Quinoline Derivatives as Promising Scaffolds for Antitubercular Activity: A Comprehensive Review.

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
Mohammad Owais, Arun Kumar, Syed Misbahul Hasan, Kuldeep Singh, Iqbal Azad, Arshad Hussain, Suvaiv, Mohd Akil
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引用次数: 0

Abstract

Background: Heterocyclic compounds and their derivatives play a significant role in the design and development of novel quinoline drugs. Among the various pharmacologically active heterocyclic compounds, quinolines stand out as the most significant rings due to their broad pharmacological roles, specifically antitubercular activity, and their presence in plant-based compounds. Quinoline is also known as benzpyridine, benzopyridine, and 1-azanaphthalene. It has a benzene ring fused with a pyridine ring, and both rings share two carbon atoms. The importance of quinoline lies in its incorporation as a key component in various natural compounds found in medicinal plant families like Fumariaceae, Berberidaceae, Rutaceae, Papavaraceae, and others.

Objective: This article is expected to have a significant impact on the advancement of effective antitubercular drugs. Through harnessing the potent activity of quinoline derivatives, the research aims to make valuable contributions to combating tuberculosis more efficiently and ultimately reducing the global burden of this infectious disease.

Methods: Numerous nitrogen-containing heterocyclic compounds exhibit significant potential as antitubercular agents. These chemicals have fused aromatic nitrogen-heterocyclic nuclei that can change the number of electrons they have, which can change their chemical, physical, and biological properties. This versatility comes from their ability to bind with the receptors in multiple modes, a critical aspect of drug pharmacological screening. Among these compounds, quinoline stands out as it incorporates a stable fusion of a benzene ring with a pyridine nucleus. Quinolines have demonstrated a diverse range of pharmacological activities, including but not limited to anti-tubercular, anti-tumor, anticoagulant, anti-inflammatory, antioxidant, antiviral, antimalarial, anti-HIV, and antimicrobial effects.

Results: Some molecules, such as lone-paired nitrogen species, include pyrrole, pyrazole, and quinoline. These molecules contain nitrogen and take part in metabolic reactions with other molecules inside the cell. However, an excessive accumulation of reactive nitrogen species can lead to cytotoxicity, resulting in damage to essential biological macromolecules. Among these compounds, quinoline stands out as the oldest and most effective one, exhibiting a wide range of significant properties such as antitubercular, antimicrobial, anti-inflammatory, antioxidant, analgesic, and anticonvulsant activities. Notably, naturally occurring quinoline compounds, such as quinine, have proven to be potent antimalarial drugs.

Conclusion: This review highlights quinoline derivatives' antitubercular potential, emphasizing recent research advancements. Utilizing IC50 values, the study emphasizes the efficacy of various quinoline substitutions, hybrids, and electron-withdrawing groups against MTB H37Rv. Continued research is essential for developing potent, low-toxicity quinoline derivatives to combat tuberculosis.

喹啉衍生物作为抗结核活性的前景看好的支架:全面回顾。
背景:杂环化合物及其衍生物在新型喹啉类药物的设计和开发中发挥着重要作用。在各种具有药理活性的杂环化合物中,喹啉类化合物是最重要的环,因为它们具有广泛的药理作用,特别是抗结核活性,而且存在于植物性化合物中。喹啉的特征是一个苯环与一个吡啶环融合,两个环共享两个相邻的碳原子。喹啉还有其他名称,如苯吡啶、苯并吡啶和 1-氮杂萘。喹啉的重要性在于它是多种天然化合物的关键成分,这些化合物存在于 Fumariaceae、Berberidaceae、Rutaceae、Papavaraceae 等药用植物科中:本文有望对有效抗结核药物的发展产生重大影响。通过利用喹啉衍生物的强效活性,该研究旨在为更有效地抗击结核病做出宝贵贡献,并最终减轻这一传染性疾病给全球带来的负担:方法:许多含氮杂环化合物显示出作为抗结核药物的巨大潜力。这些化学物质的芳香氮杂环核可以改变电子数,从而改变其化学、物理和生物特性。这种多功能性源于它们能够以多种模式与受体结合,这是药物药理筛选的一个关键方面。在这些化合物中,喹啉因其苯环与吡啶核的稳定融合而脱颖而出。喹啉类化合物具有多种药理活性,包括但不限于抗结核、抗肿瘤、抗凝血、抗炎、抗氧化、抗病毒、抗疟、抗 HIV 和抗菌作用:一些分子,如孤对氮物种,包括吡咯、吡唑和喹啉。这些分子含有氧,并参与细胞内与其他分子的新陈代谢反应。然而,活性氮物种的过度积累会导致细胞毒性,从而对重要的生物大分子造成损害。在这些化合物中,喹啉是最古老、最有效的一种,具有抗结核、抗菌、消炎、抗氧化、镇痛和抗惊厥等多种有益特性。值得注意的是,天然喹啉化合物(如奎宁)已被证明是有效的抗疟药物:本综述强调了喹啉衍生物的抗结核潜力,并着重介绍了近期的研究进展。利用 IC50 值,该研究强调了各种喹啉取代基、杂交基和抽电子基对 MTB H37Rv 的疗效。继续研究对于开发强效、低毒的喹啉衍生物来抗击结核病至关重要。
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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来源期刊
CiteScore
7.20
自引率
4.30%
发文量
567
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