Tissue Eng Regen Med.  2016 Apr;13(2):126-139. 10.1007/s13770-016-0026-x.

Synthetic Hydrogels with Stiffness Gradients for Durotaxis Study and Tissue Engineering Scaffolds

Affiliations
  • 1Department of Chemical and Biomolecular Engineering, Sogang University, Seoul, Korea. jungwkim@sogang.ac.kr

Abstract

Migration of cells along the right direction is of paramount importance in a number of in vivo circumstances such as immune response, embryonic developments, morphogenesis, and healing of wounds and scars. While it has been known for a while that spatial gradients in chemical cues guide the direction of cell migration, the significance of the gradient in mechanical cues, such as stiffness of extracellular matrices (ECMs), in directed migration of cells has only recently emerged. With advances in synthetic chemistry, micro-fabrication techniques, and methods to characterize mechanical properties at a length scale even smaller than a single cell, synthetic ECMs with spatially controlled stiffness have been created with variations in design parameters. Since then, the synthetic ECMs have served as platforms to study the migratory behaviors of cells in the presence of the stiffness gradient of ECM and also as scaffolds for the regeneration of tissues. In this review, we highlight recent studies in cell migration directed by the stiffness gradient, called durotaxis, and discuss the mechanisms of durotaxis. We also summarize general methods and design principles to create synthetic ECMs with the stiffness gradients and, finally, conclude by discussing current limitations and future directions of synthetic ECMs for the study of durotaxis and the scaffold for tissue engineering.

Keyword

Durotaxis; Mechanical properties; Synthetic hydrogel; Tissue engineering

MeSH Terms

Artificial Cells
Cell Movement
Chemistry
Cicatrix
Cues
Embryonic Development
Extracellular Matrix
Female
Hydrogel*
Hydrogels*
Morphogenesis
Pregnancy
Regeneration
Tissue Engineering*
Wounds and Injuries
Hydrogel
Hydrogels
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