以表面修饰脂质为基础的纳米载体作为癌症治疗的关键给药方法:癌症靶向治疗的应用和最新进展

IF 2.5 Q2 MULTIDISCIPLINARY SCIENCES
Doaa M. Anwar, Heidy Y. Hedeya, Sama H. Ghozlan, Basma M. Ewas, Sherine N. Khattab
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引用次数: 0

摘要

背景纳米颗粒介导的药物递送旨在靶向特定细胞,解决了许多药物缺乏有效到达预定靶点的必要特性这一难题。脂质纳米载体具有生物相容性和封装各种药物的能力,因此被认为是一种前景广阔的给药方式。表面修饰,包括附着聚乙二醇以提高稳定性,以及连接靶向配体(如抗体、肽)以实现特异性给药,在增强这些纳米载体与生物环境的相互作用方面发挥着至关重要的作用。这些修饰可提高细胞吸收和靶向递送,从而提高疗效并减少副作用。本综述将探讨各种表面修饰技术及其对脂质纳米载体给药性能的影响。正文脂质纳米给药平台因其显著特点而备受关注,这些特点包括能够容纳高药物负荷、降低毒性、提高生物利用度、与生物系统相容、在胃肠道环境中保持稳定、具有控释能力、简化放大过程以及简化验证程序。与非靶向性纳米载体相比,靶向性脂基纳米载体是癌症治疗领域的一大进步。非靶向系统会将药物无差别地分布到全身各处,而靶向脂质纳米载体则不同,它可以用配体或抗体进行设计,专门识别肿瘤相关标记物并与之结合,从而实现向癌细胞的精确给药。这种靶向方法既能提高疗效,又能最大限度地减少对健康组织的不良影响,从而为改善癌症治疗效果提供了一种前景广阔的策略。 结论 本综述的作者概述了有关脂质体、固体脂质纳米载体和脂质聚合物混合纳米颗粒等各种脂质纳米载体的临床前研究。还讨论了使用各种表面修饰剂定制这些载体的问题,包括叶酸、肽、多糖、转铁蛋白和抗体。经表面修饰的纳米载体可提供规范的排放、更好的渗透能力和精确的药物输送。本研究汇编了现有文献中最新出现的表面修饰脂基纳米载体系统及其应用实例。文章讨论了这些纳米载体表面工程的新方法,旨在提高它们在靶向给药方面的特异性和功效。重点介绍了这一领域的主要进展,如改进的靶向机制和临床前研究证明的显著治疗效果。此外,需要关注的关键差距包括长期稳定性、生物相容性、可扩展的生产方法、监管挑战以及从实验室过渡到临床的必要步骤。 图表摘要
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Surface-modified lipid-based nanocarriers as a pivotal delivery approach for cancer therapy: application and recent advances in targeted cancer treatment‏

Background

Nanoparticle-mediated drug delivery aims to target specific cells, addressing the challenge that many drugs lack the necessary properties to reach their intended targets effectively. Lipid-based nanocarriers considered as a promising drug delivery due to their biocompatibility and ability to encapsulate various drugs. Surface modifications, including the attachment of polyethylene glycol for stability and the conjugation of targeting ligands (e.g., antibodies, peptides) for specific delivery, play a crucial role in enhancing the interaction of these nanocarriers with biological environments. These modifications improve cellular uptake and targeted delivery, thereby increasing therapeutic efficacy and reducing side effects. This review will explore various surface modification techniques and their impact on the performance of lipid nanocarriers in drug delivery.

Main body

Lipid-based nanodelivery platforms have garnered significant interest due to their notable characteristics, including their ability to accommodate high drug loads, reduced toxicity, improved bioavailability, and compatibility with biological systems, stability within the gastrointestinal environment, controlled release capabilities, streamlined scaling up processes, and simplified validation procedures. Targeted lipid-based nanocarriers represent a significant advancement over non-targeted counterparts in cancer therapy. Unlike non-targeted systems, which distribute drugs indiscriminately throughout the body, targeted lipid-based nanocarriers can be engineered with ligands or antibodies to specifically recognize and bind to tumor-associated markers, enabling precise drug delivery to cancer cells. This targeted approach enhances therapeutic efficacy while minimizing adverse effects on healthy tissues, thereby offering a promising strategy for improving the outcomes of cancer treatment.

Conclusion

The authors in this review provide an overview of preclinical research on diverse lipid-based nanocarriers, such as liposomes, solid lipid nanocarriers, and lipid polymer hybrid nanoparticles. The customization of these carriers using various surface modifiers is discussed, including folic Acid, peptides, polysaccharides, transferrin, and antibodies. Surface-modified nanocarriers offer regulated discharge, improved penetration capability, and precise drug conveyance. This work compiles recent instances of emerging surface-modified lipid-based nanocarrier systems and their applications, sourced from existing literature. Novel approaches to surface engineering of these nanocarriers, aimed at enhancing their specificity and efficacy in targeted drug delivery, were discussed. Key advancements in this field, such as improved targeting mechanisms and significant therapeutic outcomes demonstrated in preclinical studies, were highlighted. Additionally, critical gaps that require attention include long-term stability, biocompatibility, scalable production methods, regulatory challenges, and the necessary steps to transition from bench to bedside.

Graphical abstract

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来源期刊
CiteScore
2.60
自引率
0.00%
发文量
0
期刊介绍: Beni-Suef University Journal of Basic and Applied Sciences (BJBAS) is a peer-reviewed, open-access journal. This journal welcomes submissions of original research, literature reviews, and editorials in its respected fields of fundamental science, applied science (with a particular focus on the fields of applied nanotechnology and biotechnology), medical sciences, pharmaceutical sciences, and engineering. The multidisciplinary aspects of the journal encourage global collaboration between researchers in multiple fields and provide cross-disciplinary dissemination of findings.
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