RSV attenuates epithelial cell restitution by inhibiting actin cytoskeleton-dependent cell migration

Abstract

The airway epithelium’s ability to repair itself after injury, known as epithelial restitution, is an essential mechanism enabling the respiratory tract’s normal functions. Respiratory syncytial virus (RSV) is the leading cause of lower respiratory tract infections worldwide. We sought to determine whether RSV delays the airway epithelium wound repair process both in vitro and in vivo. We found that RSV infection attenuated epithelial cell migration, a step in wound repair, promoted stress fiber formation, and mediated assembly of large focal adhesions. Inhibition of Rho-associated kinase, a master regulator of actin function, reversed these effects. There was increased RhoA and phospho-myosin light chain 2 following RSV infection. In vivo, mice were intraperitoneally inoculated with naphthalene to induce lung injury, followed by RSV infection. RSV infection delayed reepithelialization. There were increased concentrations of phospho-myosin light chain 2 in day 7 naphthalene + RSV animals, which normalized by day 14. This study suggests a key mechanism by which RSV infection delays wound healing.