pH sensitive lipid polymeric hybrid nanoparticle (LPHNP) of paclitaxel and curcumin for targeted delivery in breast cancer.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-11-03 DOI:10.1080/03639045.2024.2421198

Hrishikesh Sarma, Ankit Dutta, Alakesh Bharali, Sheikh Sofiur Rahman, Sunayana Baruah, Nikhil Biswas, Bhanu P Sahu

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Abstract

Objective: The study aimed at designing a pH sensitive Lipid polymeric Hybrid nanoparticle (LPHNP) for targeted release of Paclitaxel (PTX) and Curcumin (CUR) in breast cancer.

Significance: Such systems shall result in controlled triggered release in acidic microenvironment of tumor cells with improved pharmacokinetic profile.

Methods: Chitosan-coated CUR and PTX coloaded pH-sensitive LPHNPs were synthesized employing nanoprecipitation technique. The synthesized NPs were characterized in terms of particle size, polydispersity index (PDI), zeta potential, and morphology.

Results: LPHNPs co-loaded with curcumin (CUR) and paclitaxel (PTX) were successfully formulated, achieving a size of 146 nm, a PDI of 0.18, and an entrapment efficiency exceeding 90%. In vitro release studies demonstrated controlled release of CUR and PTX under tumor pH conditions showing 1.6 fold and 1.7 fold higher release in ABS pH 5 in comparison to PBS 7.4 for PTX and CUR respectively. MTT-assay studies revealed enhanced cytotoxicity of CUR and PTX as LPHNPs showing IC₅₀ value of free CUR & PTX 480.06 µg/mL decreasing to 282.97 µg/mL for CS-CUR-PTX-LPHNPs. In vivo pharmacokinetic evaluations in rats confirmed significantly improved bioavailability, with a 3.8-fold increase in AUC for CUR and a 6.6-fold increase for PTX. Additionally, the LPHNPs demonstrated controlled release and prolonged retention, evidenced by a 2.2-fold increase in the half-life (t1/2) of CUR and a 1.3-fold increase in the half-life of PTX.

The results underscores potential of chitosan-coated LPHNP as a promising delivery platform, offering high drug loading, optimal size for cellular penetration, and prolonged blood circulation for cancer.

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用于乳腺癌靶向递送的紫杉醇和姜黄素的 pH 敏感脂质聚合物杂化纳米粒子（LPHNP）。

研究目的本研究旨在设计一种 pH 值敏感的脂质聚合物杂化纳米粒子（LPHNP），用于紫杉醇（PTX）和姜黄素（CUR）在乳腺癌中的靶向释放：意义：这类系统应能在肿瘤细胞的酸性微环境中控制紫杉醇的释放，并改善药代动力学特征：方法：采用纳米沉淀技术合成了壳聚糖包裹的 CUR 和 PTX 包裹的 pH 敏感 LPHNPs。方法：采用纳米沉淀技术合成了壳聚糖包覆的 CUR 和 PTX coladed pH 敏感 LPHNPs，并对合成的 NPs 的粒度、多分散指数（PDI）、ZETA 电位和形态进行了表征：结果：成功制备了共负载姜黄素（CUR）和紫杉醇（PTX）的 LPHNPs，其粒径为 146 nm，PDI 为 0.18，包埋效率超过 90%。体外释放研究表明，在肿瘤 pH 值条件下，CUR 和 PTX 的释放得到了控制，与 PBS 7.4 相比，PTX 和 CUR 在 ABS pH 值为 5 时的释放量分别高出 1.6 倍和 1.7 倍。MTT 分析研究显示，作为 LPHNPs 的 CUR 和 PTX 的细胞毒性增强，游离 CUR 和 PTX 的 IC50 值从 480.06 µg/mL 降至 CS-CUR-PTX-LPHNPs 的 282.97 µg/mL。大鼠体内药代动力学评估证实，生物利用率显著提高，CUR 的 AUC 增加了 3.8 倍，PTX 的 AUC 增加了 6.6 倍。此外，LPHNPs 还能控制释放和延长保留时间，CUR 的半衰期（t1/2）延长了 2.2 倍，PTX 的半衰期延长了 1.3 倍：研究结果表明，壳聚糖包覆的 LPHNP 是一种很有潜力的给药平台，它具有高载药量、最佳细胞渗透尺寸和延长血液循环等特点，可用于治疗癌症。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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