多拉斯汀类及其类似物为潜在的天然和合成抗癌候选药物提供了引人注目的前景

IF 3.6 Q2 BIOTECHNOLOGY & APPLIED MICROBIOLOGY Current Research in Biotechnology Pub Date : 2024-01-01 DOI:10.1016/j.crbiot.2023.100167
Sudeshna Nandi , Somanjana Khatua , Anish Nag , Surjit Sen , Nilanjan Chakraborty , Arghya Naskar , Krishnendu Acharya , Reham Hassan Mekky , María del Mar Contreras , Daniela Calina , Irene Dini , Javad Sharifi-Rad
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引用次数: 0

摘要

人类癌症仍然是全球死亡的主要原因。传统的治疗方法虽然有效,但往往伴随着巨大的副作用、较高的技术要求和可观的费用。最近,抗癌肽,如海洋软体动物 Dolabella auricularia 中天然发现的多拉他汀类肽,因其增强的特性和对癌细胞的特异性靶向性,以及对正常细胞的最小毒性而备受关注。本综述旨在全面总结过去 35 年来天然多拉菌素和合成类似物的抗癌活性,重点关注它们在推进癌症治疗策略方面的应用。这篇最新综述详细分析了大量研究,这些研究证明了多拉斯汀类化合物及其合成类似物对各种人类肿瘤细胞系的细胞毒性作用。分析包括研究它们激活细胞凋亡途径、抑制细胞周期进展以及间接限制肿瘤炎症和血管生成的能力。天然多拉斯汀类和合成类似物在体外和体内药理学研究中通过各种机制表现出了显著的抗癌特性。有些药物甚至已经进入临床试验阶段,无论是单独使用还是与其他药物联合使用,都显示出良好的效果。多拉斯汀类化合物及其合成类似物的生物活性为开发更有效、更可持续的抗癌药物提供了广阔的前景。它们对癌细胞的特异性作用以及对正常细胞的相对无毒性,凸显了它们作为优质癌症治疗药物的潜力。目前的研究为有关多拉斯汀及其类似物的最新临床前和临床研究提供了一个平台。对这些海洋肽的进一步研究可能有助于开发可持续和高效的癌症治疗模式,填补目前癌症治疗组合中的重大空白。
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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Dolastatins and their analogues present a compelling landscape of potential natural and synthetic anticancer drug candidates

Human cancer remains a leading cause of global mortality. Traditional treatment methods, while effective are often associated with substantial side effects, high technical requirements, and considerable expenses. Recently, anticancer peptides, such as dolastatin-type peptides naturally found in marine mollusc Dolabella auricularia, have gained attention due to their enhanced characteristics and specific targeting of cancer cells with minimal toxicity to normal cells. This review aims to provide a comprehensive summary of the anticancer activities of natural dolastatins and synthetic analogues over the past 35 years, focusing on their utilization in advancing cancer treatment strategies. This updated review encompasses a detailed analysis of numerous studies demonstrating the cytotoxic effects of dolastatins and their synthetic analogues on various human tumour cell lines. The analysis includes investigations into their ability to activate apoptosis pathways, inhibit cell cycle progression, and indirectly limit inflammation and angiogenesis in tumours. Both natural dolastatins and synthetic analogues have demonstrated significant anticancer properties through a variety of mechanisms in vitro and in vivo pharmacological studies. Some have even advanced to clinical trials, either alone or in combination with other agents, and have shown promising outcomes. The biological activities of dolastatins and their synthetic analogues offer a promising path in the development of more effective and sustainable anticancer drugs. Their specific action on cancer cells and relative non-toxicity to normal cells highlight their potential as superior cancer therapeutic agents. The current study provides a platform for the most recent preclinical and clinical research on dolastatins and their analogues. Further research into these marine peptides may contribute to the development of sustainable and efficient treatment models for cancer, filling a significant gap in the current cancer therapeutic portfolio.

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来源期刊
Current Research in Biotechnology
Current Research in Biotechnology Biochemistry, Genetics and Molecular Biology-Biotechnology
CiteScore
6.70
自引率
3.60%
发文量
50
审稿时长
38 days
期刊介绍: Current Research in Biotechnology (CRBIOT) is a new primary research, gold open access journal from Elsevier. CRBIOT publishes original papers, reviews, and short communications (including viewpoints and perspectives) resulting from research in biotechnology and biotech-associated disciplines. Current Research in Biotechnology is a peer-reviewed gold open access (OA) journal and upon acceptance all articles are permanently and freely available. It is a companion to the highly regarded review journal Current Opinion in Biotechnology (2018 CiteScore 8.450) and is part of the Current Opinion and Research (CO+RE) suite of journals. All CO+RE journals leverage the Current Opinion legacy-of editorial excellence, high-impact, and global reach-to ensure they are a widely read resource that is integral to scientists' workflow.
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