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Epigenetic and molecular coordination between HDAC2 and SMAD3-SKI regulates essential brain tumour stem cell characteristics

Ravinder Kaur Bahia, Xiaoguang Hao, Rozina Hassam, Orsolya Cseh, Danielle Bozek, H. Artee Luchman, Samuel Weiss

2023Nature Communications28 citationsDOIOpen Access PDF

Abstract

Histone deacetylases are important epigenetic regulators that have been reported to play essential roles in cancer stem cell functions and are promising therapeutic targets in many cancers including glioblastoma. However, the functionally relevant roles of specific histone deacetylases, in the maintenance of key self-renewal and growth characteristics of brain tumour stem cell (BTSC) sub-populations of glioblastoma, remain to be fully resolved. Here, using pharmacological inhibition and genetic loss and gain of function approaches, we identify HDAC2 as the most relevant histone deacetylase for re-organization of chromatin accessibility resulting in maintenance of BTSC growth and self-renewal properties. Furthermore, its specific interaction with the transforming growth factor-β pathway related proteins, SMAD3 and SKI, is crucial for the maintenance of tumorigenic potential in BTSCs in vitro and in orthotopic xenograft models. Inhibition of HDAC2 activity and disruption of the coordinated mechanisms regulated by the HDAC2-SMAD3-SKI axis are thus promising therapeutic approaches for targeting BTSCs.

Topics & Concepts

EpigeneticsChromatinHistoneHistone deacetylase 2Histone deacetylaseBiologyStem cellCancer researchChromatin remodelingCell biologyComputational biologyGeneticsDNAGeneHistone Deacetylase Inhibitors ResearchEpigenetics and DNA MethylationProtein Degradation and Inhibitors
Epigenetic and molecular coordination between HDAC2 and SMAD3-SKI regulates essential brain tumour stem cell characteristics | Litcius