Literature DB >> 25915734

Tissue stiffness dictates development, homeostasis, and disease progression.

Andrew M Handorf1, Yaxian Zhou, Matthew A Halanski, Wan-Ju Li.   

Abstract

Tissue development is orchestrated by the coordinated activities of both chemical and physical regulators. While much attention has been given to the role that chemical regulators play in driving development, researchers have recently begun to elucidate the important role that the mechanical properties of the extracellular environment play. For instance, the stiffness of the extracellular environment has a role in orienting cell division, maintaining tissue boundaries, directing cell migration, and driving differentiation. In addition, extracellular matrix stiffness is important for maintaining normal tissue homeostasis, and when matrix mechanics become imbalanced, disease progression may ensue. In this article, we will review the important role that matrix stiffness plays in dictating cell behavior during development, tissue homeostasis, and disease progression.

Keywords:  ECM, Extracellular matrix; EPC, Endothelial progenitor cell; FA, Focal adhesion; FAK, Focal adhesion kinase; LOX, Lysyl oxidase; MKL1, Megakaryoblastic leukemia factor-1; MMP, Matrix metalloproteinase; MSC, Mesenchymal stem cell; ROCK, Rho-associated protein kinase; VSMC, Vascular smooth muscle cell.; cancer; extracellular matrix; fibrosis; stiffness; tissue development; tissue homeostasis

Mesh:

Year:  2015        PMID: 25915734      PMCID: PMC4594591          DOI: 10.1080/15476278.2015.1019687

Source DB:  PubMed          Journal:  Organogenesis        ISSN: 1547-6278            Impact factor:   2.500


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