Therapeutic Potental of Quinolin-2H-one Hybrids as Anticancer Agents.

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
Naik Soniya, Vasu Soumya, Mamle Desai Shivlingrao, M Manickavasagam, Chellappan Manickavasagam Meeramol
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Abstract

The statistical data related to cancer in recent years has shown a great increase in the number of cases and is likely to further increase in the future. Even after seeking thorough knowledge on the aetiology of cancer and related disorders and attempting to cure it by various methods like gene therapy, T cell therapy, chemotherapy, surgery, hormone therapy, and photodynamic therapy, there has always been disappointment concerning the survival rate. Hence, there is still a great urge for the discovery of novel drugs for the treatment of cancer. Chemotherapy being one of the widely used methods, several drug entities possessing anticancer properties are already in the market but none of them is known to show good efficacy which necessitates researchers to design newer drugs for the treatment of cancer. The urge to synthesize novel anticancer entities directed researchers towards molecular hybridization as one of the novel methods for designing newer drugs. Literature reveals wide research carried out on quinolin-2-one hybrids, possessing anticancer properties through different mechanisms. Tipifarnib and Dovitinib are quinolin-2-one hybrids used to treat cancer, possessing imidazole and benzimidazole heterocyclic rings. Different heterocyclic scaffolds such as pyrone, pyrrole, pyrimidine, pyridine, thiazole, and pyrazole in combination with heterocyclic quinolin-2-one have shown high potential to become lead for newer anticancer agents with better and wider therapeutic properties and lesser side effects. The current review presents information on the different quinolin-2-one hybrids and their effect on different cancer cell lines. It also imparts knowledge of the structural requirements for designing novel anticancer agents.

喹啉-2H-酮混合物作为抗癌剂的治疗潜力。
近年来,与癌症有关的统计数据显示,癌症病例数量大幅增加,而且今后还可能进一步增加。即使人们对癌症及相关疾病的病因有了深入的了解,并尝试通过基因疗法、T 细胞疗法、化疗、手术、激素疗法和光动力疗法等各种方法来治疗癌症,但存活率始终令人失望。因此,人们仍然迫切希望发现治疗癌症的新型药物。化疗是广泛使用的方法之一,目前市场上已有多种具有抗癌特性的药物实体,但没有一种药物显示出良好的疗效,这就要求研究人员设计出治疗癌症的新药物。合成新型抗癌实体的迫切愿望引导研究人员将分子杂交作为设计新型药物的新方法之一。文献显示,人们对喹啉-2-酮杂交体进行了广泛的研究,这些杂交体通过不同的机制具有抗癌特性。替法尼(Tipifarnib)和多威替尼(Dovitinib)是用于治疗癌症的喹啉-2-酮杂交化合物,具有咪唑和苯并咪唑杂环。不同的杂环支架,如吡酮、吡咯、嘧啶、吡啶、噻唑和吡唑与杂环喹啉-2-酮的结合显示出巨大的潜力,有望成为具有更好、更广泛治疗特性和更小副作用的新型抗癌药物的先导。本综述介绍了不同的喹啉-2-酮混合物及其对不同癌细胞系的作用。它还介绍了设计新型抗癌药物的结构要求。
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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