Berberine-Loaded PVCL-PVA-PEG Self-Assembled Micelles for the Treatment of Liver Fibrosis.

IF 6.6 2区 医学 Q1 NANOSCIENCE & NANOTECHNOLOGY International Journal of Nanomedicine Pub Date : 2024-10-25 eCollection Date: 2024-01-01 DOI:10.2147/IJN.S465214
Xiaozhu Zha, Yumei Hao, Yifan Ke, Yichun Wang, Yujia Zhang
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Abstract

Background: Liver fibrosis is a necessary pathological process in many chronic liver diseases. Studies have shown that the progression of chronic liver disease can be slowed by rational intervention in hepatic fibrosis. Berberine (BBR), a natural extract of Phellodendron amurense, inhibits the development of liver fibrosis through several mechanisms. However, the clinical application of BBR is limited due to its low solubility. Drug delivery systems have been developed to improve the solubility of hydrophobic drugs and increase their efficacy in treating the liver fibrosis.

Methods: In this study, a biocompatible nanomicelle was constructed by thin-film dispersion method using polyvinyl caprolactam-polyvinyl acetate-polyethylene glycol graft copolymer (PVCL-PVA-PEG) as a carrier to encapsulate BBR (PVCL-PVA-PEG/BBR-MCs) to improve the solubility of BBR and reduce the systemic side effects. The ability to inhibit HSC-T6 cell activation of PVCL-PVA-PEG/BBR-MCs was evaluated in vitro. The anti-hepatic fibrosis effects of PVCL-PVA-PEG/BBR-MCs were investigated in vivo.

Results: PVCL-PVA-PEG/BBR-MCs have a uniform spherical shape with a mean particle size of 60.04 ± 0.027 nm and a potential of 1.49 ± 0.32 mV. It had an encapsulation efficiency of 98.52% ± 0.70 and drug loading content of 6.16% ± 0.04. Compared to free BBR, PVCL-PVA-PEG/BBR-MCs significantly inhibited HSC-T6 cell activation and TGF-β1-induced HSC-T6 cell migration in vitro. In vivo biodistribution experiments showed significantly improved hepatic distribution of PVCL-PVA-PEG/DiD-MCs compared to free DiD, suggesting that PVCL-PVA-PEG micelles enhance the ability of BBR to enter the liver and improve therapeutic efficacy. After treatment, PVCL-PVA-PEG/BBR-MCs significantly improved fibrotic liver structure and reduced collagen deposition in comparison to the CCl4-treated group; the treatment outcome was more effective than that of the free BBR group.

Conclusion: Our results demonstrate the advantages of encapsulating BBR in PVCL-PVA-PEG micelles and highlight the potential of PVCL-PVA-PEG/BBR-MCs as a therapeutic strategy for the treatment of liver fibrosis.

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用于治疗肝纤维化的小檗碱负载 PVCL-PVA-PEG 自组装胶束
背景:肝纤维化是许多慢性肝病的必要病理过程。研究表明,对肝纤维化进行合理干预可延缓慢性肝病的进展。小檗碱(BBR)是黄柏的天然提取物,可通过多种机制抑制肝纤维化的发展。然而,由于小檗碱的溶解度较低,其临床应用受到了限制。为了改善疏水性药物的溶解度,提高其治疗肝纤维化的疗效,人们开发了药物输送系统:方法:本研究以聚乙烯醇-己内酰胺-聚醋酸乙烯酯-聚乙二醇接枝共聚物(PVCL-PVA-PEG)为载体,采用薄膜分散法构建了生物相容性纳米胶束,用于包封BBR(PVCL-PVA-PEG/BBR-MCs),以提高BBR的溶解度并减少其全身副作用。在体外评估了 PVCL-PVA-PEG/BBR-MCs 抑制 HSC-T6 细胞活化的能力。在体内研究了 PVCL-PVA-PEG/BBR-MCs 的抗肝纤维化作用:PVCL-PVA-PEG/BBR-MCs呈均匀球形,平均粒径为60.04 ± 0.027 nm,电位为1.49 ± 0.32 mV。它的封装效率为 98.52% ± 0.70,药物装载量为 6.16% ± 0.04。与游离 BBR 相比,PVCL-PVA-PEG/BBR-MCs 能显著抑制体外 HSC-T6 细胞活化和 TGF-β1 诱导的 HSC-T6 细胞迁移。体内生物分布实验显示,与游离 DiD 相比,PVCL-PVA-PEG/DiD-MCs 的肝脏分布明显改善,这表明 PVCL-PVA-PEG 胶束增强了 BBR 进入肝脏的能力,提高了疗效。治疗后,与CCl4治疗组相比,PVCL-PVA-PEG/BBR-MCs能明显改善纤维化肝脏结构,减少胶原沉积;治疗效果优于游离BBR组:我们的研究结果证明了将BBR包裹在PVCL-PVA-PEG胶束中的优势,并突出了PVCL-PVA-PEG/BBR-MCs作为治疗肝纤维化的一种治疗策略的潜力。
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来源期刊
International Journal of Nanomedicine
International Journal of Nanomedicine NANOSCIENCE & NANOTECHNOLOGY-PHARMACOLOGY & PHARMACY
CiteScore
14.40
自引率
3.80%
发文量
511
审稿时长
1.4 months
期刊介绍: The International Journal of Nanomedicine is a globally recognized journal that focuses on the applications of nanotechnology in the biomedical field. It is a peer-reviewed and open-access publication that covers diverse aspects of this rapidly evolving research area. With its strong emphasis on the clinical potential of nanoparticles in disease diagnostics, prevention, and treatment, the journal aims to showcase cutting-edge research and development in the field. Starting from now, the International Journal of Nanomedicine will not accept meta-analyses for publication.
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