We investigated the role of the p38 mitogen-activated protein kinase (p38 MAPK) in the PDGF-BB-induced cytoskeleton remodeling that occurs during the migration of porcine aortic smooth muscle cells (SMC). We showed that p38 MAPK controlled the polymerization of actin that is required for PDGF-induced lamellipodia formation and migration. To investigate the mechanism of action of p38 MAPK, we explored its cellular localization and that of its indirect substrate, the heat shock protein Hsp27, during SMC spreading on fibronectin in the presence and absence of PDGF. Spreading of SMC on fibronectin activated p38 MAPK in a sustained manner only in the presence of PDGF. In these conditions, Hsp27 and p38 MAPK were localized all over the lamellipodia. A transiently phosphorylated form of p38 MAPK was observed at the leading edge, whereas p38 MAPK remained phosphorylated at the base of the lamellipodia. Phosphorylated Hsp27 was excluded from the leading edge and restricted to the base of the lamellipodia. These results were confirmed by Triton X-100 extraction of particulate membrane fraction. Displacement of Hsp27 from the leading edge by cytochalasin D treatment suggests that nonphosphorylated Hsp27 caps barbed ends in vivo. Our data indicate that nonphosphorylated Hsp27 might contribute to the formation of a short, branched actin network at the leading edge, whereas phosphorylated Hsp27 might stabilize the actin network at the base of lamellipodia, which is composed of long, unbranched actin filaments.
To cite this article: Richard B, Pichon S, Arocas V, Venisse L, Berrou E, Bryckaert M, Jandrot-Perrus M, Bouton M-C. The serpin protease nexin-1 regulates vascular smooth muscle cell adhesion, spreading, migration and response to thrombin. J Thromb Haemost 2006; 4: 322-8.See also Ferroni P, Guadagni F. Protease nexin-1: a regulator of vascular disease? This issue, pp 320-1.Summary. Background: Protease nexin-1 (PN-1) is an important physiological regulator of thrombin in the brain. PN-1 is also present in aortic smooth muscle cells and may thus participate in vascular biology. However, little is known about its function in the vessel wall. Objectives: In this study, we investigated the effect of PN-1 overexpression in smooth muscle cells (SMCs), on their sensitivity to thrombin, and their capacity for adhesion, spreading and migration. Results: Two clones exhibiting a twoto threefold increase in PN-1 expression were selected and compared with untransfected and mock-transfected cells. Overexpression of PN-1 was observed to inhibit thrombininduced cell responses as indicated by a twofold decrease in induction of PAI-1 expression, a decreased calcium mobilization in response to low thrombin concentrations and a twofold increase in the capacity to inhibit thrombin catalytic activity. Overexpression of PN-1 did not modify adhesion, spreading, and migration of SMCs on type I collagen. In contrast, SMCs overexpressing PN-1 exhibited a 40% reduction in adhesion, a 50% reduction in spreading and a complete absence of migration on vitronectin when compared with control SMCs. Conclusions: Our studies thus reveal that PN-1 is likely to play a critical role in regulating essential cell functions such as (i) thrombin-induced responses, which are dependent on its antiprotease activity, and (ii) adhesion, spreading, and migration, which are independent of its antiprotease activity and may be related to its interaction with other partners, such as vitronectin in the present case.
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