SYNTHESIS OF A 1,2,3-TRIAZOLE-CONTAINING MACROCYCLE BASED ON THE "CLICK CHEMISTRY" REACTION AND ANALYSIS OF ITS PLANAR CHIRALITY USING NMR AND DFT CALCULATIONS

H. Yampolska, S. Kharchenko, A. Kozytskyi, A. Kyrylchuk, Z. Voitenko, O. Grygorenko
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Abstract

Macrocycles represent previously unexplored promising drug candidates, that can be useful for treating protein-protein interactions. Atropoisomerism is an inherent feature of the natural macrocyclic peptides that is significant for their activity and selectivity, and, therefore, should be introduced into newly synthesized macrocycles. Synthesis of the libraries of artificial macrocycles faces many challenges due to their structure and size. Herein we report on the preparation of a 16-membered macrocycle containing 1,2,3-triazole ring, spiro-piperidine, and phenyl moieties, as well as a chiral carbon atom. Our approach to the macrocycle was inspired by the "build/couple/pair" (B/C/P) strategy, a part of diversity-oriented synthesis methodology. We have employed readily accessible starting materials and robust synthetic procedures which allowed us to obtain the target macrocycle in a high yield. Standard methods of amide bond formation were used for the coupling of macrocycle building blocks. Click chemistry azide-alkyne cycloaddition was exploited at the final ring closure step. The assignment of signals in 1H and 13C NMR spectra of the macrocycle was performed using a series of 2D NMR techniques. The macrocycle displayed planar chirality, which, in a combination with a stereocenter with the known configuration, was sufficient to propose possible structures of diastereomers. The diastereomers could differ by the relative position of triazole ring. Their racemization could occur through a "rope skipping" motion involving the cyclic chain crossing the plane of 1,2,3-triazole ring. The supposed structures of diastereomers were corroborated by means of a various NMR spectroscopy techniques and DFT calculations. Analysis of the amide NH chemical shift temperature coefficients coupled with the data on optimized geometries obtained by DFT convincingly demonstrated that the intramolecular hydrogen bonds play a major role in stabilization of the diastereomer structures. According to the variable temperature NMR experiment, the interconversion of two diastereomers did not occur even at heating up to 70 °C.
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基于“点击化学”反应的含1,2,3-三唑大环的合成及其平面手性的NMR和DFT计算分析
大环代表了以前未开发的有前途的候选药物,可用于治疗蛋白质-蛋白质相互作用。Atropoisomerism是天然大环肽的固有特征,具有重要的活性和选择性,因此应引入新合成的大环中。人工大环文库的合成由于其结构和尺寸的限制面临着许多挑战。本文报道了一个包含1,2,3-三唑环、螺-哌啶和苯基基团以及一个手性碳原子的16元大环的制备。我们的宏观周期方法受到“构建/配对/配对”(B/C/P)策略的启发,这是面向多样性的综合方法的一部分。我们采用了容易获得的起始材料和强大的合成程序,使我们能够以高产量获得目标大环。酰胺键形成的标准方法用于大环构建块的耦合。点击化学叠氮-炔环加成在最后的环闭合步骤。利用一系列二维核磁共振技术对大环的1H和13C核磁共振光谱信号进行了赋值。大环显示平面手性,与已知构型的立体中心结合,足以提出可能的非对映体结构。非对映体可以根据三唑环的相对位置而有所不同。它们的外消旋可以通过环链穿过1,2,3-三唑环平面的“跳绳”运动进行。假定的非对映体结构通过各种核磁共振波谱技术和DFT计算得到证实。通过对酰胺NH化学位移温度系数的分析,结合DFT得到的优化几何形状数据,令人信服地证明了分子内氢键在非对映体结构的稳定中起主要作用。根据变温核磁共振实验,两个非对映体即使在加热到70℃时也没有发生相互转化。
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