Antifungal efficacy of Citrusfusion mediated silver nanoparticles in Candida species.

IF 3.5 3区生物学 Q2 BIOTECHNOLOGY & APPLIED MICROBIOLOGY

BMC Biotechnology Pub Date : 2025-02-20 DOI:10.1186/s12896-025-00952-y

A Harine, S Ranjani, S Hemalatha

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引用次数: 0

Abstract

Background: Candida species are commensal fungi that can become opportunistic pathogens under specific host and environmental conditions. The emergence of multidrug-resistant Candida strains poses a significant challenge. Nanotechnology represents a cutting-edge field offering precise and targeted delivery systems for combating fungal infections, leveraging the unique properties of plant-derived bioactive compounds. This investigation employed a biogenic approach utilizing polyherbal leaf extracts from Citrus limon and Citrus medica, known for their abundant Citral content.

Results: Citrus sp. extracts were used to synthesize Citrusfusion silver nanoparticles (CitAgNPs) through a green synthesis method. Characterization of CitAgNPs was carried out using advanced analytical methods ensuring the quality, uniformity, size, and charge. The synthesized CitAgNPs exhibited non toxic effect when tested on Vigna radiata and Danio rerio, highlighting their potential for sustainability and safe therapeutic use. Antifungal assays demonstrated the potent efficacy of CitAgNPs in various Candida strains, with low MIC and MFC. CitAgNPs exhibited remarkable biofilm inhibition capabilities and elucidated specific mechanisms of action in Candida species, surpassing the performance of fluconazole.

Conclusion: This study underscores the immense potential of nanotechnology-driven approaches harnessing Citrus leaf extract for synthesizing highly effective antifungal nanoparticles. The fusion of biogenic nanoparticles with Citrus bioactive compounds presents a sustainable strategy for addressing the escalating challenge of azole-resistant Candida infections. The research outcomes suggest that CitAgNPs have promising applications in inhibiting Candida biofilms, offering potential solutions for infections caused by diaper rashes and onychomycosis, providing safe and effective alternatives to antifungal therapies.

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柑橘融合介导的纳米银对念珠菌的抗真菌作用。

背景：念珠菌是一种共生真菌，在特定的寄主和环境条件下可以成为条件致病菌。多重耐药念珠菌菌株的出现构成了重大挑战。纳米技术代表了一个前沿领域，利用植物源性生物活性化合物的独特特性，为对抗真菌感染提供精确和有针对性的递送系统。本研究采用了一种生物源方法，利用从柠檬柑橘和枸杞中提取的多草药叶提取物，以其丰富的柠檬醛含量而闻名。结果：采用绿色合成法，利用柑橘提取物合成了柑橘融合纳米银（CitAgNPs）。采用先进的分析方法对CitAgNPs进行了表征，确保了质量、均匀性、尺寸和电荷。合成的CitAgNPs在Vigna和Danio试验中显示出无毒作用，突出了其可持续性和安全治疗应用的潜力。抗真菌实验表明，CitAgNPs对具有低MIC和低MFC的各种念珠菌菌株具有有效的抗真菌作用。CitAgNPs表现出显著的生物膜抑制能力，并在念珠菌中阐明了特定的作用机制，优于氟康唑。结论：本研究强调了利用柑橘叶提取物合成高效抗真菌纳米颗粒的纳米技术驱动方法的巨大潜力。生物纳米颗粒与柑橘类生物活性化合物的融合提出了一种可持续的策略，以解决不断升级的抗唑念珠菌感染的挑战。研究结果表明，CitAgNPs在抑制念珠菌生物膜方面具有广阔的应用前景，为尿布疹和甲癣引起的感染提供了潜在的解决方案，为抗真菌治疗提供了安全有效的替代方案。

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来源期刊

BMC Biotechnology 工程技术-生物工程与应用微生物

CiteScore

6.60

自引率

0.00%

发文量

审稿时长

2 months

期刊介绍： BMC Biotechnology is an open access, peer-reviewed journal that considers articles on the manipulation of biological macromolecules or organisms for use in experimental procedures, cellular and tissue engineering or in the pharmaceutical, agricultural biotechnology and allied industries.