@article{23b480ca2d5b4d2fa0cb9da3771025dd,
title = "Hemodynamic regulation of perivalvular endothelial gene expression prevents deep venous thrombosis",
abstract = "Deep venous thrombosis (DVT) and secondary pulmonary embolism cause approximately 100,000 deaths per year in the United States. Physical immobility is the most significant risk factor for DVT, but a molecular and cellular basis for this link has not been defined. We found that the endothelial cells surrounding the venous valve, where DVTs originate, express high levels of FOXC2 and PROX1, transcription factors known to be activated by oscillatory shear stress. The perivalvular venous endothelial cells exhibited a powerful antithrombotic phenotype characterized by low levels of the prothrombotic proteins vWF, P-selectin, and ICAM1 and high levels of the antithrombotic proteins thrombomodulin (THBD), endothelial protein C receptor (EPCR), and tissue factor pathway inhibitor (TFPI). The perivalvular antithrombotic phenotype was lost following genetic deletion of FOXC2 or femoral artery ligation to reduce venous flow in mice, and at the site of origin of human DVT associated with fatal pulmonary embolism. Oscillatory blood flow was detected at perivalvular sites in human veins following muscular activity, but not in the immobile state or after activation of an intermittent compression device designed to prevent DVT. These findings support a mechanism of DVT pathogenesis in which loss of muscular activity results in loss of oscillatory shear-dependent transcriptional and antithrombotic phenotypes in perivalvular venous endothelial cells, and suggest that prevention of DVT and pulmonary embolism may be improved by mechanical devices specifically designed to restore perivalvular oscillatory flow.",
author = "Welsh, {John D.} and Hoofnagle, {Mark H.} and Sharika Bamezai and Michael Oxendine and Lillian Lim and Hall, {Joshua D.} and Jisheng Yang and Susan Schultz and Engel, {James Douglas} and Tsutomu Kume and Guillermo Oliver and Jimenez, {Juan M.} and Kahn, {Mark L.}",
note = "Funding Information: We thank members of the Kahn laboratory for their thoughtful comments during the course of this work. We thank Carrie Sims and Ben Abella and the Penn Acute Research Collaborative for assistance in obtaining human saphenous vein samples. We thank Rodney Camire from the Children's Hospital of Philadelphia for assistance in performing the APTT assay. We thank Chandra Sehgal for assistance in examining venous blood flow using Doppler ultrasound. We thank Joseph A. DiRienzi, Igor Tsimberg, and Leslie A. Litzky of the Section for Medical Pathology at the University of Pennsylvania for invaluable assistance in obtaining human venous DVT samples at autopsy. We also thank Wanshu Ma and Xiaolei Liu from the Oliver laboratory for help with the generation of animal samples. These studies were supported by NIH grants R01HL121650 (to MLK), P01HL120846 (to MLK), R01HL120872 (to MLK), T32HL07439 (to JDW), RO1HL126920 (to TK), and RO1HL073402 (to GO). Funding Information: We thank members of the Kahn laboratory for their thoughtful comments during the course of this work. We thank Carrie Sims and Ben Abella and the Penn Acute Research Collaborative for assistance in obtaining human saphenous vein samples. We thank Rodney Camire from the Children{\textquoteright}s Hospital of Philadelphia for assistance in performing the APTT assay. We thank Chandra Sehgal for assistance in examining venous blood flow using Doppler ultrasound. We thank Joseph A. DiRienzi, Igor Tsimberg, and Leslie A. Litzky of the Section for Medical Pathology at the University of Pennsylvania for invaluable assistance in obtaining human venous DVT samples at autopsy. We also thank Wanshu Ma and Xiaolei Liu from the Oliver laboratory for help with the generation of animal samples. These studies were supported by NIH grants R01HL121650 (to MLK), P01HL120846 (to MLK), R01HL120872 (to MLK), T32HL07439 (to JDW), RO1HL126920 (to TK), and RO1HL073402 (to GO). Publisher Copyright: Copyright: {\textcopyright} 2019, American Society for Clinical Investigation.",
year = "2019",
month = dec,
day = "2",
doi = "10.1172/JCI124791",
language = "English (US)",
volume = "129",
pages = "5489--5500",
journal = "Journal of Clinical Investigation",
issn = "0021-9738",
publisher = "The American Society for Clinical Investigation",
number = "12",
}