EPCR-PAR1 biased signaling regulates perfusion recovery and neovascularization in peripheral ischemia
Magdalena L. Bochenek, Rajinikanth Gogiraju, Stefanie Großmann, Janina Krug, Jennifer Orth, Sabine Reyda, George S. Georgiadis, Henri M. Spronk, Stavros Konstantinides, Thomas Münzel, John H. Griffin, Philipp Wild, Christine Espinola-Klein, Wolfram Ruf, Katrin Schäfer
Magdalena L. Bochenek, Rajinikanth Gogiraju, Stefanie Großmann, Janina Krug, Jennifer Orth, Sabine Reyda, George S. Georgiadis, Henri M. Spronk, Stavros Konstantinides, Thomas Münzel, John H. Griffin, Philipp Wild, Christine Espinola-Klein, Wolfram Ruf, Katrin Schäfer
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Research Article Angiogenesis Vascular biology

EPCR-PAR1 biased signaling regulates perfusion recovery and neovascularization in peripheral ischemia

Abstract

Blood clot formation initiates ischemic events, but coagulation roles during postischemic tissue repair are poorly understood. The endothelial protein C receptor (EPCR) regulates coagulation, as well as immune and vascular signaling, by protease activated receptors (PARs). Here, we show that endothelial EPCR-PAR1 signaling supports reperfusion and neovascularization in hindlimb ischemia in mice. Whereas deletion of PAR2 or PAR4 did not impair angiogenesis, EPCR and PAR1 deficiency or PAR1 resistance to cleavage by activated protein C caused markedly reduced postischemic reperfusion in vivo and angiogenesis in vitro. These findings were corroborated by biased PAR1 agonism in isolated primary endothelial cells. Loss of EPCR-PAR1 signaling upregulated hemoglobin expression and reduced endothelial nitric oxide (NO) bioavailability. Defective angiogenic sprouting was rescued by the NO donor DETA-NO, whereas NO scavenging increased hemoglobin and mesenchymal marker expression in human and mouse endothelial cells. Vascular specimens from patients with ischemic peripheral artery disease exhibited increased hemoglobin expression, and soluble EPCR and NO levels were reduced in plasma. Our data implicate endothelial EPCR-PAR1 signaling in the hypoxic response of endothelial cells and identify suppression of hemoglobin expression as an unexpected link between coagulation signaling, preservation of endothelial cell NO bioavailability, support of neovascularization, and prevention of fibrosis.

Authors

Magdalena L. Bochenek, Rajinikanth Gogiraju, Stefanie Großmann, Janina Krug, Jennifer Orth, Sabine Reyda, George S. Georgiadis, Henri M. Spronk, Stavros Konstantinides, Thomas Münzel, John H. Griffin, Philipp Wild, Christine Espinola-Klein, Wolfram Ruf, Katrin Schäfer

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Figure 5

Endothelial hemoglobin expression and NO-dependent angiogenesis in PAR1 mutant mice.

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Endothelial hemoglobin expression and NO-dependent angiogenesis in PAR1 ...
(A and B) Representative confocal immunofluorescence microscopy images and quantitative analysis after visualization of HBA (red) expression in CD31+ endothelial cells (green) on cryopreserved cross sections isolated from mice at day 28 after ischemia. DAPI+ cell nuclei appear blue. Scale bars: 10 μm. Two-way ANOVA, Sidak’s multiple comparison; n = 5 biological replicates. *P < 0.05 versus nonischemic hindlimb; ##P < 0.01 and ###P < 0.001 versus C57BL/6N control mice. (CE) Representative Western blots and quantification of HBA and HBG2 (methemoglobin) protein levels in primary lung endothelial cells isolated from C57BL/6N, C57BL/6N PAR1 R41Q, and C57BL/6N PAR1 R46Q mutant mice; n = 3 biological replicates. Samples were run on the same blot. Nonadjacent lanes are indicated by an empty space between them. One-way ANOVA, Sidak’s multiple comparison. ***P < 0.001 and ****P < 0.0001 versus C57BL/6N; ##P < 0.01 and ####P < 0.0001 versus C57BL/6N PAR1 R41Q. Angiogenic sprout formation from aortic rings of C57BL/6N, C57BL/6N PAR1 R41Q, and C57BL/6N PAR1 R46Q mutant mice with and without DETA-NO (100 μM). (F and G) Representative findings and quantitative analysis are shown; n = 3 biological replicates. Scale bars: 100 μm. *P < 0.05 and **P < 0.01 versus C57BL/6N; #P < 0.05 and ##P < 0.01 for DETA-NO versus untreated aortic rings of the same group. One-way ANOVA, Sidak’s multiple-comparison test.