Thrombin-induced mitogenesis in coronary artery smooth muscle cells is potentiated by thromboxane A2 and involves upregulation of thromboxane receptor mRNA.

BACKGROUND: Previous studies have shown that thrombin is a potent though slow-acting mitogen for vascular smooth muscle cells (SMC). Because thrombin generation in vivo is accompanied by platelet activation, it has been suggested that platelet-derived factors might enhance thrombin-induced SMC proliferation. No information is available so far on the possible role of thromboxane A2. METHODS AND
RESULTS: Thrombin (1 U/mL) caused a threefold to fourfold increase of DNA synthesis in cultured bovine coronary artery SMC as assessed from [3H]thymidine incorporation. U 46619, a stable thromboxane A2 mimetic, had only a minor stimulating effect on its own but potentiated the thrombin effect sixfold to sevenfold above control (P<.05). These findings were paralleled by a 52+/-5% (P<.05) increase in cell number at 48 hours after addition of both mitogens as compared with 24+/-5% with thrombin alone and no change with U 46619 alone. Thromboxane A2 receptor mRNA was found to be upregulated sixfold 20 minutes after thrombin stimulation. Pretreatment of SMC with thrombin for 4 hours markedly increased U 46619-induced mitogen-activated protein kinase activity, indicating thrombin-induced upregulation of functional thromboxane receptors in SMC.
CONCLUSIONS: Thrombin-induced proliferation of SMC is markedly enhanced by thromboxane A2. This might result in an enhancement of SMC proliferation by platelet-derived thromboxane A2 in vivo.