Stretch-induced contractile differentiation of vascular smooth muscle: sensitivity to actin polymerization inhibitors

Signaling mechanisms forstretch-dependent growth and differentiation of vascular smooth musclewere investigated in mechanically loaded rat portal veins in organculture. Stretch-dependent protein synthesis was found to depend onendogenous release of angiotensin II. Autoradiography after³⁵S]methionine incorporation revealed stretch-dependentsynthesis of several proteins, of which SM22 and actin wereparticularly prominent. Inhibition of RhoA activity by cell-permeant C3toxin increased tissue mechanical compliance and reducedstretch-dependent extracellular signal-regulated kinase (ERK)1/2activation, growth, and synthesis of actin and SM22, suggesting a roleof the actin cytoskeleton. In contrast, inhibition of Rho-associatedkinase by Y-27632 did not reduce ERK1/2 phosphorylation or actin and SM22 synthesis and did not affect tissue mechanical compliance butstill inhibited overall growth. The actin polymerization inhibitors latrunculin B and cytochalasin D both inhibited growth and caused increased tissue compliance. Whereas latrunculin Bconcentration-dependently reduced actin and SM22 synthesis,cytochalasin D did so at low (10⁸ M) but not at high(10⁶ M) concentration. The results show that stretchstabilizes the contractile smooth muscle phenotype. Stretch-dependentdifferentiation marker expression requires an intact cytoskeleton forstretch sensing, control of protein expression via the level ofunpolymerized G-actin, or both.