洪少彤,吴文惠,周喻,等.海洋微生物来源吲哚酮纤溶化合物影响纤溶因子构象特性的研究[J].中国海洋药物,2015,34(1):59-66.
海洋微生物来源吲哚酮纤溶化合物影响纤溶因子构象特性的研究
Effect of indolone compound from marine microbial sources on conformation characteristics of fibrinolytic activity factors
投稿时间:2014-05-26  修订日期:2014-07-02
DOI:
中文关键词:  FGFC1  纤溶因子  圆二色谱  聚丙烯酰胺凝胶电泳  构象
English Keywords:FGFC1  Fibrinolytic factors  circular dichroism spectroscopy(CD)  polyacrylamide gel electrophoresis (SDS-PAGE)  conformation
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作者单位E-mail
洪少彤 上海海洋大学 995828814@qq.com 
吴文惠 上海海洋大学  
周喻 上海海洋大学  
严婷 上海海洋大学  
周寅 上海海洋大学  
包斌* 上海海洋大学 bbao@shou.edu.cn 
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中文摘要:
      摘 要:目的 研究FGFC1对各纤溶因子构象的影响及FGFC1促进纤溶反应的机制。方法 采用圆二色谱法研究FGFC1对各纤溶因子结构的影响,采用发色底物法研究FGFC1对各纤溶因子活性的影响,采用SDS-PAGE电泳法研究FGFC1在纤溶酶原和单链尿激酶型纤溶酶原激活剂构成的相互活化反应体系中的作用。结果 远紫外区的CD结果表明FGFC1在23 μmol?L?1~115 μmol?L?1的浓度范围内均使各纤溶因子的二级结构发生变化,这变化都导致酶分子柔性增加、更易发生反应;近紫外区的CD结果表明,FGFC1使纤溶酶原在285 nm处的摩尔旋光度增大。CD研究结果表明FGFC1对单链尿激酶型纤溶酶原激活剂和尿激酶型纤溶酶原激活剂结构的影响较为微弱,对纤溶酶及纤溶酶原结构的影响复杂而深刻。运用发色底物法检测加入不同浓度FGFC1后各纤溶因子的酶活力,排除了FGFC1对纤溶因子的结构影响而导致的纤溶因子失活的可能性。在体外构筑的纤溶反应体系中,SDS-PAGE的结果显示FGFC1的加入促进FITC-纤维蛋白原的降解,表明FGFC1加速纤溶酶原和单链尿激酶型纤溶酶原的相互活化作用。结论 FGFC1作用于纤溶酶原并辅以改变单链尿激酶型纤溶酶原激活剂的二级结构发挥纤溶促进作用。
English Summary:
      Abstract:Objective This study was designed to investigate the influences of FGFC1 on spatial structure of the fibrinolytic activity factor and explore the mechanisms of FGFC1 to promote fibrinolysis. Methods Circular dichroism spectroscopy (CD) was used to investigate the influences of FGFC1 on spatial structure of the fibrinolytic activity factor,polyacrylamide gel electrophoresis (SDS-PAGE) was used to study the role of FGFC1 in mutual activation reaction system constituted by single chain urokinase-type plasminogen activator and plasminogen,chromogenic substrate method was used to evaluate the effects of FGFC1 on the enzymatic activity of fibrinolytic factors.Results Far-ultraviolet CD spectra showed that in the concentration of 23 μmol?L?1 to 115 μmol?L?1 FGFC1 changed the secondary structure of these enzymes which could be responsible for the increased molecular flexibility and more susceptible to react with substrate. Near-ultraviolet CD spectra showed that there was an increase in the ellipticity of the plasminogen with an enhancement of absorption about at 285 nm.The results of far and near-ultraviolet CD spectra exposed that FGFC1 slightly influenced the conformation of single chain urokinase-type plasminogen activator and urokinase;and highly influenced the conformation of plasminogen and plasmin.The results of chromogenic substrate method ruled out the possibility of deactivation due to effects of FGFC1 on the structure of the fibrinolytic factors.SDS-PAGE results showed FGFC1 promotes the degradation of FITC-fibrinogen which indicated that FGFC1 accelerates the mutual activation reaction between single chain urokinase-type plasminogen activator and plasminogen.Conclusion Based on CD spectra and SDS-PAGE, the present study explained FGFC1 mainly reacts with plasminogen/plasmin than single-chain urokinase-type plasminogen activator as a result the FGFC1 could influence the fibrinolytic process.
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