Thrombomodulin-Protein C-EPCR System. Integrated to Regulate Coagulation and Inflammation

doi:10.1161/01.ATV.0000134298.25489.92

Published Online
on June 3, 2004

Arteriosclerosis, Thrombosis, and Vascular Biology. 2004
Published online before print June 3, 2004, doi: 10.1161/01.ATV.0000134298.25489.92

A more recent version of this article appeared on August 1, 2004

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Submitted on February 25, 2004
Accepted on May 19, 2004

Thrombomodulin-Protein C-EPCR System. Integrated to Regulate Coagulation and Inflammation

Marlies Van de Wouwer ; Désiré Collen ; and Edward M. Conway ^*

From The Center for Transgene Technology and Gene Therapy, University of Leuven and the Flanders Interuniversity Institute for Biotechnology (VIB), Belgium.

^* To whom correspondence should be addressed. E-mail: Ed.Conway{at}med.kuleuven.ac.be.

Abstract--Late in the 18th century, William Hewson recognizedthat the formation of a clot is characteristic of many febrile,inflammatory diseases (Owen C. A History of Blood Coagulation.Rochester, Minnesota: Mayo Foundation; 2001). Since that time,there has been steady progress in our understanding of coagulationand inflammation, but it is only in the past few decades thatthe molecular mechanisms linking these 2 biologic systems havestarted to be delineated. Most of these can be traced to thevasculature, where the systems most intimately interact. Thrombomodulin(TM), a cell surface-expressed glycoprotein, predominantly synthesizedby vascular endothelial cells, is a critical cofactor for thrombin-mediatedactivation of protein C (PC), an event further amplified bythe endothelial cell protein C receptor (EPCR). Activated PC(APC), in turn, is best known for its natural anticoagulantproperties. Recent evidence has revealed that TM, APC, and EPCRhave activities that impact not only on coagulation but alsoon inflammation, fibrinolysis, and cell proliferation. Thisreview highlights recent insights into the diverse functionsof this complex multimolecular system and how its componentsare integrated to maintain homeostasis under hypercoagulableand/or proinflammatory stress conditions. Overall, the describedadvances underscore the usefulness of elucidating the relevantmolecular pathways that link both systems for the developmentof novel therapeutic and diagnostic targets for a wide rangeof inflammatory diseases.

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