含有绿色合成银和氧化铜纳米颗粒的选择性抗菌壳聚糖膜用于痤疮治疗。

IF 4.6 2区医学 Q1 INFECTIOUS DISEASES

Antibiotics-Basel Pub Date : 2025-09-03 DOI:10.3390/antibiotics14090891

Roberta Albino Dos Reis, Carolina C de Freitas, Leonardo Longuini da Silva, Laura Pierobão Monteiro, Gerson Nakazato, Mathilde Champeau, Ricardo A Galdino da Silva, Amedea Barozzi Seabra

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引用次数: 0

摘要

背景/目的：制备了壳聚糖基纳米银纳米颗粒（AgNPs）和氧化铜纳米颗粒（CuONPs）膜，比较了它们在局部应用中的选择性抗菌作用。虽然AgNPs具有广谱活性，但本研究假设CuONPs对痤疮相关细菌Cutibacterium acnes具有优越的靶向疗效。方法：以山茶提取物为原料合成纳米颗粒，并对其进行表征。采用最小抑菌浓度（MIC）和最小杀菌浓度（MBC）测定其抑菌活性。进一步测试了含AgNPs或CuONPs的壳聚糖膜的选择性抗菌活性和成纤维细胞相容性。结果：AgNPs对大肠杆菌和金黄色葡萄球菌（MIC = 15µg/mL）有较强的抑制作用，但对痤疮C. （MIC = 125µg/mL）的抑制作用较弱。相比之下，CuONPs对C. acnes表现出选择性作用（MIC = 62µg/mL; MBC = 125µg/mL）。当加入壳聚糖膜时，AgNPs@CHI抑制大肠杆菌（35 mm光晕）和金黄色葡萄球菌（30 mm光晕），而CuONPs@CHI选择性地抑制痤疮c （45 mm光晕）。所有薄膜都保持成纤维细胞活力高于70%的ISO 10993-5阈值。结论：CuONPs@CHI膜验证了选择性抗c。强调了他们的承诺，有针对性的抗痤疮治疗，而AgNPs@CHI薄膜作为有效的广谱抗菌屏障。结果表明，AgNPs对大肠杆菌和金黄色葡萄球菌（MIC = 15µg/mL）有较强的抑制作用，但对痤疮C. （MIC = 125µg/mL）的抑制作用较弱。相反，CuONPs对C. acnes表现出明显的选择性优势（MIC = 62µg/mL; MBC = 125µg/mL）。当加入壳聚糖膜时，AgNPs@CHI膜抑制大肠杆菌（35 mm光晕）和金黄色葡萄球菌（30 mm光晕），而CuONPs@CHI膜选择性地仅对痤疮c （45 mm）有效，证实了靶向性能。所有薄膜都保持成纤维细胞活力高于70%的ISO 10993-5细胞毒性阈值。这些发现验证了CuONPs@CHI膜的选择性作用，将其定位为靶向抗痤疮治疗的有前途的生物材料，而AgNPs@CHI膜则是有效的广谱抗菌屏障。

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Selective Antimicrobial Chitosan Films Incorporating Green-Synthesized Silver and Copper Oxide Nanoparticles for Acne Treatment.

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Selective Antimicrobial Chitosan Films Incorporating Green-Synthesized Silver and Copper Oxide Nanoparticles for Acne Treatment.

Background/Objectives: Chitosan-based films incorporating green-synthesized silver nanoparticles AgNPs) or copper oxide nanoparticles (CuONPs) were developed to compare their selective antimicrobial action for topical applications. While AgNPs are known for broad-spectrum activity, this study hypothesized that CuONPs would exhibit superior, targeted efficacy against the acne-associated bacterium Cutibacterium acnes. Methods: Nanoparticles were synthesized using Camellia sinensis extract and characterized. Antimicrobial activity was evaluated using Minimum Inhibitory Concentration (MIC) and Minimum Bactericidal Concentration (MBC) assays. Chitosan films containing AgNPs or CuONPs were further tested for selective antimicrobial activity and fibroblast cytocompatibility. Results: AgNPs showed strong activity against Escherichia coli and Staphylococcus aureus (MIC = 15 µg/mL) but were less effective against C. acnes (MIC = 125 µg/mL). In contrast, CuONPs demonstrated selective efficacy against C. acnes (MIC = 62 µg/mL; MBC = 125 µg/mL). When incorporated into chitosan films, AgNPs@CHI inhibited E. coli (35 mm halo) and S. aureus (30 mm), whereas CuONPs@CHI were selectively effective against C. acnes (45 mm). All films preserved fibroblast viability above the 70% ISO 10993-5 threshold. Conclusions: CuONPs@CHI films validated selective anti-C. acnes performance, highlighting their promise for targeted anti-acne therapies, while AgNPs@CHI films served as effective broad-spectrum antimicrobial barriers.revealed that AgNPs were potent against Escherichia coli and Staphylococcus aureus (MIC = 15 µg/mL) but less effective against C. acnes (MIC = 125 µg/mL). Conversely, CuONPs demonstrated a marked selective advantage against C. acnes (MIC = 62 µg/mL; MBC = 125 µg/mL). When incorporated into chitosan films, AgNPs@CHI films inhibited E. coli (35 mm halo) and S. aureus (30 mm), whereas CuONPs@CHI films were selectively effective only against C. acnes (45 mm), confirming the targeted performance. All films maintained fibroblast viability above the 70% ISO 10993-5 cytotoxicity threshold. These findings validate the selective action of CuONPs@CHI films, positioning them as a promising biomaterial for targeted anti-acne therapies, while AgNPs@CHI films serve as effective broad-spectrum antimicrobial barriers.

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来源期刊

Antibiotics-Basel Pharmacology, Toxicology and Pharmaceutics-General Pharmacology, Toxicology and Pharmaceutics

CiteScore

7.30

自引率

14.60%

发文量

1547

审稿时长

11 weeks

期刊介绍： Antibiotics (ISSN 2079-6382) is an open access, peer reviewed journal on all aspects of antibiotics. Antibiotics is a multi-disciplinary journal encompassing the general fields of biochemistry, chemistry, genetics, microbiology and pharmacology. Our aim is to encourage scientists to publish their experimental and theoretical results in as much detail as possible. Therefore, there is no restriction on the length of papers.