Dependence of augmentation of arterial endothelial cell expression of plasminogen activator inhibitor type 1 by insulin on soluble factors released from vascular smooth muscle cells

Abstract

Background: Insulin-resistant states are characterized by accelerated atherosclerosis and are associated with increased plasma concentrations of insulin and plasminogen activator inhibitor type 1 (PAI-1). To determine whether arterial expression of PAI-1 in response to insulin contributes to the increased PAI-1 observed, human and porcine arteries in culture were exposed to insulin, and results were compared with responses of specific arterial cellular constituents maintained in culture and coculture.

Methods and results: Human and porcine arterial segments and cells obtained from arteries were maintained in culture. Insulin increased accumulation of PAI-1 in conditioned medium from arterial segments (ng PAI-1 [1 nmol/L insulin minus control]: human arteries 47+/-17, porcine arteries 3.1+/-1.2, P<.05 for each) and from endothelial cells (ECs) cocultured with smooth muscle cells (SMCs, ng PAI-1 [1 nmol/L insulin minus control]: human cells 43+/-8, porcine cells 0.5+/-0.1, P<.05 for each). Insulin had no effect on EC expression of PAI-1 when not cocultured with SMCs. Increased accumulation of PAI-1 was seen when ECs, in coculture chambers without SMCs, were cultured with medium previously conditioned by SMCs in the presence of insulin. The increased accumulation of PAI-1 in conditioned medium was secondary to both an increased transport of PAI-1 from the basal to the apical surface of ECs as well as an increased production of PAI-1 by ECs.

Conclusions: Insulin augments arterial expression of PAI-1 by stimulating release of a soluble factor(s) from SMCs. Accordingly, increased arterial elaboration of PAI-1 in response to insulin is likely to account, in part, for the elevated PAI-1 observed in the blood of subjects with insulin-resistant states.