提取物绿色合成的铜纳米颗粒的抗菌、抗炎、血管生成及伤口愈合活性

Antimicrobial, Anti-inflammatory, Angiogenesis, and Wound Healing Activities of Copper Nanoparticles Green Synthesized by Extract.

作者信息

H Saeedi Nizar, D Alanazi Abdullah, Alenazy Rawaf, F Shater Abdullah

机构信息

Department of Medical Laboratory Technology, Faculty of Applied Medical Sciences, University of Tabuk, Tabuk 71491, Saudi Arabia.

Department of Biological Sciences, Faculty of Science and Humanities, Shaqra University, Ad-Dawadimi 11911, Saudi Arabia.

出版信息

Iran J Pharm Res. 2025 Mar 26;24(1):e147434. doi: 10.5812/ijpr-147434. eCollection 2025 Jan-Dec.

DOI:10.5812/ijpr-147434

PMID:40708929

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12285676/

Abstract

BACKGROUND

Wound healing and antibiotic resistance of pathogenic microbes have become global issues with serious consequences for the treatment of infectious diseases.

OBJECTIVES

The present study aimed to evaluate the antibacterial, anti-inflammatory, angiogenic, and wound healing properties of copper nanoparticles (CuNPs) synthesized using extract.

METHODS

The green synthesis was conducted using the precipitation method. The antibacterial activity of CuNPs against both methicillin-sensitive and methicillin-resistant (MRSA) strains was evaluated. The effects of CuNPs on protein leakage, the expression levels of biofilm-related genes [e.g., intracellular adhesion A (icaA), intracellular adhesion D (icaD), and elastin-binding protein (EbpS) genes] in MRSA, as well as its impact on wound healing, angiogenesis, and anti-inflammatory effects, were assessed.

RESULTS

The CuNPs exhibited a spherical shape with dimensions ranging from 10 to 85 nm. Both CuNPs alone and in combination with gentamicin (GNT) inhibited biofilm formation in MRSA, with minimum biofilm inhibitory concentration (MBIC) values of 6.6 µg/mL and 0.50 µg/mL for MRSA, respectively. The CuNPs significantly (P < 0.05) downregulated the expression levels of icaA, icaD, and EbpS in MRSA, particularly at half the minimum inhibitory concentration (1/2 MIC) and the minimum inhibitory concentration (MIC). Additionally, CuNPs markedly (P < 0.001) increased protein leakage in MRSA. The CuNPs demonstrated potent in vitro wound healing effects, promoting fibroblast cell proliferation and wound closure in a dose-dependent manner. Our results indicated a significant (P < 0.05) increase in the expression of HLA-G5 and VEGF-A genes in cells exposed to CuNPs. Furthermore, CuNPs reduced the expression levels of inflammatory genes in lipopolysaccharide (LPS)-stimulated RAW 264.7 cells (P < 0.05).

CONCLUSIONS

The findings of this experimental test indicate that CuNPs, particularly in conjunction with GNT, exhibits promising antibacterial effects against MRSA without causing cytotoxicity to normal cells. This study also demonstrated that green-synthesized CuNPs possesses significant wound-healing properties through its antibacterial activity, inhibition of biofilm formation, induction of angiogenesis, and reduction of inflammation. However, further experiments are necessary to elucidate the precise mechanisms of action and potential toxicity of CuNPs.

摘要

背景

伤口愈合和致病微生物的抗生素耐药性已成为全球性问题，对传染病治疗产生严重后果。

目的

本研究旨在评估使用提取物合成的铜纳米颗粒（CuNPs）的抗菌、抗炎、促血管生成和伤口愈合特性。

方法

采用沉淀法进行绿色合成。评估了CuNPs对甲氧西林敏感和耐甲氧西林金黄色葡萄球菌（MRSA）菌株的抗菌活性。评估了CuNPs对MRSA中蛋白质渗漏、生物膜相关基因[如细胞内黏附素A（icaA）、细胞内黏附素D（icaD）和弹性蛋白结合蛋白（EbpS）基因]表达水平的影响，以及其对伤口愈合、血管生成和抗炎作用的影响。

结果

CuNPs呈球形，尺寸范围为10至85nm。单独的CuNPs以及与庆大霉素（GNT）联合使用均能抑制MRSA中的生物膜形成，MRSA的最小生物膜抑制浓度（MBIC）值分别为6.6μg/mL和0.50μg/mL。CuNPs显著（P<0.05）下调了MRSA中icaA、icaD和EbpS的表达水平，尤其是在最小抑菌浓度的一半（1/2 MIC）和最小抑菌浓度（MIC）时。此外，CuNPs显著（P<0.001）增加了MRSA中的蛋白质渗漏。CuNPs在体外显示出强大的伤口愈合作用，以剂量依赖的方式促进成纤维细胞增殖和伤口闭合。我们的结果表明，暴露于CuNPs的细胞中HLA-G5和VEGF-A基因的表达显著（P<0.05）增加。此外，CuNPs降低了脂多糖（LPS）刺激的RAW 264.7细胞中炎症基因的表达水平（P<0.05）。

结论

本实验测试结果表明，CuNPs，特别是与GNT联合使用时，对MRSA具有良好的抗菌效果，且对正常细胞无细胞毒性。本研究还表明，绿色合成的CuNPs通过其抗菌活性、抑制生物膜形成、诱导血管生成和减轻炎症具有显著的伤口愈合特性。然而，需要进一步的实验来阐明CuNPs的确切作用机制和潜在毒性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5024/12285676/635005bd8e48/ijpr-24-1-147434-i001.jpg

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提取物绿色合成的铜纳米颗粒的抗菌、抗炎、血管生成及伤口愈合活性

Antimicrobial, Anti-inflammatory, Angiogenesis, and Wound Healing Activities of Copper Nanoparticles Green Synthesized by Extract.

作者信息

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出版信息

BACKGROUND

OBJECTIVES

METHODS

RESULTS

CONCLUSIONS

背景

目的

方法

结果

结论

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