PLoS ONE (Jan 2014)

GSK3A is redundant with GSK3B in modulating drug resistance and chemotherapy-induced necroptosis.

  • Emanuela Grassilli,
  • Leonarda Ianzano,
  • Sara Bonomo,
  • Carola Missaglia,
  • Maria Grazia Cerrito,
  • Roberto Giovannoni,
  • Laura Masiero,
  • Marialuisa Lavitrano

DOI
https://doi.org/10.1371/journal.pone.0100947
Journal volume & issue
Vol. 9, no. 7
p. e100947

Abstract

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Glycogen Synthase Kinase-3 alpha (GSK3A) and beta (GSK3B) isoforms are encoded by distinct genes, are 98% identical within their kinase domain and perform similar functions in several settings; however, they are not completely redundant and, depending on the cell type and differentiative status, they also play unique roles. We recently identified a role for GSK3B in drug resistance by demonstrating that its inhibition enables necroptosis in response to chemotherapy in p53-null drug-resistant colon carcinoma cells. We report here that, similarly to GSK3B, also GSK3A silencing/inhibition does not affect cell proliferation or cell cycle but only abolishes growth after treatment with DNA-damaging chemotherapy. In particular, blocking GSK3A impairs DNA repair upon exposure to DNA-damaging drugs. As a consequence, p53-null cells overcome their inability to undergo apoptosis and mount a necroptotic response, characterized by absence of caspase activation and RIP1-independent, PARP-dependent AIF nuclear re-localization. We therefore conclude that GSK3A is redundant with GSK3B in regulating drug-resistance and chemotherapy-induced necroptosis and suggest that inhibition of only one isoform, or rather partial inhibition of overall cellular GSK3 activity, is enough to re-sensitize drug-resistant cells to chemotherapy.