Background: Treatment with an antibody that binds beta3 integrins (abciximab; c7E3 Fab) at the time of coronary angioplasty decreases the need for repeat revascularization. Two potential mechanisms have been proposed to explain this effect: (1) inhibition of platelet aggregation or (2) interruption of ligand binding to beta3 integrins on the smooth muscle cell (SMC) surface. We examined the latter hypothesis by determining (1) if beta3 integrin expression is upregulated after vascular injury in the baboon, (2) if 7E3 binds beta3 integrins on cultured SMC, and (3) if beta3 integrin activation plays a role in proliferation of cultured SMC.
Methods and results: Results demonstrated that immunostaining for beta3 integrins was present in the neointima 1 week after balloon withdrawal injury of baboon brachial arteries and that beta3 integrin expression colocalized with alpha-actin-positive cells. In contrast, staining for beta3 integrins was undetectable in contralateral uninjured brachial arteries. 7E3 bound to cultured human aortic SMC with an affinity (KD=3.3 nmol/L) similar to 7E3 binding to endothelial cells or platelets. Cotreatment with 7E3 partially inhibited thrombospondin-induced or alpha-thrombin-induced proliferation but not PDGF-induced or serum-induced proliferation.
Conclusions: In summary, these studies demonstrate that vascular cell beta3 integrin expression is increased after injury, that 7E3 binds to cultured SMC with high affinity, and that beta3 activation is important for thrombospondin-induced or alpha-thrombin-induced proliferation. These results support the hypothesis that beta3 integrins play a role in SMC growth responses after balloon injury.