Marjolein Kerver scite author profile

Cell-surface tissue factor (TF) binds the serine protease factor VIIa to activate coagulation or, alternatively, to trigger signaling through the G protein-coupled, protease-activated receptor 2 (PAR2) relevant to inflammation and angiogenesis. Here we demonstrate that TF⅐VIIa-mediated coagulation and cell signaling involve distinct cellular pools of TF. The surface-accessible, extracellular Cys 186 -Cys 209 disulfide bond of TF is critical for coagulation, and protein disulfide isomerase (PDI) disables coagulation by targeting this disulfide. A TF mutant (TF C209A) with an unpaired Cys 186 retains TF⅐VIIa signaling activity, and it has reduced affinity for VIIa, a characteristic of signaling TF on cells with constitutive TF expression. We further show that PDI suppresses TF coagulant activity in a nitric oxide-dependent pathway, linking the regulation of TF thrombogenicity to oxidative stress in the vasculature. Furthermore, a unique monoclonal antibody recognizes only the noncoagulant, cryptic conformation of TF. This antibody inhibits formation of the TF⅐PAR2 complex and TF⅐VIIa signaling, but it does not prevent coagulation activation. These experiments delineate an upstream regulatory mechanism that controls TF function, and they provide initial evidence that TF⅐VIIa signaling can be specifically inhibited with minimal effects on coagulation.allosteric disulfide ͉ protein disulfide ͉ isomerase ͉ S-nitrosylation ͉ G protein-coupled receptor

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Inhibition of tissue factor signaling suppresses tumor growth

Versteeg¹,

Schaffner²,

Kerver³

et al. 2008

307

406

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Coagulation activation by tissue factor (TF) is implicated in cancer progression, cancer-associated thrombosis and metastasis. The role of direct TF signaling pathways in cancer, however, remains incompletely understood. Here we address how TF contributes to primary tumor growth by using a unique pair of isotype-matched antibodies that inhibit either coagulation (monoclonal antibody [Mab]-5G9) or direct signaling (Mab-10H10). We demonstrate that the inhibitory antibody of direct TF-VIIa signaling not only blocks TF-VIIa mediated activation of PAR2, but also disrupts the interaction of TF with integrins. In epithelial and TF-expressing endothelial cells, association of TF with beta1 integrins is regulated by TF extracellular ligand binding and independent of PAR2 signaling or proteolytic activity of VIIa. In contrast, alpha3beta1 integrin association of TF is constitutive in breast cancer cells and blocked by Mab-10H10 but not by Mab-5G9. Mab-5G9 has antitumor activity in vivo, but we show here that Mab-10H10 is at least as effective in suppressing human xenograft tumors in 2 different models. Breast tumor growth was also attenuated by blocking PAR2 signaling. These results show that tumor cell TF-PAR2 signaling is crucial for tumor growth and suggest that anti-TF strategies can be applied in cancer therapy with minor impairment of TF-dependent hemostatic pathways.

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Exenatide Reduces Infarct Size and Improves Cardiac Function in a Porcine Model of Ischemia and Reperfusion Injury

Timmers

Henriques

Kleijn

et al. 2009

Journal of the American College of Cardiology

426

332

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Protease-Activated Receptor (PAR) 2, but not PAR1, Signaling Promotes the Development of Mammary Adenocarcinoma in Polyoma Middle T Mice

et al. 2008

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The G protein-coupled protease-activated receptors (PAR) are key signaling components for proteases in vascular biology and tumor progression. To address the contributions of PAR1 and PAR2 to breast cancer development, we established cohorts of mouse mammary tumor virus-polyoma middle T (PyMT) PAR1 tumors was reduced. These results are consistent with previous xenograft data that implicated breast cancer PAR2 signaling in the induction of proangiogenic growth factors and chemokines. This study establishes that protease signaling contributes to mammary tumor development and that PAR2, rather than the thrombin receptor PAR1, plays a crucial role in the angiogenic switch.

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Aneurysm-Express: Human Abdominal Aortic Aneurysm Wall Expression in Relation to Heterogeneity and Vascular Events – Rationale and Design

Hurks¹,

Hoefer

Vink

et al. 2010

Eur Surg Res

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Objective: Elective repair of abdominal aortic aneurysms (AAA) is associated with significant morbidity and mortality. Large amounts of AAA tissue are necessary to assess heterogeneity among AAA and to correct for potential confounders such as known risk factors. The Aneurysm-express study aims to identify different types of AAA using inflammatory markers in the aneurysm wall that predict postoperative cardiovascular adverse events and mortality, therefore allowing individual risk assessment. Methods: The Aneurysm-express is an ongoing prospective cohort study including AAA patients undergoing open repair. At baseline, blood is drawn, relevant clinical data are collected and the standard diagnostic modalities are performed. During surgery a specimen of the ventral AAA wall is collected and processed to study protein expressions and histology. Interim Results: The study commenced in 2003 in 2 medical centers and currently holds information and material of >300 AAA patients, making it the largest reported aneurysm biobank. Patients are followed for 3 years after surgery for occurring cardiovascular events. The current mean follow-up is 2.1 ± 1.3 years with an event rate of 27%. Conclusion: The large amount of structurally stored tissue and blood combined with clinical characteristics and follow-up provide an excellent soil for indepth pathophysiological analyses, with assessment of AAA heterogeneity in combination with postoperative clinical outcome.

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