In this study, the conjugate of PEG2000-stearic acid (PEG2000-SA) was used to prepare PEGylated solid lipid nanoparticles loading vinorelbine bitartrate (VB-pSLNs) by cold homogenization technique. The particle size and zeta potential of resulted VB-pSLNs ranged 180-250nm and 0-10mV, which were determined using a Zetasizer, respectively. Although the drug entrapment efficiency (EE) slightly decreased after the PEG modification of VB-SLNs, above 60 % EE could be reached. The drug release tests in vitro indicated the faster drug release from VB-pSLNs than that from VB-SLNs without PEG modification. To investigate the cellular uptake of VB-pSLNs, the chemical conjugate of octadecylamine-fluorescein isothiocynate (FITC-ODA) was synthesized, and was used as a fluorescence marker to incorporate into nanoparticles. The results from cellular uptake indicated that the phagocytosis of VB-pSLNs by RAW264.7 cells was inhibited effectively by the PEG modification of SLNs, while the uptake by cancer cells (MCF-7 and A549) could be improved significantly. The assay of anticancer activity in vitro demonstrated that the anticancer activity of VB was significantly enhanced by the encapsulation of SLNs and pSLNs due to the increased cellular internalization of drug. The results suggested that SLNs and pSLNs could be excellent carrier candidates to entrap VB for tumor chemotherapeutics.

译文

:在这项研究中,使用PEG2000-硬脂酸的共轭物(PEG2000-SA)通过冷均质技术制备了负载酒石酸长春瑞滨(VB-pSLNs)的PEG化固体脂质纳米颗粒。所得到的VB-pSLN的粒径和ζ电势分别在180-250nm和0-10mV之间,这是使用Zetasizer测定的。尽管在VB-SLNs进行PEG修饰后,药物截留效率(EE)略有下降,但可以达到60%EE以上。体外药物释放测试表明,与未进行PEG修饰的VB-SLNs相比,VB-pSLNs的药物释放更快。为了研究VB-pSLNs的细胞摄取,合成了十八烷基胺-荧光素异硫氰酸酯(FITC-ODA)的化学共轭物,并将其用作荧光标记并掺入纳米颗粒中。细胞摄取的结果表明,PEG修饰SLNs可有效抑制RAW264.7细胞吞噬VB-pSLNs,而癌细胞(MCF-7和A549)的摄取可显着改善。体外抗癌活性的测定表明,由于药物的细胞内在化的增强,SLN和pSLN的包裹显着增强了VB的抗癌活性。结果表明,SLN和pSLNs可能是捕获VB进行肿瘤化学治疗的优良载体候选物。

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