Inhibition of Rho‐associated kinase blocks agonist‐induced Ca2+ sensitization of myosin phosphorylation and force in guinea‐pig ileum

Abstract

Ca²⁺ sensitization of smooth muscle contraction involves the small GTPase RhoA, inhibition of myosin light chain phosphatase (MLCP) and enhanced myosin regulatory light chain (LC₂₀) phosphorylation. A potential effector of RhoA is Rho-associated kinase (ROK). The role of ROK in Ca²⁺ sensitization was investigated in guinea-pig ileum. Contraction of permeabilized muscle strips induced by GTPγS at pCa 6.5 was inhibited by the kinase inhibitors Y-27632, HA1077 and H-7 with IC₅₀ values that correlated with the known K_i values for inhibition of ROK. GTPγS also increased LC₂₀ phosphorylation and this was prevented by HA1077. Contraction and LC₂₀ phosphorylation elicited at pCa 5.75 were, however, unaffected by HA1077. Pre-treatment of intact tissue strips with HA1077 abolished the tonic component of carbachol-induced contraction and the sustained elevation of LC₂₀ phosphorylation, but had no effect on the transient or sustained increase in [Ca²⁺]_i induced by carbachol. LC₂₀ phosphorylation and contraction dynamics suggest that the ROK-mediated increase in LC₂₀ phosphorylation is due to MLCP inhibition, not myosin light chain kinase activation. In the absence of Ca²⁺, GTPγS stimulated ³⁵S incorporation from [³⁵S]ATPγS into the myosin targeting subunit of MLCP (MYPT). The enhanced thiophosphorylation was inhibited by HA1077. No thiophosphorylation of LC₂₀ was detected. These results indicate that ROK mediates agonist-induced increases in myosin phosphorylation and force by inhibiting MLCP activity through phosphorylation of MYPT. Under Ca²⁺-free conditions, ROK does not appear to phosphorylate LC₂₀in situ, in contrast to its ability to phosphorylate myosin in vitro. In particular, ROK activation is essential for the tonic phase of agonist-induced contraction.