The relationship between substrate topography and stem cell differentiation in the musculoskeletal system

Cell Mol Life Sci. 2019 Feb;76(3):505-521. doi: 10.1007/s00018-018-2945-2. Epub 2018 Nov 2.

Abstract

It is well known that biomaterial topography can exert a profound influence on various cellular functions such as migration, polarization, and adhesion. With the development and refinement of manufacturing technology, much research has recently been focused on substrate topography-induced cell differentiation, particularly in the field of tissue engineering. Even without biological and chemical stimuli, the differentiation of stem cells can also be initiated by various biomaterials with different topographic features. However, the underlying mechanisms of this biological phenomenon remain elusive. During the past few decades, many researchers have demonstrated that cells can sense the topography of materials through the assembly and polymerization of membrane proteins. Following the activation of RHO, TGF-b or FAK signaling pathways, cells can be induced into various differentiation states. But these signaling pathways often coincide with canonical mechanical transduction pathways, and no firm conclusion has been reached among researchers in this field on topography-specific signaling pathways. On the other hand, some substrate topographies are reported to have the ability to inhibit differentiation and maintain the 'stemness' of stem cells. In this review, we will summarize the role of topography in musculoskeletal system regeneration and explore possible topography-related signaling pathways involved in cell differentiation.

Keywords: Musculoskeletal system; Stem cell differentiation; Tissue engineering; Topography.

Publication types

  • Review

MeSH terms

  • Cell Differentiation*
  • Cell Self Renewal
  • Humans
  • Musculoskeletal System / cytology*
  • Receptors, Cell Surface / metabolism
  • Signal Transduction / physiology*
  • Stem Cells / cytology*

Substances

  • Receptors, Cell Surface

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