Novel Deep Sea Isoindole Alkaloid FGFC1 Exhibits Its Fibrinolytic Effects by Inhibiting Thrombin-Activatable Fibrinolysis Inhibitor.

IF 4.3 3区 医学 Q2 CHEMISTRY, MEDICINAL Pharmaceuticals Pub Date : 2024-10-20 DOI:10.3390/ph17101401
Haixing Zhang, Xiaozhen Diao, Tingting Jiang, Mingjun Wei, Yue Su, Jingjing Shen, Chunlin Bao, Wenhui Wu
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Abstract

Background: The thrombin-activatable fibrinolysis inhibitor (TAFI) is an important regulator in the balance between blood clot formation (coagulation) and dissolution (fibrinolysis), which is mainly activated by thrombin bonded with thrombomodulin (TM).

Methods: In this study, the investigation focused on the unique target TAFI of fungi fibrinolytic compound 1 (FGFC1), a novel fibrinolytic compound sourced from the deep sea. In this sense, the regulation of TAFI by FGFC1, in comparison to established TAFI inhibitors such as DS-1040 and PCTI in hPPP, was investigated, which was validated through the molecular docking of FGFC1 to TAFI. The inhibitory effect of FGFC1 on TAFI-mediating coagulation (ex vivo and in vitro) and its fibrinolytic effect (ex vivo) were investigated in hPPP and hCMEC/D3 cells, respectively, followed by SEM.

Results: FGFC1 solutions ranging from 0.023 to 0.736 mM effectively inhibited TAFI activation. Notably, the 0.023 mM concentration demonstrated significant suppression, comparable to DS-1040 and PCTI. These inhibitory effects of FGFC1 (0.023-0.368 mM) were further validated through the enhancement in TAFI (TAFIa) activation by fibrins in the coagulum prior to proteolysis, resulting in the cleavage of TAFIa from 33 kDa to 28 kDa. Furthermore, these regulatory effects of FGFC1 on TAFI were demonstrated to have minimal association with TM-mediated control, as confirmed through a molecular docking analysis. FGFC1 (0.023-0.092 mM) was suggested to have obstructive effects on TAFI-mediated coagulation in the hPPP, which was demonstrated by the inhibition of clot aggregation, protein crystallization, and platelet anchoring, as observed through SEM. Simultaneously, FGFC1 (0.023 to 0.368 mM) significantly enhanced TAFI-mediated fibrinolysis, which was also supported by increased levels of t-PA, u-PA, and plasmin.

Conclusions: From the above findings, FGFC1 is identified as a novel dual-target bioactive compound participating in blood formation/dissolution that demonstrates anti-coagulation and fibrinolytic effects by regulating TAFI activation, inhibiting TAFIa-fibrin combination, and initiating proteolysis. It also provided convincing evidence that TAFI plays a critical role in thrombolysis as a molecular link between coagulation and fibrinolysis. Furthermore, the application of FGFC1 was indicated as a potential therapeutic strategy in thromboembolic and hemorrhagic diseases.

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新型深海异吲哚生物碱 FGFC1 通过抑制凝血酶活化性纤维蛋白溶解抑制因子发挥其纤维蛋白溶解作用
背景:凝血酶活化性纤维蛋白溶解抑制因子(TAFI)是血凝块形成(凝血)和溶解(纤维蛋白溶解)之间平衡的重要调节因子,主要由凝血酶与血栓调节蛋白(TM)结合激活:本研究的重点是真菌纤维蛋白溶解化合物 1(FGFC1)的独特靶标 TAFI,这是一种来自深海的新型纤维蛋白溶解化合物。从这个意义上说,与已有的 TAFI 抑制剂(如 hPPP 中的 DS-1040 和 PCTI)相比,本研究考察了 FGFC1 对 TAFI 的调控作用,并通过 FGFC1 与 TAFI 的分子对接进行了验证。分别在 hPPP 和 hCMEC/D3 细胞中研究了 FGFC1 对 TAFI 介导的凝血的抑制作用(体内外)及其纤溶作用(体内外),然后用扫描电镜进行了观察:结果:0.023 至 0.736 mM 的 FGFC1 溶液可有效抑制 TAFI 的活化。值得注意的是,0.023 mM 浓度的 FGFC1 具有显著的抑制作用,与 DS-1040 和 PCTI 相当。FGFC1 (0.023-0.368 mM)的这些抑制作用通过凝固体中的纤维蛋白在蛋白水解前增强 TAFI(TAFIa)的活化得到了进一步验证,这导致 TAFIa 从 33 kDa 裂解为 28 kDa。此外,分子对接分析证实,FGFC1 对 TAFI 的这些调控作用与 TM 介导的调控作用关系不大。FGFC1(0.023-0.092 mM)被认为对 TAFI 介导的 hPPP 凝血有阻碍作用,通过扫描电镜观察到的凝块聚集、蛋白质结晶和血小板锚定的抑制作用证明了这一点。同时,FGFC1(0.023 至 0.368 mM)能显著增强 TAFI 介导的纤溶作用,t-PA、u-PA 和 plasmin 水平的增加也证明了这一点:根据上述研究结果,FGFC1 被确定为一种新型双靶标生物活性化合物,参与血液形成/溶解,通过调节 TAFI 的活化、抑制 TAFIa 与纤维蛋白的结合以及启动蛋白水解,显示出抗凝血和纤维蛋白溶解作用。它还提供了令人信服的证据,证明 TAFI 作为凝血和纤溶之间的分子环节,在溶栓过程中发挥着关键作用。此外,FGFC1 的应用还表明它是血栓栓塞性疾病和出血性疾病的一种潜在治疗策略。
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来源期刊
Pharmaceuticals
Pharmaceuticals Pharmacology, Toxicology and Pharmaceutics-Pharmaceutical Science
CiteScore
6.10
自引率
4.30%
发文量
1332
审稿时长
6 weeks
期刊介绍: Pharmaceuticals (ISSN 1424-8247) is an international scientific journal of medicinal chemistry and related drug sciences.Our aim is to publish updated reviews as well as research articles with comprehensive theoretical and experimental details. Short communications are also accepted; therefore, there is no restriction on the maximum length of the papers.
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