Many evidences indicate that monocyte cell, human endothelial cells and macrophages synthesize and secrete several MMPs which participate in the degradation of ECM components in atherosclerosis. Matrix metalloproteinases (MMPs) are important group of zinc-containing proteinases responsible for degradation of the extracellular matrix (ECM), including ground substances and connecting fiber. Thus, it plays an important role in tissue structure remodeling, repairing and destroys. In general, inflammatory cytokines and several growth factors can stimulate MMPs gene expression and biosynthesis. Benzydamine is a topical nonsteroidal anti-inflammatory drug (NSAID) with anti-inflammatory, analgesic, antipyretic and local anesthetic activity. Therefore, we investigated the hypothesis that benzydamine could modulate the activity of MMP-9 and vascular activity. We found that benzydamine could inhibit TNF-?-induced MMP-9 activation on human monocytic THP-1 cells by gelatin zymography in the concentration-dependent manner. The inhibitory activities of benzydamine were not mediated by reduction of cellular viability. According to Western blotting method, we found that benzydamine had the inhibitory effect in TNF-?-induced-MMP-9 expressions. By using RT-PCR method, we also found that benzydamine could significantly inhibit the expression of MMP-9 mRNA, thus have deeper influence on the level of MMP-9 transcription. Therefore, we will investigate the mechanism of action of benzydamine in some signaling pathways. We found that benzydamine could not inhibit the degradation of I?B-? induced by TNF-???Besides, we found that benzydamine inhibits p38 MAPK activation induced by TNF-?. By TNF-? ELISA assay, benzydamine could not reduce LPS-induced TNF-???So we considered that improved inflammation indipendent with TNF-? releasing. On the aspect of vascular relaxation, we used the isolated rat aortic rings to investigate the change of vascular activity, found that benzydamine concentration-dependently inhibite phenylephrine-induced contraction, and induced vasodilation no mater endothelium cells exist or not. In the part of smooth muscle cells, when we pretreat aorta rings with sGC inhibitor (ODQ), found that ODQ inhibits the relaxation induced by benzydamine. However, benzydamine-induced relaxation was stronger than soluble guanylyl cyclase (sGC) activator--YC-1. Thus, we considered that should be other mechanism involved in vasodilation by benzydamine. Our experiment showed that addition of benzydamine induced vasorelaxation in the denuded aorta precontracted with KCl in the normal krebs. Benzydamine affected the Ca2+ response strongly , suggesting that the inhibition of benzydamine on agonist response was due to the alteration of Ca2+ sensitivity of the contractile proteins. By confocal, pretreatment of benzydamine (30 ?M) did not affect the Ca2+ influx compared with calcium channel blocker (nifedipine 10 ?M). In vivo, we found that injection of benzydamine could interfere the blood pressure and heart beats. On the lipopolysaccharide (LPS)-induced sepsis animal models, injection of benzydamine could not inhibit downregulation of blood pressure in duced by LPS. In summary, we found that benzydamine have inhibitory effect on MMP-9 expression and activation, and benzydamine with its mechanism of action might through p38 MAPK signal pathway on TNF-? stimulation. Furthermore, we found that major mechanism of benzydamine-induced vasorelaxation could stimulate activity of sGC and inhibite the downstream of Ca2+ release on vascular smooth muscle cell .