{"title":"环抗菌肽在药物传递中的应用前景。","authors":"Dorna Davani-Davari, Rakesh Kumar Tiwari, Keykavous Parang","doi":"10.1080/17425247.2025.2460661","DOIUrl":null,"url":null,"abstract":"<p><strong>Introduction: </strong>Cyclic antimicrobial peptides (CAMPs) are gaining attention as promising candidates in advanced drug delivery systems due to their structural stability, resistance to proteolytic degradation, and versatile therapeutic potential. Their unique properties enable applications that extend beyond combating multidrug-resistant (MDR) pathogens. Their amphipathic and cell-penetrating properties allow them to efficiently transport drugs across cellular membranes.</p><p><strong>Areas covered: </strong>This review explores the structural advantages and mechanisms of action of CAMPs, emphasizing their role in drug delivery. The literature analysis (2010-2024) from PubMed, Scopus, and Web of Science highlights developments in CAMP-conjugated therapies, liposomal formulations, and encapsulation systems. The review also examines their antimicrobial potency, amphipathic and cell-penetrating properties, and integration into nanocarrier technologies to enhance drug stability, bioavailability, and precision targeting. Challenges such as toxicity, scalability, and cost are also discussed. CAMPs have the potential to revolutionize drug delivery through their robustness and multifunctionality, particularly in precision medicine.</p><p><strong>Expert opinion: </strong>Future advancements in peptide engineering, nanotechnology, and AI-driven design are expected to enhance CAMPs' therapeutic specificity, reduce toxicity, and broaden their applications, including oncology and gene therapy, paving the way for their integration into next-generation therapeutics.</p>","PeriodicalId":94004,"journal":{"name":"Expert opinion on drug delivery","volume":" ","pages":"383-404"},"PeriodicalIF":0.0000,"publicationDate":"2025-03-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Future applications of cyclic antimicrobial peptides in drug delivery.\",\"authors\":\"Dorna Davani-Davari, Rakesh Kumar Tiwari, Keykavous Parang\",\"doi\":\"10.1080/17425247.2025.2460661\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p><strong>Introduction: </strong>Cyclic antimicrobial peptides (CAMPs) are gaining attention as promising candidates in advanced drug delivery systems due to their structural stability, resistance to proteolytic degradation, and versatile therapeutic potential. 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引用次数: 0
摘要
简介:环状抗菌肽(camp)由于其结构稳定性、抗蛋白水解降解和多种治疗潜力,在先进的药物输送系统中作为有希望的候选者越来越受到关注。它们的独特特性使其应用范围超越了对抗多药耐药(MDR)病原体。它们的两亲性和细胞穿透性使它们能够有效地跨细胞膜运输药物。涉及领域:本文综述了camp的结构优势和作用机制,重点介绍了它们在给药中的作用。来自PubMed, Scopus和Web of Science的文献分析(2010-2024)强调了camp偶联疗法,脂质体制剂和封装系统的发展。综述还探讨了它们的抗菌效力,两亲性和细胞穿透性,以及与纳米载体技术的整合,以提高药物的稳定性,生物利用度和精确靶向。还讨论了诸如毒性、可伸缩性和成本等挑战。camp通过其稳健性和多功能性有可能彻底改变药物输送,特别是在精准医学中。专家意见:肽类工程、纳米技术和人工智能驱动设计的未来进展有望增强camp的治疗特异性,降低毒性,并扩大其应用范围,包括肿瘤和基因治疗,为将其整合到下一代治疗方法中铺平道路。
Future applications of cyclic antimicrobial peptides in drug delivery.
Introduction: Cyclic antimicrobial peptides (CAMPs) are gaining attention as promising candidates in advanced drug delivery systems due to their structural stability, resistance to proteolytic degradation, and versatile therapeutic potential. Their unique properties enable applications that extend beyond combating multidrug-resistant (MDR) pathogens. Their amphipathic and cell-penetrating properties allow them to efficiently transport drugs across cellular membranes.
Areas covered: This review explores the structural advantages and mechanisms of action of CAMPs, emphasizing their role in drug delivery. The literature analysis (2010-2024) from PubMed, Scopus, and Web of Science highlights developments in CAMP-conjugated therapies, liposomal formulations, and encapsulation systems. The review also examines their antimicrobial potency, amphipathic and cell-penetrating properties, and integration into nanocarrier technologies to enhance drug stability, bioavailability, and precision targeting. Challenges such as toxicity, scalability, and cost are also discussed. CAMPs have the potential to revolutionize drug delivery through their robustness and multifunctionality, particularly in precision medicine.
Expert opinion: Future advancements in peptide engineering, nanotechnology, and AI-driven design are expected to enhance CAMPs' therapeutic specificity, reduce toxicity, and broaden their applications, including oncology and gene therapy, paving the way for their integration into next-generation therapeutics.
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