CLK2 blockade modulates alternative splicing compromising MYC‐driven breast tumors

CLK2 blockade modulates alternative splicing compromising MYC‐driven breast tumors

MYC oncogene overexpression/amplification is common in multiple human cancers, in which it regulates proliferation, apoptosis and cell metabolism, among other processes, and its expression associates with poor prognosis. Targeting MYC presents an exciting therapeutic possibility, but developing appr...

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Main Authors: Fernando Salvador, Roger R Gomis
Format: Article
Language:English
Published: Wiley 2018-06-01
Series:EMBO Molecular Medicine
Online Access:https://doi.org/10.15252/emmm.201809213
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spelling doaj-d225e21f591c4e1ab04fc29ede715eb62021-08-02T01:26:43ZengWileyEMBO Molecular Medicine1757-46761757-46842018-06-01106n/an/a10.15252/emmm.201809213CLK2 blockade modulates alternative splicing compromising MYC‐driven breast tumorsFernando Salvador0Roger R Gomis1Oncology Program Institute for Research in Biomedicine (IRB Barcelona) The Barcelona Institute of Science and Technology Barcelona SpainOncology Program Institute for Research in Biomedicine (IRB Barcelona) The Barcelona Institute of Science and Technology Barcelona SpainMYC oncogene overexpression/amplification is common in multiple human cancers, in which it regulates proliferation, apoptosis and cell metabolism, among other processes, and its expression associates with poor prognosis. Targeting MYC presents an exciting therapeutic possibility, but developing appropriate drugs that impair protein function remains challenging. Searching for alternative therapeutic options for treating aggressive MYC‐driven cancers is thus of high clinical interest. Intriguingly, MYC‐driven cancers present vulnerability against spliceosome inhibition. In this issue of EMBO Molecular Medicine, Iwai et al () tackle targeting the splicing regulatory Cdc2‐like kinase (CLKs) family. They report that a novel, orally administered CLK2 inhibitor (T‐025) induces exon skipping, which results in cancer cell growth reduction, especially in breast cancer (BCa) MYC‐driven tumors.https://doi.org/10.15252/emmm.201809213
collection DOAJ
language English
format Article
sources DOAJ
author Fernando Salvador
Roger R Gomis
spellingShingle Fernando Salvador
Roger R Gomis
CLK2 blockade modulates alternative splicing compromising MYC‐driven breast tumors
EMBO Molecular Medicine
author_facet Fernando Salvador
Roger R Gomis
author_sort Fernando Salvador
title CLK2 blockade modulates alternative splicing compromising MYC‐driven breast tumors
title_short CLK2 blockade modulates alternative splicing compromising MYC‐driven breast tumors
title_full CLK2 blockade modulates alternative splicing compromising MYC‐driven breast tumors
title_fullStr CLK2 blockade modulates alternative splicing compromising MYC‐driven breast tumors
title_full_unstemmed CLK2 blockade modulates alternative splicing compromising MYC‐driven breast tumors
title_sort clk2 blockade modulates alternative splicing compromising myc‐driven breast tumors
publisher Wiley
series EMBO Molecular Medicine
issn 1757-4676
1757-4684
publishDate 2018-06-01
description MYC oncogene overexpression/amplification is common in multiple human cancers, in which it regulates proliferation, apoptosis and cell metabolism, among other processes, and its expression associates with poor prognosis. Targeting MYC presents an exciting therapeutic possibility, but developing appropriate drugs that impair protein function remains challenging. Searching for alternative therapeutic options for treating aggressive MYC‐driven cancers is thus of high clinical interest. Intriguingly, MYC‐driven cancers present vulnerability against spliceosome inhibition. In this issue of EMBO Molecular Medicine, Iwai et al () tackle targeting the splicing regulatory Cdc2‐like kinase (CLKs) family. They report that a novel, orally administered CLK2 inhibitor (T‐025) induces exon skipping, which results in cancer cell growth reduction, especially in breast cancer (BCa) MYC‐driven tumors.
url https://doi.org/10.15252/emmm.201809213
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AT rogerrgomis clk2blockademodulatesalternativesplicingcompromisingmycdrivenbreasttumors
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