Hypercoagulability Inhibits Monocyte Transendothelial Migration Through Protease-Activated Receptor-1-, Phospholipase-Cβ-, Phosphoinositide 3-Kinase-, and Nitric Oxide-Dependent Signaling in Monocytes and Promotes Plaque Stability

Author:

Seehaus Stefanie1,Shahzad Khurrum1,Kashif Muhammed1,Vinnikov Ilya A.1,Schiller Martin1,Wang Hongjie1,Madhusudhan Thati1,Eckstein Volker1,Bierhaus Angelika1,Bea Florian1,Blessing Erwin1,Weiler Hartmut1,Frommhold David1,Nawroth Peter P.1,Isermann Berend1

Affiliation:

1. From the Department of Medicine I and Clinical Chemistry (S.S., K.S., M.K., I.A.V., H.W., T.M., A.B., P.P.N., B.I.), Department of Medicine V, Hematology/Rheumatology (M.S., V.E.), Department of Medicine III, Cardiology (F.B., E.B.), and Department of Neonatology, Children’s Hospital (D.F.), University of Heidelberg, Heidelberg, Germany; Department of Cardiology, Tongji Hospital, Tongji Medical College, Huazhong University of Science and Technology, Wuhan, China (H.W.); and Blood Research Institute,...

Abstract

Background— Clinical studies failed to provide clear evidence for a proatherogenic role of hypercoagulability. This is in contrast to the well-established detrimental role of hypercoagulability and thrombin during acute atherosclerotic complications. These seemingly opposing data suggest that hypercoagulability might exert both proatherogenic and antiatherogenic effects. We therefore investigated whether hypercoagulability mediates a beneficial effect during de novo atherogenesis. Methods and Results— De novo atherogenesis was evaluated in 2 mouse models with hyperlipidemia and genetically imposed hypercoagulability (TM Pro/Pro ApoE −/− and FVL Q/Q ApoE −/− mice). In both mouse models, hypercoagulability resulted in larger plaques, but vascular stenosis was not enhanced secondary to positive vascular remodeling. Importantly, plaque stability was increased in hypercoagulable mice with less necrotic cores, more extracellular matrix, more smooth muscle cells, and fewer macrophages. Long-term anticoagulation reversed these changes. The reduced frequency of intraplaque macrophages in hypercoagulable mice is explained by an inhibitory role of thrombin and protease-activated receptor-1 on monocyte transendothelial migration in vitro. This is dependent on phospholipase-Cβ, phosphoinositide 3-kinase, and nitric oxide signaling in monocytes but not in endothelial cells. Conclusions— Here, we show a new function of the coagulation system, averting stenosis and plaque destabilization during de novo atherogenesis. The in vivo and in vitro data establish that thrombin-induced signaling via protease-activated receptor-1, phospholipase-Cβ, phosphoinositide 3-kinase, and nitric oxide in monocytes impairs monocyte transendothelial migration. This likely accounts for the reduced macrophage accumulation in plaques of hypercoagulable mice. Thus, in contrast to their role in unstable plaques or after vascular injury, hypercoagulability and thrombin convey a protective effect during de novo atherogenesis.

Publisher

Ovid Technologies (Wolters Kluwer Health)

Subject

Physiology (medical),Cardiology and Cardiovascular Medicine

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