热作用下血卟啉衍生物在肿瘤细胞中产生活性氧的机制14-37

L. Chekulayeva, I. Shevchuk, V. Chekulayev, E. Oginskaya
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引用次数: 0

摘要

该研究的主要目的是:(1)丰富现有的关于H2O2、超氧化物(O2 -)和蛋白过氧化物(PPO)形成机制的知识,这些机制在接受光动力治疗(PDT)的肿瘤细胞中使用血红卟啉衍生物(HPD);(2)解释热应激对HPD-PDT处理的细胞中O2 - - (H2O2的前体和非常活跃的羟基自由基)生成的刺激作用。实验以埃利希腹水癌(EAC)细胞为实验对象,在磷酸盐缓冲盐水中负载HPD,然后在相同的缓冲液中以630 nm红光照射。研究表明,光激发HPD本身,即在没有光氧化生物分子的情况下,是h2o2和氧自由基的不良来源,并且在HPD的PDT肿瘤细胞中,h2o2和O2 -的产生可以主要解释为(i)某些细胞成分(NAD(P)H)的光氧化,(ii)黄嘌呤氧化酶(XOD)活性的增加,以及(iii)对线粒体的光损伤。此外,在细胞蛋白中发现,hpd光敏氧化芳香族氨基酸是H2O2和PPO生成的主要原因。我们的数据表明,在HPD-PDT中,光照射产生的轻度高温(约44°C)可能通过刺激o2 - α的形成而增强其杀瘤作用;结果发现,温度从30°C升高到44°C(约2.5倍),EAC细胞中O2 - -的产生显著增加,这与hpd光敏杀伤率的增加密切相关。研究表明,o2 - -形成的增强是由加热对XOD活性的刺激作用以及线粒体呼吸链产生这种自由基介导的。然而,所获得的结果表明,与轻度热疗相反,重度热疗(温度为bb0 - 45℃)可能导致HPD-PDT效率的降低,这是由于抑制了肿瘤细胞中XOD的活性。
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On the mechanism of reactive oxygen species generation in tumour cells subjected to the phototoxic action of haematoporphyrin derivative: effect of heating; 14–37
The main aims of the study were: (1) to enrich the existing knowledge on the mechanism of H2O2, superoxide (O2 - ), and protein peroxides (PPO) formation in tumour cells subjected to photodynamic therapy (PDT) with haematoporphyrin derivative (HPD) and (2) to explain the stimulatory effect of heat stress on the generation of O 2 - (a precursor of H2O2 and a very reactive hydroxyl radical) in HPD-PDT-treated cells. Experiments were performed on Ehrlich ascites carcinoma (EAC) cells, which were loaded with HPD in phosphate-buffered saline and then irradiated with red light at 630 nm in the same buffer. Studies showed that photoexcited HPD itself, i.e. in the absence of photooxidizable biomolecules, is a poor source of H 2O2 and oxygen radicals, and that in tumour cells subjected to PDT with HPD the generation of H 2O2 and O2 - could be largely explained by (i) photooxidation of certain cellular constituents (NAD(P)H), (ii) an increase in the activity of xanthine oxidase (XOD), and (iii) a photodamage to mitochondria. Besides, it was found that in cellular proteins the HPD-photosensitized oxidation of aromatic amino acids is responsible for the generation of H2O2 and PPO. Our data suggest that upon HPD-PDT the mild hyperthermia (ca 44 °C) produced by photoirradiation may enhance its tumouricidal effect via the stimulation of O 2 - formation; it was found that a rise in the temperature from 30 to 44 °C strongly (by ca 2.5-fold) enhanced the generation of O2 - in EAC cells, which correlated well with an increase in the rate of their HPD-photosensitized killing. Studies showed that the intensification of O 2 - formation is mediated by the stimulatory effects of heating on the activity of XOD as well as the production of this radical by the respiratory chain of mitochondria. Nevertheless, the obtained results indicate that severe hyperthermia (at temperatures > 45 °C) could induce, contrary to mild hyperthermia, a reduction in the efficiency of HPD-PDT due to suppression of the activity of XOD in tumour cells.
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