In vitro differences between venous and arterial-derived smooth muscle cells: potential modulatory role of decorin.

OBJECTIVE

We analyzed the phenotypic and functional differences between venous and arterial smooth muscle cells (SMC) and the role of decorin in modulating these differences.

METHODS AND RESULTS

SMC were isolated from the jugular veins and carotid arteries of male white New Zealand rabbits. Venous SMC demonstrated increased proliferation (2-fold, p<0.001), migration (1.7-fold, p<0.001), and collagen synthesis (4-fold, p<0.001), with decreased adhesion to collagen and fibronectin (1.2-fold, p<0.01) compared to arterial SMC. Higher levels of gelatinase activity (MMP-2 and MMP-9) and tissue inhibitor of metalloproteinase (TIMP) were also observed in venous SMC. Venous SMC demonstrated increased expression of SMemb and decreased expression of SM1--markers of a dedifferentiated and differentiated phenotype, respectively. Arterial SMC produced increased levels of the inhibitory proteoglycan, decorin, compared to venous SMC. Conditioned medium from arterial SMC (ASMC-CM) significantly decreased DNA synthesis, collagen synthesis, and gelatinase activity in venous SMC. Removal of decorin from ASMC-CM by immunoprecipitation significantly reversed the inhibitory effects of ASMC-CM on venous SMC proliferation and collagen synthesis but did not affect gelatinase activities.

CONCLUSION

Venous SMC are more dedifferentiated and demonstrate increased proliferative and synthetic capacity than arterial SMC. Differential decorin expression between arterial and venous SMC contributes to these differences in biologic behavior. Venous SMC properties may contribute to accelerated atherosclerosis in venous bypass grafts.