Photodynamic inactivation of E. coli with cationic imidazolyl-porphyrin photosensitizers and their synergic combination with antimicrobial cinnamaldehyde.

IF 2.7 3区 化学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY Photochemical & Photobiological Sciences Pub Date : 2024-06-01 Epub Date: 2024-05-12 DOI:10.1007/s43630-024-00581-y
Madalena F C Silva, Rafael T Aroso, Janusz M Dabrowski, Barbara Pucelik, Agata Barzowska, Gabriela J da Silva, Luis G Arnaut, Mariette M Pereira
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Abstract

Bacterial infections are a global health concern, particularly due to the increasing resistance of bacteria to antibiotics. Multi-drug resistance (MDR) is a considerable challenge, and novel approaches are needed to treat bacterial infections. Photodynamic inactivation (PDI) of microorganisms is increasingly recognized as an effective method to inactivate a broad spectrum of bacteria and overcome resistance mechanisms. This study presents the synthesis of a new cationic 5,15-di-imidazolyl porphyrin derivative and the impact of n-octanol/water partition coefficient (logP) values of this class of photosensitizers on PDI efficacy of Escherichia coli. The derivative with logP = -0.5, IP-H-OH2+, achieved a remarkable 3 log CFU reduction of E. coli at 100 nM with only 1.36 J/cm2 light dose at 415 nm, twice as effective as the second-best porphyrin IP-H-Me2+, of logP = -1.35. We relate the rapid uptake of IP-H-OH2+ by E. coli to improved PDI and the very low uptake of a fluorinated derivative, IP-H-CF32+, logP ≈ 1, to its poor performance. Combination of PDI with cinnamaldehyde, a major component of the cinnamon plant known to alter bacteria cell membranes, offered synergic inactivation of E. coli (7 log CFU reduction), using 50 nM of IP-H-OH2+ and just 1.36 J/cm2 light dose. The success of combining PDI with this natural compound broadens the scope of therapies for MDR infections that do not add drug resistance. In vivo studies on a mouse model of wound infection showed the potential of cationic 5,15-di-imidazolyl porphyrins to treat clinically relevant infected wounds.

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阳离子咪唑卟啉光敏剂及其与抗菌剂肉桂醛的协同组合对大肠杆菌的光动力灭活作用。
细菌感染是全球关注的健康问题,特别是由于细菌对抗生素的耐药性不断增加。多重耐药性(MDR)是一个相当大的挑战,因此需要新的方法来治疗细菌感染。微生物的光动力灭活(PDI)越来越被认为是灭活广谱细菌和克服耐药机制的有效方法。本研究介绍了一种新的阳离子 5,15-二咪唑卟啉衍生物的合成,以及该类光敏剂的正辛醇/水分配系数(logP)值对大肠杆菌光动力灭活功效的影响。logP = -0.5 的衍生物 IP-H-OH2+,在 100 nM 的波长、415 nm 的波长、1.36 J/cm2 的光剂量下,能显著减少大肠杆菌 3 log CFU,是 logP = -1.35 的第二好的卟啉 IP-H-Me2+ 的两倍。我们认为,大肠杆菌对 IP-H-OH2+ 的快速吸收与 PDI 的改进有关,而对含氟衍生物 IP-H-CF32+ 的吸收率极低(logP ≈ 1)则与其性能不佳有关。PDI 与肉桂醛(一种已知能改变细菌细胞膜的肉桂植物的主要成分)相结合,能协同灭活大肠杆菌(减少 7 log CFU),使用 50 nM 的 IP-H-OH2+,光剂量仅为 1.36 J/cm2。PDI 与这种天然化合物的成功结合拓宽了不增加耐药性的 MDR 感染疗法的范围。对小鼠伤口感染模型的体内研究表明,阳离子 5,15-二咪唑卟啉具有治疗临床相关感染伤口的潜力。
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来源期刊
Photochemical & Photobiological Sciences
Photochemical & Photobiological Sciences 生物-生化与分子生物学
CiteScore
5.60
自引率
6.50%
发文量
201
审稿时长
2.3 months
期刊介绍: A society-owned journal publishing high quality research on all aspects of photochemistry and photobiology.
期刊最新文献
Photophysical behavior of meso-N-butylcarbazole-substituted BODIPY in different nano-scale organized media. A colorimetric and ratiometric fluorescent probe of hypochlorous acid and its bio-imaging application. A review of ultraviolet filters and their impact on aquatic environments. Type I and Type II photosensitization of DNA etheno adducts. Two isoniazid-based chemosensors for the detection of cyanide ions in solution: an experimental and computational study.
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