Targeting Histone Deacetylase Activity to Arrest Cell Growth and Promote Neural Differentiation in Ewing Sarcoma

There is an urgent need for advances in the treatment of Ewing sarcoma (EWS), an aggressive childhood tumor with possible neuroectodermal origin. Inhibition of histone deacetylases (HDAC) can revert aberrant epigenetic states and reduce growth in different experimental cancer types. Here, we investi...

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Veröffentlicht in:Molecular neurobiology 2018-09, Vol.55 (9), p.7242-7258
Hauptverfasser: Souza, Bárbara Kunzler, da Costa Lopez, Patrícia Luciana, Menegotto, Pâmela Rossi, Vieira, Igor Araujo, Kersting, Nathalia, Abujamra, Ana Lúcia, Brunetto, André T., Brunetto, Algemir L., Gregianin, Lauro, de Farias, Caroline Brunetto, Thiele, Carol J., Roesler, Rafael
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Sprache:eng
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Zusammenfassung:There is an urgent need for advances in the treatment of Ewing sarcoma (EWS), an aggressive childhood tumor with possible neuroectodermal origin. Inhibition of histone deacetylases (HDAC) can revert aberrant epigenetic states and reduce growth in different experimental cancer types. Here, we investigated whether the potent HDAC inhibitor, sodium butyrate (NaB), has the ability to reprogram EWS cells towards a more differentiated state and affect their growth and survival. Exposure of two EWS cell lines to NaB resulted in rapid and potent inhibition of HDAC activity (1 h, IC 50 1.5 mM) and a significant arrest of cell cycle progression (72 h, IC 50 0.68–0.76 mM), marked by G0/G1 accumulation. Delayed cell proliferation and reduced colony formation ability were observed in EWS cells after long-term culture. NaB-induced effects included suppression of cell proliferation accompanied by reduced transcriptional expression of the EWS-FLI1 fusion oncogene, decreased expression of key survival and pluripotency-associated genes, and re-expression of the differentiation neuronal marker βIII-tubulin. Finally, NaB reduced c-MYC levels and impaired survival in putative EWS cancer stem cells. Our findings support the use of HDAC inhibition as a strategy to impair cell growth and survival and to reprogram EWS tumors towards differentiation. These results are consistent with our previous studies indicating that HDis can inhibit the growth and modulate differentiation of cells from other types of childhood pediatric tumors possibly originating from neural stem cells.
ISSN:0893-7648
1559-1182
DOI:10.1007/s12035-018-0874-6