纤维蛋白原
纤维蛋白
化学
天冬酰胺
错义突变
生物化学
突变
凝结
凝血酶时间
分子生物学
医学
生物
免疫学
内科学
氨基酸
部分凝血活酶时间
基因
作者
Roman Kotlín,Zuzana Reicheltová,Martin Malý,Jiřı́ Suttnar,Alžběta Sobotková,Peter Salaj,Jana Hirmerová,Tomáš Riedel,Jan E. Dyr
摘要
Summary Congenital dysfibrinogenemia is a rare disease characterised by inherited abnormality in the fibrinogen molecule, resulting in functional defects. Two patients, a 26-year-old woman and a 61-year-old man, both with history of thrombotic events, had abnormal coagulation test results. DNA sequencing showed the heterozygous γY363N mutation (Fibrinogen Praha III) and the heterozygous Aα N106D mutation (Fibrinogen Plzeň), respectively. Fibrin polymerisation, after addition of either thrombin or reptilase, showed remarkably delayed polymerisation in both cases. Fibrinolysis experiments showed slower tPA initiated lysis of clots. SDS-PAGE did not show any difference between normal and Praha III and Plzeň fibrinogens. Both mutations had a significant effect on platelet aggregation. In the presence of either ADP or TRAP, both mutations caused the decrease of platelet aggregation. SEM revealed abnormal clot morphology, with a large number of free ends and narrower fibres of both fibrin Praha III and Plzeň. Praha III mutation was situated in the polymerisation pocket “a”. The replacement of the bulky aromatic side chain of tyrosine by the polar uncharged small side chain of asparagine may lead to a conformational change, possibly altering the conformation of the polymerisation pocket. The Plzeň mutation is situated in the coiled-coil connector and this replacement of polar uncharged asparagine residue by polar acidic aspartate changes the alpha-helical conformation of the coiled-coil connector;and may destabilise hydrogen bonds in its neighborhood. Although both mutations are situated in different regions of the molecule, both mutations have a very similar effect on fibrinogen functions and both are connected with thromboses.
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