基于皂素的纳米载体给药综述

Pathy B. Lokole , Galilée G. Byamungu , Paulin K. Mutwale , Nadège K. Ngombe , Michel K. Mpuza , Virima Mudogo , Rui W.M. Krause , Christian I. Nkanga
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摘要

纳米粒子(NPs)已被广泛用作靶向输送治疗、免疫治疗和诊断药物的智能载体。NPs 应用的多样性部分源于可根据起始材料的性质制造各种类型的 NPs。在大多数情况下,磷脂、固体脂质、脂肪酸衍生物和油/表面活性剂混合物等两亲性材料可用于制造不同的 NPs,即脂质体、固体脂质纳米颗粒(SLN)、纳米结构脂质载体(NLC)、胶束和纳米乳液。在原材料方面,皂苷已成为制备纳米粒子的一种有前途的替代品。皂素是源自植物的次生代谢产物(植物化学物质),具有优异的两亲特性,这使其在纳米技术中发挥了重要作用,包括用作胶束制备试剂以及多种 NPs 的稳定剂。由于皂素固有的免疫增强剂/佐剂特性,以皂素为基础的 NPs 已被用于改善各种活性成分(包括疫苗)的溶解性和药理特性。在这篇综述中,我们主要讨论了含皂素 NPs 在生物医学和制药方面的应用现状,重点是使用皂素作为原料来制造原始 NPs 或作为佐剂来改进已建立的 NPs。在重点介绍皂素的物理化学特性之前,还介绍了在药物输送和疫苗开发方面大有可为的潜在纳米制剂。研究人员指出了含有皂素的 NPs 所面临的机遇和挑战,从而为将皂素作为有效转化开发革命性纳米药物的原料奠定了基础。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A review of saponin-based nanocarriers for drug delivery
Nanoparticles (NPs) have been extensively used as smart vehicles for the target delivery of therapeutic, immunotherapeutic, and diagnostic agents. The versatility of NPs applications partly arises from the possibility of manufacturing various NPs types depending on the nature of starting materials. In most cases, amphiphilic materials such as phospholipids, solid lipids, fatty acid derivatives, and blends of oils/surfactants, are used to make distinct NPs, namely liposomes, solid lipid nanoparticles (SLNs), nanostructured lipid carriers (NLCs), micelles, and nanoemulsions, respectively. In the pipeline of raw materials, saponins have emerged as a promising alternative for NPs formulation. Saponins are plant-derived secondary metabolites (phytochemicals) with excellent amphiphilic properties, which allow them to play crucial roles in nanotechnology, including their usage as reagents for micellar preparation as well as stabilizing agents for several NPs. Saponin-based NPs have been used to improve the solubility, and pharmacological profile of various active ingredients, encompassing vaccines, owing to inherent immunostimulant/adjuvant properties of saponins. In this review, we mainly discuss the state of the art in biomedical and pharmaceutical applications of saponin-containing NPs, focusing on using saponins as raw materials to make original NPs or as adjuvants for improving already established NPs. The physicochemical properties of saponins have been highlighted, before describing putative nano-formulations with huge promise for drug delivery and vaccine development. The opportunities and challenges pertaining to saponins-containing NPs have been pointed out to set the stage for establishing saponins as an intriguing raw material for the effective translational development of revolutionary nanomedicines.
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