Potential of using medicinal plant extracts as photosensitizers for antimicrobial photodynamic therapy.

IF 2.6 4区生物学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY Photochemistry and Photobiology Pub Date : 2024-11-01 Epub Date: 2024-03-08 DOI:10.1111/php.13935

Aliaksandr V Mikulich, Vitaly Yu Plavskii, Antonina I Tretyakova, Raman K Nahorny, Andrey N Sobchuk, Natalia V Dudchik, Olga A Emeliyanova, Anastasia I Zhabrouskaya, Ludmila G Plavskaya, Tatsiana S Ananich, Olga N Dudinova, Ihar A Leusenka, Sergey V Yakimchuk, Alexei D Svechko, Tran Quoc Tien, Quang Cong Tong, Thanh Phuong Nguyen

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Abstract

Antimicrobial photodynamic therapy (APDT) is a promising approach to overcome antimicrobial resistance. However, for widespread implementation of this approach, approved photosensitizers are needed. In this study, we used commercially available preparations (Calendulae officinalis floridis extract, Chamomillae recutitae floridis extract, Achillea millefolii herbae extract; Hypericum perforatum extract; Eucalyptus viminalis folia extract) as photosensitizers for inactivation of gram-negative (Pseudomonas aeruginosa) and gram-positive (Staphylococcus aureus) bacteria. Spectral-luminescent analysis has shown that the major chromophores are of chlorophyll (mainly chlorophyll a and b) and hypericin nature. The extracts are efficient generators of singlet oxygen with quantum yield (γ_Δ) from 0.40 to 0.64 (reference compound, methylene blue with γ_Δ = 0.52). In APDT assays, bacteria before irradiation were incubated with extracts for 30 min. After irradiation and 24 h of incubation, colony-forming units (CFU) were counted. Upon exposure of P. aeruginosa to radiation of 405 nm, 590 nm, and 660 nm at equal energy dose of 30 J/cm² (irradiance - 100 mW/cm², exposure time - 5 min), the most pronounced effect is observed with blue light (>3 log₁₀ reduction); in case of S. aureus, the effect is approximately equivalent for light of indicated wavelengths and dose (>4 log₁₀ reduction).

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将药用植物提取物作为光敏剂用于抗菌光动力疗法的潜力。

抗菌光动力疗法（APDT）是克服抗菌药耐药性的一种很有前景的方法。然而，要广泛应用这种方法，需要获得批准的光敏剂。在本研究中，我们使用市售制剂（盏花提取物、洋甘菊提取物、蓍草提取物、贯叶连翘提取物、桉叶提取物）作为光敏剂，用于灭活革兰氏阴性（铜绿假单胞菌）和革兰氏阳性（金黄色葡萄球菌）细菌。光谱发光分析表明，主要的发色团是叶绿素（主要是叶绿素 a 和 b）和金丝桃素。提取物是单线态氧的有效生成物，量子产率（γΔ ）从 0.40 到 0.64 不等（参考化合物亚甲基蓝的量子产率为 γΔ = 0.52）。在 APDT 试验中，细菌在辐照前与提取物培养 30 分钟。辐照和培养 24 小时后，计数菌落形成单位（CFU）。将铜绿假单胞菌暴露于波长为 405 纳米、590 纳米和 660 纳米、能量剂量为 30 焦耳/平方厘米的辐射中（辐照度 - 100 毫瓦/平方厘米，照射时间 - 5 分钟），观察到蓝光的效果最明显（减少量大于 3 log10）；对于金黄色葡萄球菌，上述波长和剂量的光的效果大致相同（减少量大于 4 log10）。

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

Photochemistry and Photobiology 生物-生化与分子生物学

CiteScore

6.70

自引率

12.10%

发文量

171

审稿时长

2.7 months

期刊介绍： Photochemistry and Photobiology publishes original research articles and reviews on current topics in photoscience. Topics span from the primary interaction of light with molecules, cells, and tissue to the subsequent biological responses, representing disciplinary and interdisciplinary research in the fields of chemistry, physics, biology, and medicine. Photochemistry and Photobiology is the official journal of the American Society for Photobiology.