Stem Cell Research (Dec 2019)

Post-Passage rock inhibition induces cytoskeletal aberrations and apoptosis in Human embryonic stem cells

  • Lijie Gao,
  • Suman C. Nath,
  • Xiyao Jiao,
  • Rongyan Zhou,
  • Sandra Nishikawa,
  • Roman Krawetz,
  • Xiangyun Li,
  • Derrick E. Rancourt

Journal volume & issue
Vol. 41

Abstract

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Human embryonic stem cells (hESCs) and induced pluripotent stem cells (hiPSCs) are prone to anoikis after single cell dissociation. The small molecule, Y-27632 is known to increase survival of hESCs and hiPSCs by inhibiting the Rho-associated protein kinase (ROCK). However, the underlying mechanisms are still unclear. Here, we thoroughly screened small molecules to investigate the adhesion and survival of hESCs in adherent culture. Y-27632 provided higher adhesion and survival of hESCs by increased cell migration and preventing cell blebbing in single dissociated cells. The combination of Matrigel with poly-d-lysine increased the attachment and survival of dissociated cells via actin filament and microtubule spreading in Y-27632-treated cells. Although Y-27632 prevented apoptosis by suppressing actin filament contraction, microtubule bundling, and blebbing, prolonged Y-27632 treatment presented a different morphology in the attached growing hESC colony. It induced apoptosis of cells by promoting cytoplasmic spread, E-cadherin structural change, and increased detachment. It also induced actin cytoskeleton disruption, combined with microtubule and intermediate filament elongation. For optimal hPSC culture, our research suggests that Y-27632 should be removed shortly after passaging. Keywords: Cytoskeletal changes, ROCK inhibitor, Apoptosis, Human embryonic stem cells, Adhesion, Extracellular matrices