在光动力疗法期间使用荧光探针监测单线态氧和羟基自由基的形成。

Monitoring singlet oxygen and hydroxyl radical formation with fluorescent probes during photodynamic therapy.

作者信息

Price Michael, Reiners John J, Santiago Ann Marie, Kessel David

机构信息

Cancer Biology Program, and Karmanos Cancer Institute, Wayne State University School of Medicine, Detroit, MI, USA.

出版信息

Photochem Photobiol. 2009 Sep-Oct;85(5):1177-81. doi: 10.1111/j.1751-1097.2009.00555.x. Epub 2009 Apr 6.

DOI:10.1111/j.1751-1097.2009.00555.x

PMID:19508643

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2745507/

Abstract

Singlet oxygen (1O2) is the primary oxidant generated in photodynamic therapy (PDT) protocols involving sensitizers resulting in type II reactions. 1O2 can give rise to additional reactive oxygen species (ROS) such as the hydroxyl radical (*OH). The current study was designed to assess 3'-p-(aminophenyl) fluorescein (APF) and 3'-p-(hydroxyphenyl) fluorescein (HPF) as probes for the detection of 1O2 and *OH under conditions relevant to PDT. Cell-free studies indicated that both APF and HPF were converted to fluorescent products following exposure to 1O2 generated by irradiation of a water-soluble photosensitizing agent (TPPS) and that APF was 35-fold more sensitive than HPF. Using the 1O2 probe singlet oxygen sensor green (SOSG) we confirmed that 1 mm NaN3 quenched 1O2-induced APF/HPF fluorescence, while 1% DMSO had no effect. APF and HPF also yielded a fluorescent product upon interacting with *OH generated from H2O2 via the Fenton reaction in a cell-free system. DMSO quenched the fluorogenic interaction between APF/HPF and *OH at doses as low as 0.02%. Although NaN3 was expected to quench *OH-induced APF/HPF fluorescence, co-incubating NaN3 with APF or HPF in the presence of *OH markedly enhanced fluorescence. Cultured L1210 cells that had been photosensitized with benzoporphyhrin derivative exhibited APF fluorescence immediately following irradiation. Approximately 50% of the cellular fluorescence could be suppressed by inclusion of either DMSO or the iron-chelator desferroxamine. Combining the latter two agents did not enhance suppression. We conclude that APF can be used to monitor the formation of both 1O2 and *OH in cells subjected to PDT if studies are performed in the presence and absence of DMSO, respectively. That portion of the fluorescence quenched by DMSO will represent the contribution of *OH. This procedure could represent a useful means for evaluating formation of both ROS in the context of PDT.

摘要

单线态氧（¹O₂）是光动力疗法（PDT）方案中产生的主要氧化剂，该方案涉及敏化剂，会导致II型反应。¹O₂可产生其他活性氧（ROS），如羟基自由基（·OH）。本研究旨在评估3'-对-（氨基苯基）荧光素（APF）和3'-对-（羟基苯基）荧光素（HPF）作为在与PDT相关的条件下检测¹O₂和·OH的探针。无细胞研究表明，APF和HPF在暴露于由水溶性光敏剂（TPPS）照射产生的¹O₂后均转化为荧光产物，且APF的敏感性比HPF高35倍。使用¹O₂探针单线态氧传感器绿（SOSG），我们证实1 mM叠氮化钠可淬灭¹O₂诱导的APF/HPF荧光，而1%二甲基亚砜（DMSO）则无影响。在无细胞系统中，APF和HPF与通过芬顿反应由过氧化氢产生的·OH相互作用时也会产生荧光产物。DMSO在低至0.02%的剂量下可淬灭APF/HPF与·OH之间的荧光相互作用。尽管预计叠氮化钠会淬灭·OH诱导的APF/HPF荧光，但在有·OH存在的情况下将叠氮化钠与APF或HPF共同孵育会显著增强荧光。用苯并卟啉衍生物进行光敏化处理的培养L1210细胞在照射后立即表现出APF荧光。约50%的细胞荧光可通过加入DMSO或铁螯合剂去铁胺来抑制。将后两种试剂联合使用并不会增强抑制效果。我们得出结论，如果分别在有和没有DMSO的情况下进行研究，APF可用于监测接受PDT的细胞中¹O₂和·OH的形成。被DMSO淬灭的那部分荧光将代表·OH的贡献。该程序可能是评估PDT背景下两种ROS形成的有用方法。

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