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分子碘催化的咪唑并[1,2 - ]吡啶的合成:其选择性筛选、对生物靶点的结合亲和力及密度泛函理论研究洞察

Molecular Iodine-Catalyzed Synthesis of Imidazo[1,2-]Pyridines: Screening of Their Selectivity, Binding Affinity to Biological Targets, and Density Functional Theory Studies Insight.

作者信息

Geedkar Deepika, Kumar Ashok, Sharma Pratibha

机构信息

School of Chemical Sciences, Devi Ahilya University, Indore 452001, Madhya Pradesh, India.

出版信息

ACS Omega. 2022 Jun 22;7(26):22421-22439. doi: 10.1021/acsomega.2c01570. eCollection 2022 Jul 5.

DOI:10.1021/acsomega.2c01570
PMID:35811892
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9260945/
Abstract

The present paper discloses an ultrasonication strategy assisted by molecular iodine as an environmentally benign catalyst leading to the synthesis of pharmacologically significant imidazo[1,2-]pyridine scaffolds. The molecular-iodine-catalyzed approach for the synthesis of biologically active synthetic equivalents was achieved through three-component coupling embracing 2-aminopyridine derivatives, pertinent acetophenones, and dimedone in water medium under aerobic conditions. The higher product yield (up to 96%) with a miniature reaction time and modest catalyst loading as demonstrated by higher ecological compatibility and sustainability factors are fascinating features of this protocol. The structures of synthesized compounds were accomplished through FT-IR, H NMR,C NMR, mass, and elemental analysis data. The virtual screening of synthetic moieties was performed to ascertain the selectivity and binding affinities against several biological targets. Lipinski's rules of five, ADMET, and TOPKAT descriptors were used to evaluate the drug-likeness assets. Furthermore, a quantum computational study was computed at the B3LYP/6-311G++(d,p) level of theory to investigate the density functional theory-based chemical reactivity parameters and HOMO-LUMO energy gap of the synthesized derivatives. The present studies open the way for and testing of synthesized derivatives as potent inhibitors with an improved pharmacological profile against farnesyl diphosphate synthase, phosphodiesterase III, CXCR4, and GABAa receptor agonists.

摘要

本文公开了一种以分子碘作为环境友好型催化剂辅助的超声处理策略,用于合成具有药理学意义的咪唑并[1,2 -]吡啶支架。在有氧条件下,通过在水介质中使2 -氨基吡啶衍生物、相关苯乙酮和二甲苯酮进行三组分偶联,实现了分子碘催化合成生物活性合成等效物的方法。该方法具有较高的产物收率(高达96%)、极短的反应时间和适度的催化剂负载量,同时具有较高的生态兼容性和可持续性,这些都是该方案的迷人之处。合成化合物的结构通过傅里叶变换红外光谱(FT - IR)、氢核磁共振(H NMR)、碳核磁共振(C NMR)、质谱和元素分析数据得以确定。对合成部分进行虚拟筛选,以确定其对几种生物靶点的选择性和结合亲和力。使用Lipinski的五规则、ADMET和TOPKAT描述符来评估药物相似性特征。此外,在B3LYP/6 - 311G++(d,p)理论水平上进行了量子计算研究,以研究合成衍生物基于密度泛函理论的化学反应性参数和最高占据分子轨道 - 最低未占据分子轨道(HOMO - LUMO)能隙。本研究为测试合成衍生物作为针对法尼基二磷酸合酶、磷酸二酯酶III、CXCR4和GABAa受体激动剂的具有改善药理学特性的有效抑制剂开辟了道路。

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