a Biotechnology Research Center and Faculty of Advanced Medical Sciences , Tabriz University of Medical Sciences , Tabriz , Iran.
b Liver and Gastrointestinal Diseases Research Center and Faculty of Pharmacy , Tabriz University of Medical Sciences , Tabriz , Iran.
Artif Cells Nanomed Biotechnol. 2018 Dec;46(8):1572-1585. doi: 10.1080/21691401.2017.1379016. Epub 2017 Sep 21.
A new class of cell penetrating peptides (CPPs) named peptide amphiphile was designed to improve the intracellular uptake and the antitumor activity of epirubicin (EPR). Various amphiphilic CPPs were synthesized by solid phase peptide synthesis method and were chemically conjugated to EPR. Their corresponding nanoparticles (CPPs-E4 and CPPs-E8) were prepared via non-covalent binding of the peptides and polyanions. Cytotoxicity and anti-proliferative activity were evaluated by MTT assay. Cellular uptake was examined by flow cytometry and fluorescence microscopy. The CPPs exhibited slight cytotoxicity. Binding of polyglutamate to CPPs (CPPs-E4 and CPPs-E8 nanoparticles) decreased their cytotoxicity. CPPs-E8 nanoparticles showed lower cytotoxicity than CPPs-E4 nanoparticles. Cellular uptake of K3W4K3-E8, K2W4K2-E8 and W3K4W3-E8 reached 100% with no difference between each of the mentioned CPPs and its nanoparticles at 50 µM. The anti-proliferative activity of EPR was enhanced following conjugation to peptides and nanoparticles at 25 µM. CPPs-EPR-E4 and CPPs-E8-EPR nanoparticles displayed higher anti-proliferative activity than CPPs-EPR at 25 µM. CPPs-E8-EPR nanoparticles showed higher anti-proliferative activity than CPPs-E4-EPR. K3W4K3-E8-EPR nanoparticles exhibited the highest anti-proliferative activity at 25 µM. The synthesized peptide nanoparticles are proposed as suitable carriers for improving the intracellular delivery of EPR into tumor cells with low cytotoxicity and high antitumor activity.
一种名为肽两亲物的新型细胞穿透肽 (CPP) 被设计用于提高表阿霉素 (EPR) 的细胞内摄取和抗肿瘤活性。通过固相肽合成法合成了各种两亲性 CPP,并通过化学方法将其与 EPR 缀合。通过肽和聚阴离子的非共价结合制备了相应的纳米颗粒 (CPPs-E4 和 CPPs-E8)。通过 MTT 测定评估细胞毒性和抗增殖活性。通过流式细胞术和荧光显微镜检查细胞摄取。CPPs 表现出轻微的细胞毒性。聚谷氨酸与 CPPs 的结合 (CPPs-E4 和 CPPs-E8 纳米颗粒) 降低了它们的细胞毒性。CPPs-E8 纳米颗粒的细胞毒性低于 CPPs-E4 纳米颗粒。K3W4K3-E8、K2W4K2-E8 和 W3K4W3-E8 的细胞摄取达到 100%,在 50 μM 时,每种 CPP 及其纳米颗粒之间没有差异。在 25 μM 时,EPR 与肽和纳米颗粒缀合后增强了抗增殖活性。CPPs-EPR-E4 和 CPPs-E8-EPR 纳米颗粒在 25 μM 时表现出比 CPPs-EPR 更高的抗增殖活性。CPPs-E8-EPR 纳米颗粒的抗增殖活性高于 CPPs-E4-EPR。在 25 μM 时,K3W4K3-E8-EPR 纳米颗粒表现出最高的抗增殖活性。所合成的肽纳米颗粒被提议作为合适的载体,用于提高 EPR 进入肿瘤细胞的细胞内递送,具有低细胞毒性和高抗肿瘤活性。
