多刺激响应性生物相容性磁性纳米载体作为 MCF-7 乳腺癌细胞的药物输送系统

Sedigheh Ehsanimehr, Kimya Badr, Wim Dehaen, Vahid Shafiei Irannejad, Peyman Najafi Moghadam
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引用次数: 0

摘要

导言:靶向给药系统的最后一个策略是将抗癌药物输送到肿瘤组织,以提高其治疗效果并减少其不良副作用。根据这一目标,本研究合成了基于 PF127-NH2/L-cysteine-CM-β-CD-FA 的氧化还原/pH 响应二硫化物磁性纳米载体,并在多柔比星给药系统中进行了评估:方法:采用溶胶-凝胶法将Fe3O4纳米粒子与SiO2有效包覆在一起,然后用油酸将其包覆在Fe3O4@SiO2纳米粒子上。在另一个反应中,合成了 PF127-NH2/L-半胱氨酸-CM-β-CD-FA。该过程包括用马来酸酐对 Pluronic F127(PF 127)进行改性,然后将其胺化,形成 PF127-NH2。得到的 PF127-NH2 与 L-半胱氨酸连接,然后与羧甲基-β-环糊精缩合,再与叶酸官能化。最后,PF127-NH2/L-半胱氨酸-CM-β-CD-FA 被包覆在磁性纳米粒子的表面,所得的 PF127-NH2/L- 半胱氨酸-CM-β-CD-FA 被二硫化,形成最终的纳米载体网络,简称为 LCMNPs-SS。以多柔比星为模型药物,将其装载到 LCMNPs-SS 纳米载体中:结果:LCMNPs-SS 纳米载体具有良好的控释性能,释放速率明确,可通过外部磁铁控制释放水平,并可通过 DLdithiothreitol 浓度进行调节。LCMNPs-SS 纳米载体在遇到氧化剂或 pH 值变化时也会破裂。这意味着可以根据温度、pH 值或多种刺激因素对药物释放进行微调:结论:这些载药系统对减少多柔比星的剂量很有价值。合成的 LCMNPs-SS 的高内化率加快了细胞吸收。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Multi-Stimuli-Responsive Biocompatible Magnetic Nanocarrier as Drug Delivery System to MCF-7 Breast Cancer Cells.

Introduction: The last strategy in targeted drug delivery systems is to deliver the anticancer drug to the tumor tissue to increase its therapeutic effect and minimize its undesirable side effects. In line with this goal in this research, the redox/pH-responsive disulfide magnetic nanocarriers based on PF127-NH2/L-cysteine-CM-β-CD-FA were synthesized and evaluated in a doxorubicin delivery system.

Methods: We effectively surrounded Fe3O4 nanoparticles with SiO2 using the sol-gel method, and then confidently coated them with oleic acid on Fe3O4@SiO2 nanoparticles.. In another reaction, a PF127-NH2/L-cysteine-CM-β-CD-FA was synthesized. The process involved modifying pluronic F127 (PF 127) with maleic anhydride and aminating it to form PF127-NH2. The obtained PF127-NH2 was attached to L-cysteine, followed by condensing with carboxymethyl-β-cyclodextrin and then functionalized by folic acid. Finally, PF127-NH2/L-cysteine-CM-β-CD-FA was coated on the surface of magnetic nanoparticles, and the resulting PF127-NH2/L-cysteine-CM-β-CD-FA was disulfidated to form the final nanocarrier network, which was abbreviated as LCMNPs-SS. The doxorubicin was used as a model drug and loaded into the LCMNPs-SS nanocarrier.

Results: The LCMNPs-SS nanocarrier exhibited excellent properties for controlled release, with a well-defined release rate, a controllable level by an external magnet, and adjusting by DLdithiothreitol concentration. The LCMNPs-SS nanocarrier could also break apart when exposed to an oxidant or a change in pH. This meant that the drug release could be fine-tuned in response to temperature, pH, or more than one stimulus.

Conclusion: These drug-carrying systems are valuable in reducing the dose of doxorubicin. High internalization of the synthesized LCMNPs-SS caused sped cellular uptake.

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