INTRODUCTION: Factor VII activating protease (FSAP) is a plasma protease with FVII and pro-urokinase (pro-uPA) activating properties. A single nucleotide polymorphism (SNP) (Marburg I, MI) in the FSAP gene (HABP-2) leads to a low activity of the MI-FSAP towards pro-uPA, but supposedly not towards FVII and is described as a risk factor for athero-thrombosis and liver fibrosis. Recently we found, however, that FVII is an extremely poor substrate of FSAP and identified tissue factor pathway inhibitor (TFPI) as a novel substrate for FSAP. This prompted us to re-investigate the proteolytic activity profile of FSAP and to re-define its role in haemostasis. MATERIAL AND METHODS: Using purified protein and genotyped plasma samples, we systematically compared the activities of wild type (WT) and MI-FSAP towards natural plasma substrates. The influence of FSAP on coagulation was studied in prothrombin time assays. RESULTS: FSAP from homozygous MI-carriers has a general low proteolytic activity making this variant a natural "knock-down". In human plasma WT-FSAP, but not MI-FSAP, accelerated the extrinsic coagulation by inactivation of TFPI. The diminished ability of MI-FSAP to cleave TFPI is reflected by a positive correlation between the FSAP enzymatic activity and cleaved TFPI in the circulation. CONCLUSION: Most likely TFPI cleavage by WT-FSAP occurs in vivo and contributes to an elevated level of endogenous FVIIa. This may explain why MI-FSAP is not a clear indicator for deep vein thrombosis in population studies. The loss of the pro-fibrinolytic protective function of FSAP in carriers of the MI-SNP may account for the association of the MI-SNP with atherosclerosis and thromboembolic complications.
INTRODUCTION:Factor VII activating protease (FSAP) is a plasma protease with FVII and pro-urokinase (pro-uPA) activating properties. A single nucleotide polymorphism (SNP) (Marburg I, MI) in the FSAP gene (HABP-2) leads to a low activity of the MI-FSAP towards pro-uPA, but supposedly not towards FVII and is described as a risk factor for athero-thrombosis and liver fibrosis. Recently we found, however, that FVII is an extremely poor substrate of FSAP and identified tissue factor pathway inhibitor (TFPI) as a novel substrate for FSAP. This prompted us to re-investigate the proteolytic activity profile of FSAP and to re-define its role in haemostasis. MATERIAL AND METHODS: Using purified protein and genotyped plasma samples, we systematically compared the activities of wild type (WT) and MI-FSAP towards natural plasma substrates. The influence of FSAP on coagulation was studied in prothrombin time assays. RESULTS:FSAP from homozygous MI-carriers has a general low proteolytic activity making this variant a natural "knock-down". In human plasma WT-FSAP, but not MI-FSAP, accelerated the extrinsic coagulation by inactivation of TFPI. The diminished ability of MI-FSAP to cleave TFPI is reflected by a positive correlation between the FSAP enzymatic activity and cleaved TFPI in the circulation. CONCLUSION: Most likely TFPI cleavage by WT-FSAP occurs in vivo and contributes to an elevated level of endogenous FVIIa. This may explain why MI-FSAP is not a clear indicator for deep vein thrombosis in population studies. The loss of the pro-fibrinolytic protective function of FSAP in carriers of the MI-SNP may account for the association of the MI-SNP with atherosclerosis and thromboembolic complications.
Authors: Eun-Ju Lee; Daniel J Dykas; Andrew D Leavitt; Rodney M Camire; Eduard Ebberink; Pablo García de Frutos; Kavitha Gnanasambandan; Sean X Gu; James A Huntington; Steven R Lentz; Koen Mertens; Christopher R Parish; Alireza R Rezaie; Peter P Sayeski; Caroline Cromwell; Noffar Bar; Stephanie Halene; Natalia Neparidze; Terri L Parker; Adrienne J Burns; Anne Dumont; Xiaopan Yao; Cassius Iyad Ochoa Chaar; Jean M Connors; Allen E Bale; Alfred Ian Lee Journal: Blood Adv Date: 2017-06-29
Authors: Joerg Herold; Steven Nowak; Sawa Kostin; Jan-Marcus Daniel; Alexander Francke; Saravanan Subramaniam; Ruediger C Braun-Dullaeus; Sandip M Kanse Journal: Am J Transl Res Date: 2017-06-15 Impact factor: 4.060
Authors: Mariana S Parahuleva; Sandip Kanse; Hans Hölschermann; Kirila Zheleva; Daniel Zandt; Michael Worsch; Behnoush Parviz; Norbert Güttler; Harald Tillmanns; Andreas Böning; Ali Erdogan Journal: J Thromb Thrombolysis Date: 2014-04 Impact factor: 2.300
Authors: Mariana S Parahuleva; Bernhard Schieffer; Michael Klassen; Michael Worsch; Behnoush Parviz; Hans Hölschermann Journal: Med Sci Monit Date: 2018-06-21
Authors: M Olsson; T M Stanne; A Pedersen; E Lorentzen; E Kara; A Martinez-Palacian; N P Rønnow Sand; A F Jacobsen; P M Sandset; J J Sidelmann; G Engström; O Melander; S M Kanse; C Jern Journal: J Thromb Haemost Date: 2018-08-24 Impact factor: 5.824
Authors: Ferruh Artunc; Bernhard N Bohnert; Jonas C Schneider; Tobias Staudner; Florian Sure; Alexandr V Ilyaskin; Matthias Wörn; Daniel Essigke; Andrea Janessa; Nis V Nielsen; Andreas L Birkenfeld; Michael Etscheid; Silke Haerteis; Christoph Korbmacher; Sandip M Kanse Journal: Pflugers Arch Date: 2021-12-06 Impact factor: 4.458