Protein and Peptide-based Nanoparticles as an emerging strategy to tackle cancer drug resistance

M. Abdellatif, Islam A Hassanin, Yosra H. Mahmoud, M. Teleb, A. Bekhit, Sherine N. Khattab
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Abstract

: Cancer treatment has been confronted with serious challenges. These challenges stemmed from the heterogeneity of tumor microenvironment, as well as genetic and epigenetic factors related to cancer cells. The changes imposed by the tumor lead to the development of acquired resistance. Drug efflux, inhibition of apoptosis and immunosuppression are examples of resistance mechanisms imposed by cancer cells. Nanotechnology has sought to overcome these resistance mechanisms through enhanced cellular uptake, activation of alternative pathways by combined drug delivery, or targeting immune cells leading to their activation and proliferation. Several types of nanomedicine-based systems were implemented; however, protein and peptide nanoparticles remain one versatile tool in drug delivery, providing preferable physicochemical and biological implications. Notably, protein and peptide nanocarriers can also exhibit enhanced cellular uptake, the possibility of tuned drug release, and hence, better tumor targetability. Here, we present the methods of fabrication, physicochemical characteristics, biological mplications, and future perspectives, focusing on overcoming cancer drug resistance
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基于蛋白质和肽的纳米颗粒作为解决癌症耐药的新兴策略
癌症治疗面临着严峻的挑战。这些挑战源于肿瘤微环境的异质性,以及与癌细胞相关的遗传和表观遗传因素。肿瘤施加的变化导致获得性耐药性的发展。药物外排、细胞凋亡抑制和免疫抑制是癌细胞施加的耐药机制的例子。纳米技术试图通过增强细胞摄取,通过联合给药激活替代途径,或靶向免疫细胞导致其激活和增殖来克服这些耐药机制。实施了几种基于纳米医学的系统;然而,蛋白质和肽纳米颗粒仍然是药物传递的一种通用工具,提供了更好的物理化学和生物学意义。值得注意的是,蛋白质和肽纳米载体也可以表现出增强的细胞摄取,调节药物释放的可能性,因此,更好的肿瘤靶向性。在这里,我们介绍了制备方法,物理化学特性,生物学意义和未来的展望,重点是克服癌症耐药
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