{"title":"洞察希夫碱及其 d 和 f 嵌段金属配合物作为抗癌剂对各种癌症细胞系的影响:综述。","authors":"Presenjit, Shubhra Chaturvedi, Akanksha Singh, Divya Gautam, Kaman Singh, Anil Kumar Mishra","doi":"10.2174/0118715206280314231201111358","DOIUrl":null,"url":null,"abstract":"<p><p>Over the last few decades, an alarming rise in the percentage of individuals with cancer and those with multi-resistant illnesses has forced researchers to explore possibilities for novel therapeutic approaches. Numerous medications currently exist to treat various disorders, and the development of small molecules as anticancer agents has considerable potential. However, the widespread prevalence of resistance to multiple drugs in cancer indicates that it is necessary to discover novel and promising compounds with ideal characteristics that could overcome the multidrug resistance issue. The utilisation of metallo-drugs has served as a productive anticancer chemotherapeutic method, and this approach may be implemented for combating multi-resistant tumours more successfully. Schiff bases have been receiving a lot of attention as a group of compounds due to their adaptable metal chelating abilities, innate biologic properties, and versatility to tweak the structure to optimise it for a specific biological purpose. The biological relevance of Schiff base and related complexes, notably their anticancer effects, has increased in their popularity as bio-inorganic chemistry has progressed. As a result of learning about Schiff bases antitumor efficacy against multiple cancer cell lines and their complexes, researchers are motivated to develop novel, side-effect-free anticancer treatments. According to study reports from the past ten years, we are still seeking a powerful anticancer contender. This study highlights the potential of Schiff bases, a broad class of chemical molecules, as potent anticancer agents. In combination with other anticancer strategies, they enhance the efficacy of treatment by elevating the cytotoxicity of chemotherapy, surmounting drug resistance, and promoting targeted therapy. Schiff bases also cause cancer cell DNA repair, improve immunotherapy, prevent angiogenesis, cause apoptosis, and lessen the side effects of chemotherapy. 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引用次数: 0
摘要
在过去几十年里,癌症患者和多重耐药性患者的比例出现了惊人的增长,这迫使研究人员探索新型治疗方法的可能性。目前有许多治疗各种疾病的药物,开发小分子抗癌剂也具有相当大的潜力。然而,癌症患者普遍对多种药物产生抗药性,这表明有必要发现具有理想特性的新型化合物,以克服多种药物的抗药性问题。利用金属药物是一种有效的抗癌化疗方法,这种方法可以更成功地对抗多重耐药性肿瘤。希夫碱作为一类化合物受到了广泛的关注,这是因为它们具有适应性强的金属螯合能力、与生俱来的生物特性,以及为特定生物目的而调整结构以达到最佳效果的多功能性。随着生物无机化学的发展,希夫碱和相关配合物的生物相关性,特别是其抗癌作用,越来越受到人们的青睐。由于了解到希夫碱及其复合物对多种癌细胞株的抗肿瘤功效,研究人员有动力开发新型、无副作用的抗癌疗法。根据过去十年的研究报告,我们仍在寻找强有力的抗癌竞争者。这项研究强调了希夫碱这一大类化学分子作为强效抗癌剂的潜力。与其他抗癌策略相结合,它们可以提高化疗的细胞毒性,克服耐药性,促进靶向治疗,从而增强治疗效果。希夫碱还能促进癌细胞 DNA 修复,改善免疫疗法,防止血管生成,导致细胞凋亡,减轻化疗的副作用。本综述探讨了开发潜在的希夫碱及其 d 和 f 嵌段金属配合物作为抗癌剂来对付各种癌细胞系的问题。
An Insight into the Effect of Schiff Base and their d and f Block Metal Complexes on Various Cancer Cell Lines as Anticancer Agents: A Review.
Over the last few decades, an alarming rise in the percentage of individuals with cancer and those with multi-resistant illnesses has forced researchers to explore possibilities for novel therapeutic approaches. Numerous medications currently exist to treat various disorders, and the development of small molecules as anticancer agents has considerable potential. However, the widespread prevalence of resistance to multiple drugs in cancer indicates that it is necessary to discover novel and promising compounds with ideal characteristics that could overcome the multidrug resistance issue. The utilisation of metallo-drugs has served as a productive anticancer chemotherapeutic method, and this approach may be implemented for combating multi-resistant tumours more successfully. Schiff bases have been receiving a lot of attention as a group of compounds due to their adaptable metal chelating abilities, innate biologic properties, and versatility to tweak the structure to optimise it for a specific biological purpose. The biological relevance of Schiff base and related complexes, notably their anticancer effects, has increased in their popularity as bio-inorganic chemistry has progressed. As a result of learning about Schiff bases antitumor efficacy against multiple cancer cell lines and their complexes, researchers are motivated to develop novel, side-effect-free anticancer treatments. According to study reports from the past ten years, we are still seeking a powerful anticancer contender. This study highlights the potential of Schiff bases, a broad class of chemical molecules, as potent anticancer agents. In combination with other anticancer strategies, they enhance the efficacy of treatment by elevating the cytotoxicity of chemotherapy, surmounting drug resistance, and promoting targeted therapy. Schiff bases also cause cancer cell DNA repair, improve immunotherapy, prevent angiogenesis, cause apoptosis, and lessen the side effects of chemotherapy. The present review explores the development of potential Schiff base and their d and f block metal complexes as anticancer agents against various cancer cell lines.
期刊介绍:
Formerly: Current Medicinal Chemistry - Anti-Cancer Agents.
Anti-Cancer Agents in Medicinal Chemistry aims to cover all the latest and outstanding developments in medicinal chemistry and rational drug design for the discovery of anti-cancer agents.
Each issue contains a series of timely in-depth reviews and guest edited issues written by leaders in the field covering a range of current topics in cancer medicinal chemistry. The journal only considers high quality research papers for publication.
Anti-Cancer Agents in Medicinal Chemistry is an essential journal for every medicinal chemist who wishes to be kept informed and up-to-date with the latest and most important developments in cancer drug discovery.