BACKGROUND: Plasminogen activator inhibitor-1 (PAI-1) is the primary physiological regulator of urokinase plasminogen activator (uPA) and tissue plasminogen activator (tPA) activity. A number of studies have shown that elevated levels of PAI-1 are related to pathological states such as an increased risk of arterial thrombotic events and a poor prognosis for cancer patients; however, there are few reports about PAI-1 deficiency in humans because the disorder is very rare. OBJECTIVE: To understand the in vivo impact of a complete PAI-1 deficiency, Serpine1(-/-) mice were generated; a number of in vivo studies have been conducted to elucidate the function of PAI-1 using Serpine1(-/-) mice. The phenotypes demonstrated in Serpine1(-/-) mice, however, were quite different from those in humans. Therefore, it is necessary to find out and analyze SERPINE1 deficiency in humans. PATIENT AND METHODS: The patient is a 47-year-old woman who has had multiple episodes of major bleeding. Although most of the patient's blood coagulation factors were functionally normal, her PAI-1 antigen levels were undetectable. Therefore, DNA sequencing of the SERPINE1 gene were analyzed. RESULTS: The proband had a homozygous 1-bp duplication (C) at exon 3 (c.356dupC; p.Ile120AspfsX42). Both wild-type PAI-1 (42.7 kDa) and mutated (Mut) PAI-1 (14.7kDa) were expressed in COS-1 cells, although the level of Mut PAI-1 expressed in the cell lysates was much lower. Wild-type PAI-1 was observed in the culture supernatant, whereas no Mut PAI-1 was detected in the supernatant. CONCLUSIONS: Considering the results of the present study, the translation of mouse studies to humans must be performed with great care.
BACKGROUND:Plasminogen activator inhibitor-1 (PAI-1) is the primary physiological regulator of urokinase plasminogen activator (uPA) and tissue plasminogen activator (tPA) activity. A number of studies have shown that elevated levels of PAI-1 are related to pathological states such as an increased risk of arterial thrombotic events and a poor prognosis for cancerpatients; however, there are few reports about PAI-1 deficiency in humans because the disorder is very rare. OBJECTIVE: To understand the in vivo impact of a complete PAI-1 deficiency, Serpine1(-/-) mice were generated; a number of in vivo studies have been conducted to elucidate the function of PAI-1 using Serpine1(-/-) mice. The phenotypes demonstrated in Serpine1(-/-) mice, however, were quite different from those in humans. Therefore, it is necessary to find out and analyze SERPINE1 deficiency in humans. PATIENT AND METHODS: The patient is a 47-year-old woman who has had multiple episodes of major bleeding. Although most of the patient's blood coagulation factors were functionally normal, her PAI-1 antigen levels were undetectable. Therefore, DNA sequencing of the SERPINE1 gene were analyzed. RESULTS: The proband had a homozygous 1-bp duplication (C) at exon 3 (c.356dupC; p.Ile120AspfsX42). Both wild-type PAI-1 (42.7 kDa) and mutated (Mut) PAI-1 (14.7kDa) were expressed in COS-1 cells, although the level of Mut PAI-1 expressed in the cell lysates was much lower. Wild-type PAI-1 was observed in the culture supernatant, whereas no Mut PAI-1 was detected in the supernatant. CONCLUSIONS: Considering the results of the present study, the translation of mouse studies to humans must be performed with great care.
Authors: Diego M Castilla; Zhao-Jun Liu; Runxia Tian; Yan Li; Alan S Livingstone; Omaida C Velazquez Journal: Ann Surg Date: 2012-10 Impact factor: 12.969
Authors: Joline L Saes; Saskia E M Schols; Kathleen F Betbadal; Mark van Geffen; Kitty Verbeek-Knobbe; Sweta Gupta; Brandon M Hardesty; Amy D Shapiro; Waander L van Heerde Journal: Haemophilia Date: 2019-08-30 Impact factor: 4.287
Authors: Margaret A T Freeberg; Youssef M Farhat; Anas Easa; Jacob G Kallenbach; Dominic W Malcolm; Mark R Buckley; Danielle S W Benoit; Hani A Awad Journal: Sci Rep Date: 2018-04-11 Impact factor: 4.379