Salvianolic Acid B-Loaded Albumin Nanoparticles Reduce Portal Hypertension in Cirrhotic Mice and Inhibit the Proliferation and Contraction of Hepatic Stellate Cells.

IF 2.8 4区医学 Q2 PHARMACOLOGY & PHARMACY

Current pharmaceutical design Pub Date : 2025-09-29 DOI:10.2174/0113816128364560250124055417

RuiQing Wang, LianJun Xing, Xiao Yu, PeiMin Pu, Nan Shen, YuChen Fang

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引用次数: 0

Abstract

Introduction: Salvianolic acid B (SAB), as one of the major water-soluble compounds of Salvia miltiorrhiza, has proved to effectively reduce elevated portal pressure in cirrhotic rats. However, the short halflife and in vivo retention time of SAB affect its pharmacodynamics. Therefore, in this study, we prepared albumin nanoparticles loaded with SAB (SAB-ALB-NPs) to improve the in vivo retention time of the drug and enhance bioavailability.

Methods: We prepared and characterized SAB-ALB-NPs, including particle size, PDI, zeta potential, stability, EE, in-vitro release, and pharmacokinetics. Subsequently, we investigated the effects and potential mechanisms of SAB-ALB-NPs in CCl4-induced portal hypertension (PHT) mice models, and it was found that angiotensin- II (Ang-II) induced proliferation and contraction in hepatic stellate cells (HSCs). The CCl4 (0.3:1 in corn oil, 1mL/kg) was injected repeatedly, leading to the PHT mice model. The effect of SAB-ALB-NPs on PHT mice was evaluated by hematoxylin-eosin, Sirius red staining, immunohistochemistry, and western blot.

Results: We successfully prepared SAB-loaded albumin nanoparticles with smaller-sized particles, lower PDI and zeta potential with stable properties, and higher EE. Importantly, the SAB-ALB-NPs notably prolonged the in vitro release of SAB. SAB-ALB-NPs significantly reduced portal pressure, inhibited inflammation (decrease the concentration of TNF-α and IL-6) and hepatotoxicity of the liver (down-regulated the level of ALT and AST) against fibrous tissue hyperplasia, and reduced collagen deposition in the liver. Afterward, we used Ang-II to facilitate the proliferation of HSCs and induce HSC cell contraction. Cotreatment of SAB-ALB-NPs markedly inhibited Ang II-induced effects on cell proliferation and contraction and improved apoptosis. Importantly, SAB-ALB-NPs were preliminarily found to inhibit the expression of RhoA and ROCK II in Ang-II- treated HSC and CCl4-induced PHT mice, suggesting that SAB-ALB-NPs may participate in the regulation of RhoA/ROCK II pathway.

Conclusion: SAB-ALB-NPs improved portal hypertension by suppressing inflammation and inhibiting HSCs activation and proliferation to attenuate liver fibrosis. This therapeutic function of SAB-ALB-NPs may be owing to SAB-ALB-NPs regulating the RhoA/ROCK2 pathway, which may be one of its molecular mechanisms for reducing portal hypertension.

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丹酚酸b负载白蛋白纳米颗粒降低肝硬化小鼠门静脉高压并抑制肝星状细胞的增殖和收缩。

摘要：丹参酚酸B （Salvianolic acid B， SAB）作为丹参主要水溶性化合物之一，已被证实可有效降低肝硬化大鼠门脉压升高。然而，SAB的半衰期短，体内滞留时间短，影响了其药效学。因此，在本研究中，我们制备了装载SAB的白蛋白纳米颗粒（sabb - alb - nps），以提高药物的体内保留时间，提高生物利用度。方法：制备ab - alb - nps，并对其粒径、PDI、zeta电位、稳定性、EE、体外释放度、药动学等指标进行表征。随后，我们研究了SAB-ALB-NPs在ccl4诱导的门静脉高压症（PHT）小鼠模型中的作用和可能的机制，发现血管紧张素-II （Ang-II）诱导肝星状细胞（hsc）的增殖和收缩。重复注射CCl4（玉米油0.3:1,1mL/kg），建立PHT小鼠模型。采用苏木精-伊红染色、天狼星红染色、免疫组织化学、western blot等方法评价sabb - alb - nps对PHT小鼠的影响。结果：成功制备了负载ab的白蛋白纳米颗粒，粒径更小，PDI和zeta电位更低，性能稳定，EE更高。重要的是，SAB- alb - nps显著延长了SAB的体外释放。sabb - alb - nps能显著降低门静脉压力，抑制炎症（降低TNF-α和IL-6的浓度）和肝脏对纤维组织增生的肝毒性（下调ALT和AST的水平），减少肝内胶原沉积。随后，我们使用Ang-II促进HSC的增殖并诱导HSC细胞收缩。ab - alb - nps共处理可显著抑制Ang ii诱导的细胞增殖和收缩，并改善细胞凋亡。重要的是，初步发现ab - alb - nps可抑制Ang-II处理的HSC和ccl4诱导的PHT小鼠RhoA和ROCK II的表达，提示ab - alb - nps可能参与RhoA/ROCK II通路的调控。结论：sabb - alb - nps通过抑制炎症、抑制hsc的活化和增殖，减轻肝纤维化，改善门静脉高压症。sabb - alb - nps的这种治疗功能可能是由于sabb - alb - nps调节RhoA/ROCK2通路，这可能是其降低门静脉高压症的分子机制之一。

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来源期刊

Current pharmaceutical design 医学-药学

CiteScore

6.30

自引率

0.00%

发文量

302

审稿时长

2 months

期刊介绍： Current Pharmaceutical Design publishes timely in-depth reviews and research articles from leading pharmaceutical researchers in the field, covering all aspects of current research in rational drug design. Each issue is devoted to a single major therapeutic area guest edited by an acknowledged authority in the field. Each thematic issue of Current Pharmaceutical Design covers all subject areas of major importance to modern drug design including: medicinal chemistry, pharmacology, drug targets and disease mechanism.