Magnetic and pH-responsive magnetite/chitosan (core/shell) nanoparticles for dual-targeted methotrexate delivery in cancer therapy.

IF 5.7 3区 医学 Q1 MEDICINE, RESEARCH & EXPERIMENTAL
Ana Medina-Moreno, Mazen M El-Hammadi, Gema I Martínez-Soler, Javier G Ramos, Gracia García-García, José L Arias
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Abstract

Methotrexate successful therapy encounters various challenges in chemotherapy, such as poor oral bioavailability, low specificity, side effects and the development of drug resistances. In this study, it is proposed a dual-targeted nanocarrier comprising magnetite/chitosan nanoparticles for an efficient Methotrexate delivery. The formation of the particles was confirmed through morphological analysis using electron microscopy and elemental mappings via energy dispersive X-ray spectroscopy. These nanoparticles exhibited a size of ≈ 270 nm, a zeta potential of ≈ 24 mV, and magnetic responsiveness, as demonstrated by hysteresis cycle analysis and visual observations under a magnetic field. In addition, these particles displayed high stability, as evidenced by size and surface electric charge measurements, during storage at both 4 ºC and 25 ºC for at least 30 days. Electrophoretic properties were examined in relation to pH and ionic strength, confirming these core/shell nanostructure. The nanoparticles demonstrated a pH-responsive drug release as observed by a sustained Methotrexate release over the next 90 h under pH ≈ 7.4, while complete release occurred within 3 h under acidic conditions (pH ≈ 5.5). In the biocompatibility assessment, the magnetite/chitosan particles showed excellent hemocompatibility ex vivo and no cytotoxic effects on normal MCF-10 A and cancer MCF-7 cells. Furthermore, the Methotrexate-loaded nanoparticles significantly enhanced the antitumor activity reducing the half-maximal inhibitory concentration by ≈ 2.7-fold less compared to the free chemotherapeutic.

Abstract Image

磁性和 pH 值响应的磁铁矿/壳聚糖(核/壳)纳米粒子用于癌症治疗中甲氨蝶呤的双靶向递送。
甲氨蝶呤的成功治疗在化疗中遇到了各种挑战,如口服生物利用度低、特异性低、副作用和耐药性的产生。本研究提出了一种由磁铁矿/壳聚糖纳米颗粒组成的双靶向纳米载体,用于高效递送甲氨蝶呤。利用电子显微镜进行形态分析,并通过能量色散 X 射线光谱进行元素映射,确认了颗粒的形成。这些纳米粒子的尺寸≈ 270 nm,zeta电位≈ 24 mV,并具有磁响应性,磁滞周期分析和磁场下的肉眼观察均证明了这一点。此外,这些微粒在 4 ºC 和 25 ºC 温度下储存至少 30 天后,显示出很高的稳定性,尺寸和表面电荷测量结果也证明了这一点。根据 pH 值和离子强度对电泳特性进行了检测,证实了这些核/壳纳米结构。纳米颗粒表现出了对 pH 值的药物释放反应,在 pH 值≈7.4 的条件下,甲氨蝶呤在接下来的 90 小时内持续释放;而在酸性条件下(pH 值≈5.5),甲氨蝶呤在 3 小时内完全释放。在生物相容性评估中,磁铁矿/壳聚糖颗粒显示出良好的体内血液相容性,对正常 MCF-10 A 细胞和癌细胞 MCF-7 没有细胞毒性作用。此外,与游离化疗药相比,甲氨蝶呤负载纳米粒子显著增强了抗肿瘤活性,使半最大抑制浓度降低了≈2.7倍。
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来源期刊
Drug Delivery and Translational Research
Drug Delivery and Translational Research MEDICINE, RESEARCH & EXPERIMENTALPHARMACOL-PHARMACOLOGY & PHARMACY
CiteScore
11.70
自引率
1.90%
发文量
160
期刊介绍: The journal provides a unique forum for scientific publication of high-quality research that is exclusively focused on translational aspects of drug delivery. Rationally developed, effective delivery systems can potentially affect clinical outcome in different disease conditions. Research focused on the following areas of translational drug delivery research will be considered for publication in the journal. Designing and developing novel drug delivery systems, with a focus on their application to disease conditions; Preclinical and clinical data related to drug delivery systems; Drug distribution, pharmacokinetics, clearance, with drug delivery systems as compared to traditional dosing to demonstrate beneficial outcomes Short-term and long-term biocompatibility of drug delivery systems, host response; Biomaterials with growth factors for stem-cell differentiation in regenerative medicine and tissue engineering; Image-guided drug therapy, Nanomedicine; Devices for drug delivery and drug/device combination products. In addition to original full-length papers, communications, and reviews, the journal includes editorials, reports of future meetings, research highlights, and announcements pertaining to the activities of the Controlled Release Society.
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