Extracellular matrix signaling through growth factor receptors during wound healing

Wound Repair and Regeneration : Official Publication of the Wound Healing Society [and] the European Tissue Repair Society
Kien T TranAlan Wells

Abstract

Recently, extracellular matrix components have been shown to contain domains that can interact with and activate receptors with intrinsic tyrosine kinase activity. These receptor tyrosine kinases are strong mediators of the cell responses of proliferation, migration, differentiation, and dedifferentiation. However, an interesting question is raised as to why cells would present growth factor receptor ligands in such a manner, as the majority of growth factors are small, soluble, or only transiently tethered ligands. With the exception of the discoidin domain receptors that bind collagen, the other described domains interact with a receptor that binds ubiquitous soluble peptide growth factors, the epidermal growth factor receptor. Unlike traditional growth factors, these individual "matrikine" domains within tenascin-C, laminin, collagen, and decorin possess relatively low binding affinity (high nanomolar or micromolar) and are often presented in multiple valency. The presentation of ligands within the extracellular matrix in this fashion might allow for unique biochemical and physiological outcomes. This new class of "matrikine" ligand may be critical for wound healing, as the majority of known extracellular matrix components p...Continue Reading

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