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Regulation of osteogenesis by micro/nano hierarchical titanium surfaces through a Rock-Wnt5a feedback loop

Colloids Surf B Biointerfaces. 2018 Oct 1:170:1-10. doi: 10.1016/j.colsurfb.2018.05.061. Epub 2018 May 28.

Abstract

Titanium substrates with micro/nano hierarchical features could positively mediate the osteogenesis of a titanium implant; nevertheless, the underlying molecular mechanism needs to be further revealed. In this work, we fabricated a micro/nano hierarchically structured Ti (MNT) sample and attempted to evaluate its topography-mediated biological effects and potential molecular mechanisms in vitro. The results proved that MNT could not only affect cell morphology and osteogenic differentiation, but also regulate ROCK activity cell biological functions of osteoblasts involved in ROCK activation, β-catenin accumulation, and high-Wnt5a expression in respect to topographical features. Moreover, blockade of ROCK activation resulted in significant inhibition of cell differentiation and Wnt5a expression. Furthermore, the anti-Wnt5a significantly down-regulated ROCK activity. In short, these results indicate the important role of ROCK-Wnt5a feedback loop in regulating cell differentiation by topographies.

Keywords: Micro/nano topography; Osteogenic differentiation; ROCK; Titanium; Wnt5a.

MeSH terms

  • Amides / pharmacology
  • Cell Differentiation / drug effects
  • Cell Survival / drug effects
  • Cells, Cultured
  • Feedback, Physiological
  • Humans
  • Osteoblasts / drug effects*
  • Osteoblasts / metabolism
  • Osteogenesis / drug effects*
  • Particle Size
  • Pyridines / pharmacology
  • Surface Properties
  • Titanium / chemistry
  • Titanium / pharmacology*
  • Wnt-5a Protein / antagonists & inhibitors
  • Wnt-5a Protein / genetics
  • Wnt-5a Protein / metabolism*
  • rho-Associated Kinases / antagonists & inhibitors
  • rho-Associated Kinases / genetics
  • rho-Associated Kinases / metabolism*

Substances

  • Amides
  • Pyridines
  • WNT5A protein, human
  • Wnt-5a Protein
  • Y 27632
  • Titanium
  • rho-Associated Kinases