Matrix metalloproteinase 9 may be involved in contraction of vascular smooth muscle cells in an invitro rat model of subarachnoid hemorrhage.

Abstract

Our previous study determined that prominent cerebral vasospasm (CVS) may occur in an invivo model of subarachnoid hemorrhage (SAH) in rats. Matrix metalloproteinase9 (MMP‑9) expression levels in basilar arteries were upregulated in a similar manner to the development of CVS following SAH. To identify the changes that occur in the contractility of cerebrovascular smooth muscle cells and the expression levels of MMP‑9 in an invitro model of SAH, rat cerebrovascular smooth muscle cells were isolated, cultured, and then stimulated with hemolysate. Additionally, 2-[(4-phenoxyphenylsulfonyl)methyl]thiirane (SB-3CT), a selective MMP-9 inhibitor, was used to determine the effect of MMP‑9 on the contractility of cerebrovascular smooth muscle cells. Cerebrovascular smooth muscle cells were successfully isolated and cultured invitro, and hemolysate stimulation enhanced their contractility and increased MMP‑9 expression levels. The present study also revealed that pretreatment with SB‑3CT decreased MMP‑9 expression levels in cerebrovascular smooth muscle cells, and reduced their contractility upon hemolysate treatment. Therefore, the current study confirmed that MMP‑9 is important for the enhancement of the contractility of cerebrovascular smooth muscle cells in an invitro rat model of SAH.