Effective Synthesis of a Novel Betulinic Acid Conjugate with Mitochondria-Targeting Cation F16

ECSOC-25 Pub Date : 2021-11-12 DOI:10.3390/ecsoc-25-11638
D. Nedopekina, E. Davletshin, A. Spivak
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Abstract

: Currently, mitochondria are considered as an attractive universal target in the development of new anticancer drugs. These organelles are essential in energy production, regulation of cell death pathways, generation of reactive oxygen species, as well as maintenance of calcium ho-meostasis. Various approaches are being developed to deliver biologically active compounds into the mitochondria of tumour cells, including conjugation of cytotoxic substances with mitochondria-targeted lipophilic cations. Among the currently known low molecular weight lipophilic cationic molecules, (E)-4(1H-indol-3-ylvinyl)-N-methylpyridinium iodide ( F16 ) is of great interest. This mi-tochondria-toxic cationic compound with luminescent properties is selectively accumulated in mitochondria and can selectively trigger apoptosis and necrosis of tumour cells, making it an attractive targeted agent for theranostic use. Meanwhile, betulinic acid, an available natural pentacyclic triterpenoid, has been considered as a promising scaffold for development of new anticancer agents in recent years. The antitumour effect of this natural product arises from affecting the mitochondria of tumour cells through formation of reactive oxygen species. The present article details an efficient synthesis of a novel multifunctional hybrid agent in which a cytotoxic triterpenoid, betulinic acid, is carbon-carbon bonded to the cationic F16 fragment at the C-2 position of ring A through a phenylethynyl spacer. The starting substrates in the synthesis were C-2 propynyl derivative of betulinic acid and N-aryl-substituted 4-(1H-indol-3-ylvinyl)-pyridine. The derivative of betulinic acid with a terminal acetylenic group was prepared by the reaction of C-alkylation with propargyl bromide of potassium enoxytriethylborate generated from betulonic acid. To obtain the N-aryl-substituted an-alogue of F16 , CuI-catalyzed Ullmann-Goldberg reaction was applied. The synthesis of the target conjugate was successfully completed by the cross-coupling of the terpene and heterocyclic compo-nents according to Sonogashira in the presence of CuI/Pd(PPh 3 ) 2 catalyst.
含线粒体靶向阳离子F16的新型白桦酸偶联物的有效合成
目前,线粒体被认为是开发新的抗癌药物的一个有吸引力的通用靶点。这些细胞器在能量产生、细胞死亡途径的调节、活性氧的产生以及钙稳态的维持中都是必不可少的。目前正在开发各种方法来将生物活性化合物输送到肿瘤细胞的线粒体中,包括将细胞毒性物质与靶向线粒体的亲脂性阳离子结合。在目前已知的低分子量亲脂性阳离子分子中,(E)-4(1h -吲哚-3-基乙烯基)- n -甲基碘化吡啶(F16)引起了极大的兴趣。这种具有发光特性的中线粒体毒性阳离子化合物选择性地积聚在线粒体中,可以选择性地引发肿瘤细胞的凋亡和坏死,使其成为一种有吸引力的靶向治疗药物。同时,白桦酸作为一种天然的五环三萜化合物,近年来被认为是一种很有前途的新型抗癌药物支架。这种天然产物的抗肿瘤作用是通过形成活性氧来影响肿瘤细胞的线粒体。本文详细介绍了一种新型多功能杂化剂的高效合成,其中细胞毒性三萜白桦酸通过苯乙基间隔物与a环C-2位置的阳离子F16片段碳碳结合。合成的起始底物为桦木酸的C-2丙基衍生物和n -芳基取代的4-(1h -吲哚-3-基乙烯基)吡啶。以桦木酸为原料,以乙氧三乙基硼酸钾为原料,与丙炔溴化反应制备了末端为乙基的桦木酸衍生物。采用cui催化Ullmann-Goldberg反应得到F16的n-芳基取代偶联物。在CuI/Pd(PPh 3) 2催化剂的作用下,萜类化合物与杂环化合物按照Sonogashira的要求进行交叉偶联,成功合成了目标缀合物。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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