一类新型吲哚衍生物:增强血栓栓塞性疾病治疗的生物利用度、渗透性和抗氧化功效

IF 3.5 4区 医学 Q3 CHEMISTRY, MEDICINAL Medicinal Chemistry Research Pub Date : 2024-07-15 DOI:10.1007/s00044-024-03277-1
Srinivas Rao Mandalapu, Shanshan Hou, Steffen Jockusch, Zhiying Shan, Lanrong Bi
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引用次数: 0

摘要

自由基如活性氧(ROS)和活性氮(RNS)通过促进血小板活化和聚集导致细胞损伤和血栓栓塞性疾病。清除自由基的化合物可以减少氧化应激,减少血小板聚集和血栓形成。尽管吲哚具有有益的生物活性,但由于其生物利用度差、溶解性差、代谢快、膜通透性有限等原因,其临床应用存在局限性。为了克服这些问题,我们设计了一类新的吲哚衍生物(10a-j),其中含有三唑连接剂和多种氨基酸。这些缀合物提高了溶解度和生物利用度,并具有抗氧化性能。化合物10f、10g和10h表现出改善渗透性和显著的抗血小板聚集作用,与阿司匹林相当。这些发现突出了这些新的吲哚衍生物作为有效抗血栓药物的潜力,值得进一步探索其机制和治疗应用。
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A novel class of indole derivatives: enhanced bioavailability, permeability, and antioxidant efficacy for thromboembolic disease therapy

Free radicals like reactive oxygen species (ROS) and reactive nitrogen species (RNS) cause cellular damage and contribute to thromboembolic diseases by promoting platelet activation and aggregation. Compounds that scavenge free radicals can reduce oxidative stress, decreasing platelet aggregation and thrombus formation. Despite their beneficial biological activities, indoles have clinical limitations due to poor bioavailability, solubility, rapid metabolism, and limited membrane permeability. We designed a new class of indole derivatives (10a–j) with a triazole linker and various amino acids to overcome these issues. These conjugates enhance solubility and bioavailability and possess antioxidant properties. Compounds 10f, 10g, and 10h showed improved permeability and significant anti-platelet aggregation effects, comparable to aspirin. These findings highlight the potential of these new indole derivatives as effective antithrombotic agents, warranting further exploration of their mechanisms and therapeutic applications.

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来源期刊
Medicinal Chemistry Research
Medicinal Chemistry Research 医学-医药化学
CiteScore
4.70
自引率
3.80%
发文量
162
审稿时长
5.0 months
期刊介绍: Medicinal Chemistry Research (MCRE) publishes papers on a wide range of topics, favoring research with significant, new, and up-to-date information. Although the journal has a demanding peer review process, MCRE still boasts rapid publication, due in part, to the length of the submissions. The journal publishes significant research on various topics, many of which emphasize the structure-activity relationships of molecular biology.
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