Antithrombin deficiency in three Japanese families: One novel and two reported point mutations in the antithrombin gene |
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| Authors: | Keiko Maruyama Eriko Morishita Megumi Karato Tadaaki Kadono Akiko Sekiya Yukie Goto Tomomi Sato Haruka Nomoto Wataru Omi Sachie Tsuzura Hidenori Imai Hidesaku Asakura Shigeki Ohtake Shinji Nakao |
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| Affiliation: | 1. Department of Clinical Laboratory Science, Kanazawa University Graduate School of Medical Science, Kanazawa, Japan;2. Department of Hematology, Kanazawa University Hospital, Kanazawa, Japan;3. Toyama Prefectural Arakawa Health and Welfare Center, Toyama, Japan;4. Kanazawa Municipal Hospital, Kanazawa, Japan;5. Department of Cardiovascular Medicine, Organization Kanazawa Medical Center, Kanazawa, Japan;6. Department of Diabetes and Endocrine Medicine, Chikamori Hospital, Kochi, Japan;g Department of Hematology, Juntendo University Urayasu Hospital, Chiba, Japan |
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| Abstract: | IntroductionInherited antithrombin (AT) deficiency is associated with a predisposition to familial venous thromboembolic disease. We analyzed the AT gene in three unrelated patients with an AT deficiency who developed thrombosis.Materials and MethodsWe analyzed the SERPINC1 gene in three patients. Additionally, we expressed the three mutants in the COS-1 cells and compared their secretion rates and levels of AT activity with those of the wild-type (WT).ResultsWe identified three distinct heterozygous mutations of c.2534C>T: p.56Arginine → Cysteine (R56C), c.13398C>A: p.459Alanine → Aspartic acid (A459D) and c.2703C>G: p.112 Proline → Arginine (P112R). In the in vitro expression experiments, the AT antigen levels in the conditioned media (CM) of the R56C mutant were nearly equal to those of WT. In contrast, the AT antigen levels in the CM of the A459D and P112R mutants were significantly decreased. The AT activity of R56C was decreased in association with a shorter incubation time in a FXa inhibition assay and a thrombin inhibition-based activity test. However, the AT activity of R56C was comparable to that of WT when the incubation time was increased.ConclusionsWe concluded that the R56C mutant is responsible for type II HBS deficiency. We considered that the A459D and P112R mutants can be classified as belonging to the type I AT deficiency. |
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| Keywords: | AT, Antithrombin serpin, Serine protease inhibitor FXa, Factor Xa RCL, Reactive center loop Arg, Arginine Lys, Lysine VTE, Venous thromboembolism type II RS, Type II reactive site defects type II HBS, Type II heparin binding site defects type II PE, Type II with pleiotropic defects cDNA, Complementary DNA WT, Wild-type COS-1 cells, Green monkey kidney cells Cys, Cysteine Pro, Proline Ala, Alanine Asp, Aspartic acid PMSF, Phenylmethyl sulfonylfluoride ELISA, Enzyme-linked immunosorbent assay RFLP, Restriction fragment length polymorphism analysis CM, Conditioned media CL, Cell lysates PE, Pulmonary thromboembolism DVT, Deep vein thrombosis |
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