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分析细菌热休克反应对光动力治疗介导的氧化应激的响应。

Analysis of the bacterial heat shock response to photodynamic therapy-mediated oxidative stress.

机构信息

John Jay High School, Cross River, NY, USA.

出版信息

Photochem Photobiol. 2011 May-Jun;87(3):707-13. doi: 10.1111/j.1751-1097.2011.00902.x. Epub 2011 Feb 22.

DOI:10.1111/j.1751-1097.2011.00902.x
PMID:21261628
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3082629/
Abstract

Antimicrobial photodynamic therapy (PDT) has recently emerged as an effective modality for the selective destruction of bacteria and other pathogenic microorganisms. We investigated whether PDT induced protective responses such as heat shock proteins (HSPs) in bacteria. Using the photosensitizer Toluidine Blue O (TBO) at sublethal PDT conditions, a seven-fold increase in bacterial HSP GroEL and a three-fold increase in HSP DnaK were observed in Escherichia coli post PDT. Pretreatment with 50°C heat for 30 min reduced PDT killing in both E. coli and in Enterococcus faecalis, with the most pronounced inhibition occurring at 50 μm TBO with 5 J cm(-2) 635 nm light, where E. coli killing was reduced by 2 log(10) and E. faecalis killing was reduced by 4 log(10). Finally, inhibition of the highly conserved chaperone DnaK using a small molecule benzylidene lactam HSP inhibitor potentiated (but not significantly) the effect of PDT at a TBO concentration of 2.5 μm in E. faecalis; however, this effect was not observed in E. coli presumably because inhibitor could not gain access due to Gram-negative permeability barrier. Induction of HSPs may be a mechanism whereby bacteria could become resistant to PDT and warrants the need for further study in the application of dual PDT-HSP-inhibition therapies.

摘要

抗菌光动力疗法 (PDT) 最近已成为选择性破坏细菌和其他致病微生物的有效方法。我们研究了 PDT 是否会诱导细菌产生保护性反应,如热休克蛋白 (HSPs)。在亚致死 PDT 条件下使用光敏剂甲苯胺蓝 O (TBO),发现大肠杆菌中 HSP GroEL 增加了七倍,HSP DnaK 增加了三倍。用 50°C 热预处理 30 分钟,可降低大肠杆菌和粪肠球菌的 PDT 杀伤作用,在 50μm TBO 和 5 J cm(-2) 635nm 光下,抑制作用最明显,大肠杆菌杀伤减少 2 个对数(10),粪肠球菌杀伤减少 4 个对数(10)。最后,使用小分子苄叉内酰胺 HSP 抑制剂抑制高度保守的伴侣蛋白 DnaK,可增强粪肠球菌中 2.5μm TBO 浓度下 PDT 的效果(但不显著);然而,在大肠杆菌中未观察到这种作用,可能是因为由于革兰氏阴性通透性屏障,抑制剂无法进入。HSP 的诱导可能是细菌对 PDT 产生抗性的一种机制,因此需要进一步研究双重 PDT-HSP 抑制治疗的应用。

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