赤藓苷类生物碱及其药理活性研究进展。

Q1 Medicine
Runner R T Majinda
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引用次数: 9

摘要

在过去的5年中,报道的红藓苷生物碱的数量、结构种类和复杂性都有了显著的增加。这种结构多样性似乎在两种Erythrina arborescens和Erythrina variegata的生物碱中最为明显。在它们之间,这些分类群的工作产生了新的聚合(二聚体和三聚体)赤藓苷生物碱,第一个例子是正常的6,5,6,6元吲哚异喹啉螺旋环核心被重新排列成螺旋融合的6,5,7,6骨架。此外,第5环含有2h -咪唑官能团的赤藓苷生物碱也首次被报道,以及一些具有不寻常取代和在赤藓苷核心的C-3和C-7位置具有官能团的新结构。这一贡献还包括了40多种红藓苷生物碱,这些生物碱要么是新的,要么是在最近关于同一主题的主要综述中被省略的,因此迄今为止已知的红藓苷生物碱总数为154种。在少数情况下,由于分离时获得的数据不足,新生物碱的结构是有争议的。为了便于参考和识别,所有具有共同核心的结构都放在本章的同一表格或图表中。文献报道的新的和已知的赤藓苷生物碱的药理活性显示出对中枢神经系统和相关活动的相当大的偏向。其他已报道的突出活性是拒食、杀虫、细胞毒、抗原虫、抗炎、抗氧化、抗真菌和抗病毒作用。赤藓苷生物碱通常似乎缺乏抗菌活性。几种新的聚合生物碱对许多人类癌细胞系缺乏细胞毒性,尽管其中两种具有中等的杀蚜活性,一种具有弱至中等的乙酰胆碱酯酶抑制作用。赤藓多糖生物碱的生物活性似乎受到基本亚结构要求的影响,如共轭二烯(Δ1,2, Δ6,7)体系,并受到红藓多糖核心a、B、C和D环上其他基团的存在(或不存在)的调节。赤藓苷核心可能提供最终可能用于治疗的结构的潜在线索。近年来,许多立体选择性化学合成方法被应用于赤藓类生物碱,本文对这些方法进行了介绍。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
An Update of Erythrinan Alkaloids and Their Pharmacological Activities.

The period of the past 5 years has witnessed a remarkable increase in all of the number, structural variety, and complexity of erythrinan alkaloids reported. This structural diversity seems to be most pronounced in the alkaloids reported from the two species Erythrina arborescens and Erythrina variegata. Between them, work-up of these taxa yielded new polymeric (dimeric and trimeric) erythrinan alkaloids, a first example in one case where a normal 6,5,6,6-membered indoloisoquinoline spirocylic core has rearranged to a spiro-fused 6,5,7,6-skeleton. Furthermore, erythrinan alkaloids with a fifth ring containing a 2H-imidazole functionality were also reported for the first time, together with some new structures having an unusual substitution and with functionalities at positions C-3 and C-7 of the erythrinan core. This contribution has included 40 more erythrinan alkaloids that are either new or were omitted in the most recent major reviews on the same topic, leading to a total of 154 known erythrinan alkaloids to date. There are a few cases where the structures of the new alkaloids are contestable due to insufficient data having been obtained on isolation. To facilitate easier reference and identification, all structures having a common core have been placed in the same table or figure in this chapter.The reported pharmacological activities of the new and known erythrinan alkaloids documented have shown a considerable bias towards central nervous system and related activities. Other prominent activities that have been reported are antifeedant, insecticidal, cytotoxic, antiprotozoal, anti-inflammatory, antioxidant, antifungal, and antiviral effects. Erythrinan alkaloids generally seem to lack antibacterial activity. Several new polymeric alkaloids were found to lack cytotoxicity against a number of human cancer cell lines, although two of them showed moderate aphicidal activity and one exhibited weak to moderate acetylcholinesterase inhibition. The biological activity of erythrinan alkaloids seems to be influenced by basic substructural requirements, such as a conjugated diene (Δ1,2, Δ6,7) system and is modulated by the presence (or absence) of other groups in rings A, B, C, and D of the erythrinan core. The erythrinan core may provide potential leads to structures that eventually may be useful therapeutically.In recent years, a number of stereoselective chemical synthesis methods have been applied towards the erythinan alkaloids, and these are described in this contribution.

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