncbi.nlm.nih.gov/pubmed/32093146
http://dx.doi.org/10.3390/cells9020484
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author Gatti, Veronica
Ferrara, Manuela
Virdia, Ilaria
Matteoni, Silvia
Monteonofrio, Laura
di Martino, Simona
Diodoro, Maria Grazia
Di Rocco, Giuliana
Rinaldo, Cinzia
Soddu, Silvia
author_facet Gatti, Veronica
Ferrara, Manuela
Virdia, Ilaria
Matteoni, Silvia
Monteonofrio, Laura
di Martino, Simona
Diodoro, Maria Grazia
Di Rocco, Giuliana
Rinaldo, Cinzia
Soddu, Silvia
author_sort Gatti, Veronica
collection PubMed
description HIPK2 is a DYRK-like kinase involved in cellular stress response pathways, development, and cell division. Two alternative splice variants of HIPK2, HIPK2-FL and HIPK2-Δe8, have been previously identified as having different protein stability but similar functional activity in the stress response. Here, we describe one additional HIPK2 splice variant with a distinct subcellular distribution and functional activity in cytokinesis. This novel splice variant lacks the last two exons and retains intron13 with a stop codon after 89 bp of the intron, generating a short isoform, HIPK2-S, that is detectable by 2D Western blots. RT-PCR analyses of tissue arrays and tumor samples show that HIPK2-FL and HIPK2-S are expressed in normal human tissues in a tissue-dependent manner and differentially expressed in human colorectal and pancreatic cancers. Gain- and loss-of-function experiments showed that in contrast to HIPK2-FL, HIPK2-S has a diffuse, non-speckled distribution and is not involved in the DNA damage response. Rather, we found that HIPK2-S, but not HIPK2-FL, localizes at the intercellular bridge, where it phosphorylates histone H2B and spastin, both required for faithful cell division. Altogether, these data show that distinct human HIPK2 splice variants are involved in distinct HIPK2-regulated functions like stress response and cytokinesis.
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spelling pubmed-70727272020-03-19 An Alternative Splice Variant of HIPK2 with Intron Retention Contributes to Cytokinesis Gatti, Veronica Ferrara, Manuela Virdia, Ilaria Matteoni, Silvia Monteonofrio, Laura di Martino, Simona Diodoro, Maria Grazia Di Rocco, Giuliana Rinaldo, Cinzia Soddu, Silvia Cells Article HIPK2 is a DYRK-like kinase involved in cellular stress response pathways, development, and cell division. Two alternative splice variants of HIPK2, HIPK2-FL and HIPK2-Δe8, have been previously identified as having different protein stability but similar functional activity in the stress response. Here, we describe one additional HIPK2 splice variant with a distinct subcellular distribution and functional activity in cytokinesis. This novel splice variant lacks the last two exons and retains intron13 with a stop codon after 89 bp of the intron, generating a short isoform, HIPK2-S, that is detectable by 2D Western blots. RT-PCR analyses of tissue arrays and tumor samples show that HIPK2-FL and HIPK2-S are expressed in normal human tissues in a tissue-dependent manner and differentially expressed in human colorectal and pancreatic cancers. Gain- and loss-of-function experiments showed that in contrast to HIPK2-FL, HIPK2-S has a diffuse, non-speckled distribution and is not involved in the DNA damage response. Rather, we found that HIPK2-S, but not HIPK2-FL, localizes at the intercellular bridge, where it phosphorylates histone H2B and spastin, both required for faithful cell division. Altogether, these data show that distinct human HIPK2 splice variants are involved in distinct HIPK2-regulated functions like stress response and cytokinesis. MDPI 2020-02-20 /pmc/articles/PMC7072727/ /pubmed/32093146 http://dx.doi.org/10.3390/cells9020484 Text en © 2020 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (http://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Gatti, Veronica
Ferrara, Manuela
Virdia, Ilaria
Matteoni, Silvia
Monteonofrio, Laura
di Martino, Simona
Diodoro, Maria Grazia
Di Rocco, Giuliana
Rinaldo, Cinzia
Soddu, Silvia
An Alternative Splice Variant of HIPK2 with Intron Retention Contributes to Cytokinesis
title An Alternative Splice Variant of HIPK2 with Intron Retention Contributes to Cytokinesis
title_full An Alternative Splice Variant of HIPK2 with Intron Retention Contributes to Cytokinesis
title_fullStr An Alternative Splice Variant of HIPK2 with Intron Retention Contributes to Cytokinesis
title_full_unstemmed An Alternative Splice Variant of HIPK2 with Intron Retention Contributes to Cytokinesis
title_short An Alternative Splice Variant of HIPK2 with Intron Retention Contributes to Cytokinesis
title_sort alternative splice variant of hipk2 with intron retention contributes to cytokinesis
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7072727/
https://www.ncbi.nlm.nih.gov/pubmed/32093146
http://dx.doi.org/10.3390/cells9020484
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