Transforming growth factor-β1 promotes the morphological and functional differentiation of the myofibroblast

The myofibroblast is responsible for the generation of contractile force associated with wound contraction and pathological contractures and is characterized by the presence of alpha-smooth muscle (alpha-sm) actin-containing stress fibers, vinculin-containing fibronexus adhesion complexes, and fibronectin fibrils containing the ED-A splice variant. Transforming growth factor-pr (TGF-PI) can promote the expression of alpha-sm actin in myofibroblasts, but the functional significance of this increased expression is unclear. In this study, we demonstrate, using the stress-relaxed collagen lattice contraction assay, that TGF-beta 1 promoted a dose-dependent increase in the generation of contractile force in myofibroblasts and a concomitant increase in the expression of alpha-sm actin. We also demonstrate that TGF-beta 1 enhanced the formation of the structural elements important in myofibroblast contractile force generation and transmission, including stress fibers, vinculin-containing fibronexus adhesion complexes, and fibronectin fibrils, and that this enhancement occurred prior to, and independent of, alpha-sm actin expression. This differentiated myofibroblast phenotype was not stable. Removal of TGF-beta 1 resulted in reduced expression of alpha-sm actin as well as a decreased assembly of stress fibers and vinculin-containing adhesion complexes; however, there was no reduction in fibronectin fibrils. We conclude that TGF-beta 1 promotes the morphological and functional differentiation of the myofibroblast by first enhancing the formation of the structural elements characteristic of the myofibroblast followed by increased expression of alpha-sm actin and contractile force generation. (C) 2000 Academic Press.