Disease-Inspired Design of Biomimetic Tannic Acid-Based Hybrid Nanocarriers for Enhancing the Treatment of Bacterial-Induced Sepsis.

IF 4.5 2区医学 Q2 MEDICINE, RESEARCH & EXPERIMENTAL

Molecular Pharmaceutics Pub Date : 2024-08-30 DOI:10.1021/acs.molpharmaceut.4c00048

Eman Elhassan, Calvin A Omolo, Mohammed Ali Gafar, Lucy W Kiruri, Usri H Ibrahim, Eman A Ismail, Nikita Devnarain, Thirumala Govender

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Abstract

This study explored the development of novel biomimetic tannic acid-based hybrid nanocarriers (HNs) for targeted delivery of ciprofloxacin (CIP-loaded TAH-NPs) against bacterial-induced sepsis. The prepared CIP-loaded TAH-NPs exhibited appropriate physicochemical characteristics and demonstrated biocompatibility and nonhemolytic properties. Computational simulations and microscale thermophoresis studies validated the strong binding affinity of tannic acid (TA) and its nanoformulation to human Toll-like receptor 4, surpassing that of the natural substrate lipopolysaccharide (LPS), suggesting a potential competitive inhibition against LPS-induced inflammatory responses. CIP released from TAH-NPs displayed a sustained release profile over 72 h. The in vitro antibacterial activity studies revealed that CIP-loaded TAH-NPs exhibited enhanced antibacterial efficacy and efflux pump inhibitory activity. Specifically, they showed a 3-fold increase in biofilm eradication activity against MRSA and a 2-fold increase against P. aeruginosa compared to bare CIP. Time-killing assays demonstrated complete bacterial clearance within 8 h of treatment with CIP-loaded TAH-NPs. In vitro DPPH scavenging and anti-inflammatory investigations confirmed the ability of the prepared hybrid nanosystem to neutralize reactive oxygen species (ROS) and modulate LPS-induced inflammatory responses. Collectively, these results suggest that CIP-loaded TAH-NPs may serve as an innovative nanocarrier for the effective and targeted delivery of antibiotics against bacterial-induced sepsis.

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受疾病启发设计仿生单宁酸基混合纳米载体，用于加强细菌引发的败血症的治疗。

本研究探索了新型仿生物单宁酸基杂交纳米载体（HNs）的开发，用于环丙沙星（CIP-负载TAH-NPs）的靶向递送，以对抗细菌引起的败血症。所制备的负载 CIP 的 TAH-NPs 具有适当的理化特性，并表现出生物相容性和非溶血性。计算模拟和微尺度热电泳研究验证了单宁酸（TA）及其纳米制剂与人类 Toll 样受体 4 的强结合亲和力，超过了天然底物脂多糖（LPS）的结合亲和力，表明其对 LPS 诱导的炎症反应具有潜在的竞争性抑制作用。体外抗菌活性研究表明，CIP负载的TAH-NPs具有更强的抗菌功效和外排泵抑制活性。具体来说，与裸 CIP 相比，它们对 MRSA 的生物膜根除活性提高了 3 倍，对铜绿假单胞菌的活性提高了 2 倍。时间杀灭试验表明，使用CIP负载的TAH-NPs处理8小时后，细菌就会被完全清除。体外 DPPH 清除和抗炎研究证实了制备的混合纳米系统具有中和活性氧（ROS）和调节 LPS 诱导的炎症反应的能力。总之，这些结果表明，CIP负载的TAH-NPs可作为一种创新的纳米载体，有效地靶向递送抗生素，以对抗细菌引起的败血症。

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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来源期刊

Molecular Pharmaceutics 医学-药学

CiteScore

8.00

自引率

6.10%

发文量

391

审稿时长

2 months

期刊介绍： Molecular Pharmaceutics publishes the results of original research that contributes significantly to the molecular mechanistic understanding of drug delivery and drug delivery systems. The journal encourages contributions describing research at the interface of drug discovery and drug development. Scientific areas within the scope of the journal include physical and pharmaceutical chemistry, biochemistry and biophysics, molecular and cellular biology, and polymer and materials science as they relate to drug and drug delivery system efficacy. Mechanistic Drug Delivery and Drug Targeting research on modulating activity and efficacy of a drug or drug product is within the scope of Molecular Pharmaceutics. Theoretical and experimental peer-reviewed research articles, communications, reviews, and perspectives are welcomed.