Valeria Bafunno1, Loredana Bury2, Giovanni Luca Tiscia3, Tiziana Fierro2, Giovanni Favuzzi3, Rocco Caliandro4, Francesco Sessa1, Elvira Grandone3, Maurizio Margaglione1, Paolo Gresele5. 1. Medical Genetics, Department of Clinical and Experimental Medicine, University of Foggia, Foggia, Italy. 2. Department of Medicine, Section of Internal and Cardiovascular Medicine, University of Perugia, Perugia, Italy. 3. Atherosclerosis and Thrombosis Unit, Research Department, Istituto di Ricovero e Cura a Carattere Scientifico, Casa Sollievo della Sofferenza, S. Giovanni Rotondo, Foggia, Italy. 4. Institute of Crystallography, Consiglio Nazionale delle Ricerche, Bari, Italy. 5. Department of Medicine, Section of Internal and Cardiovascular Medicine, University of Perugia, Perugia, Italy. Electronic address: paolo.gresele@unipg.it.
Abstract
INTRODUCTION: Prothrombin deficiency is a very rare disorder caused by mutations in the F2 gene that generate hypoprothrombinemia or dysprothrombinemia and is characterized by bleeding manifestations that can vary from clinically irrelevant to life-threatening. AIM: Here we characterize a patient with a novel missense mutation in F2, c.1090T/A (p.Val322Glu), that causes severe dysprothrombinemia. METHODS: Coagulation assays, prothrombin Western Blotting, FII activation by Ecarin, fibrinogen degradation products quantification and thrombin generation assay were carried out to assess prothrombin expression and function. PCR followed by direct sequencing was carried out to characterize the mutation. In silico analysis for missense variant and molecular modeling were applied to predict the mechanism that leads to dysprothrombinemia. RESULTS AND CONCLUSIONS: The homozygous patient had a markedly prolonged prothrombin time, strongly reduced FII activity (0.82%) but normal antigen levels. In the thrombin generation assay the lag time and the peak height were unmeasurable, suggesting that the Val322Glu mutation results in the inability of the mutant prothrombin to be fully activated to thrombin. In fact, prothrombin activation by ecarin was defective, with a massive accumulation of the meizothrombin intermediate. Molecular modeling and dynamic simulation studies showed that the Val322Glu mutation interferes with protein flexibility at Arg271 and Arg320. This impairs the switch of the protein from zymogen to proteinase, thus preventing the formation of thrombin. Accumulated meizothrombin, however, maintains some fibrinogen-degrading activity, as shown by the formation of FDPs, and this probably explains the patient's mild bleeding phenotype.
INTRODUCTION:Prothrombin deficiency is a very rare disorder caused by mutations in the F2 gene that generate hypoprothrombinemia or dysprothrombinemia and is characterized by bleeding manifestations that can vary from clinically irrelevant to life-threatening. AIM: Here we characterize a patient with a novel missense mutation in F2, c.1090T/A (p.Val322Glu), that causes severe dysprothrombinemia. METHODS: Coagulation assays, prothrombin Western Blotting, FII activation by Ecarin, fibrinogen degradation products quantification and thrombin generation assay were carried out to assess prothrombin expression and function. PCR followed by direct sequencing was carried out to characterize the mutation. In silico analysis for missense variant and molecular modeling were applied to predict the mechanism that leads to dysprothrombinemia. RESULTS AND CONCLUSIONS: The homozygous patient had a markedly prolonged prothrombin time, strongly reduced FII activity (0.82%) but normal antigen levels. In the thrombin generation assay the lag time and the peak height were unmeasurable, suggesting that the Val322Glu mutation results in the inability of the mutant prothrombin to be fully activated to thrombin. In fact, prothrombin activation by ecarin was defective, with a massive accumulation of the meizothrombin intermediate. Molecular modeling and dynamic simulation studies showed that the Val322Glu mutation interferes with protein flexibility at Arg271 and Arg320. This impairs the switch of the protein from zymogen to proteinase, thus preventing the formation of thrombin. Accumulated meizothrombin, however, maintains some fibrinogen-degrading activity, as shown by the formation of FDPs, and this probably explains the patient's mild bleeding phenotype.
Authors: Loredana Bury; Eva Zetterberg; Eva B Leinøe; Emanuela Falcinelli; Alessandro Marturano; Giorgia Manni; Alan T Nurden; Paolo Gresele Journal: Haematologica Date: 2018-02-08 Impact factor: 9.941
Authors: Eman M Mansory; Pratibha Bhai; Alan Stuart; Lori Laudenbach; Bekim Sadikovic; Alejandro Lazo-Langner Journal: Res Pract Thromb Haemost Date: 2021-05-03
Authors: Antonietta Messina; Vincenzo Monda; Francesco Sessa; Anna Valenzano; Monica Salerno; Ilaria Bitetti; Francesco Precenzano; Rosa Marotta; Francesco Lavano; Serena M Lavano; Margherita Salerno; Agata Maltese; Michele Roccella; Lucia Parisi; Roberta I Ferrentino; Gabriele Tripi; Beatrice Gallai; Giuseppe Cibelli; Marcellino Monda; Giovanni Messina; Marco Carotenuto Journal: Front Physiol Date: 2018-03-22 Impact factor: 4.566
Authors: Raffaele Ivan Cincione; Francesca Losavio; Fabiana Ciolli; Anna Valenzano; Giuseppe Cibelli; Giovanni Messina; Rita Polito Journal: Int J Environ Res Public Health Date: 2021-11-27 Impact factor: 3.390