Advances on antimicrobial photodynamic inactivation mediated by Zn(II) porphyrins

IF 12.8 1区 化学 Q1 CHEMISTRY, PHYSICAL
Tiago H.S. Souza , José F. Sarmento-Neto , Sueden O. Souza , Bruno L. Raposo , Bruna P. Silva , Christiane P.F. Borges , Beate S. Santos , Paulo E. Cabral Filho , Júlio S. Rebouças , Adriana Fontes
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引用次数: 17

Abstract

Over the years, microorganisms have developed several resistance mechanisms against standard treatments, thus limiting the effect of drugs and rendering ineffective therapies. Considering the growing number of resistant pathogens and adverse effects of conventional therapies, new antimicrobial technologies able to provide more effective, rapid, and safer treatments to inactivate pathogens, with unlikely chances of inducing resistance, are needed. In this regard, antimicrobial photodynamic inactivation (aPDI) has emerged as an alternative modality of treatment. In particular, Zn(II) porphyrins (ZnPs) hold great potential as photosensitizers (PSs) for aPDI and have been attracting increasing attention. The chemical structure of ZnPs can be tailored to produce PSs with improved chemical stability and photophysical properties, also modulating their amphiphilic and ionic characters, bioavailability, and (sub)cellular distribution. Thus, in this review, we provide a detailed report of studies published in about the last 10 years (2010–2021) focusing on aPDI mediated by ZnPs over a variety of pathogens, including bacteria, fungi, viruses, and protozoa. Fundamentals of aPDI, and porphyrin and its derivatives, especially ZnPs, are also included herein. We hope that this review can guide and be a reference for future studies related to aPDI mediated by ZnPs, and encourages more detailed studies on ZnP photophysical and photochemical properties, aiming to improve the fight against infectious diseases.

Zn(II)卟啉介导的抗菌光动力失活研究进展
多年来,微生物已经形成了几种对标准治疗的耐药机制,从而限制了药物的效果并使治疗无效。考虑到越来越多的耐药病原体和传统疗法的不良影响,需要新的抗菌技术,能够提供更有效、更快速和更安全的灭活病原体的治疗,而不太可能产生耐药性。在这方面,抗菌光动力失活(aPDI)已成为一种替代治疗方式。特别是锌(II)卟啉(ZnPs)作为aPDI的光敏剂具有很大的潜力,越来越受到人们的关注。通过调整ZnPs的化学结构,可以制备出具有更好的化学稳定性和光物理性能的ps,同时还可以调节其两亲性和离子性、生物利用度和(亚)细胞分布。因此,在这篇综述中,我们提供了近10年(2010-2021)关于ZnPs介导的aPDI对多种病原体(包括细菌、真菌、病毒和原生动物)的研究的详细报告。aPDI的基本原理,卟啉及其衍生物,特别是ZnPs,也包括在这里。希望本综述能为今后ZnP介导aPDI的相关研究提供指导和参考,并鼓励对ZnP光理化性质进行更详细的研究,以提高对传染病的防治能力。
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
CiteScore
21.90
自引率
0.70%
发文量
36
审稿时长
47 days
期刊介绍: The Journal of Photochemistry and Photobiology C: Photochemistry Reviews, published by Elsevier, is the official journal of the Japanese Photochemistry Association. It serves as a platform for scientists across various fields of photochemistry to communicate and collaborate, aiming to foster new interdisciplinary research areas. The journal covers a wide scope, including fundamental molecular photochemistry, organic and inorganic photochemistry, photoelectrochemistry, photocatalysis, solar energy conversion, photobiology, and more. It provides a forum for discussing advancements and promoting collaboration in the field of photochemistry.
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