Bystander effects of nitric oxide in anti-tumor photodynamic therapy.

Cancer cell & microenvironment Pub Date : 2017-01-01 Epub Date: 2017-02-27 DOI:10.14800/ccm.1511

Jerzy Bazak, Jonathan M Fahey, Katarzyna Wawak, Witold Korytowski, Albert W Girotti

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引用次数: 10

Abstract

Ionizing radiation of specifically targeted cells in a given population is known to elicit pro-death or pro-survival responses in non-targeted bystander cells, which often make no physical contact with the targeted ones. We have recently demonstrated a similar phenomenon for non-ionizing photodynamic therapy (PDT), showing that prostate cancer cells subjected to targeted photodynamic stress stimulated growth and migration of non-stressed, non-contacting bystander cells. Diffusible nitric oxide (NO) generated by stress-upregulated inducible nitric oxide synthase (iNOS) was shown to play a dominant role in these responses. Moreover, target-derived NO stimulated iNOS/NO induction in bystanders, suggesting a NO-mediated feed-forward field effect driven by targeted cells surviving the photodynamic challenge. In this research highlight, we will review these findings and discuss their potential negative implications on clinical PDT outcomes and how these might be mitigated through pharmacologic use of select iNOS inhibitors.

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一氧化氮在抗肿瘤光动力治疗中的旁观者效应。

已知特定人群中特定目标细胞的电离辐射可引起非目标旁观者细胞的促死亡或促生存反应，这些细胞通常与目标细胞没有物理接触。我们最近证明了非电离光动力治疗(PDT)的类似现象，表明前列腺癌细胞受到靶向光动力应激刺激了非应激、非接触的旁观者细胞的生长和迁移。胁迫上调诱导型一氧化氮合酶(iNOS)产生的扩散性一氧化氮(NO)在这些反应中起主导作用。此外，靶源性NO刺激了旁观者的iNOS/NO诱导，表明NO介导的前馈场效应是由在光动力挑战中存活的靶细胞驱动的。在本研究重点中，我们将回顾这些发现，并讨论它们对临床PDT结果的潜在负面影响，以及如何通过选择iNOS抑制剂的药理学使用来减轻这些负面影响。

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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Cancer cell & microenvironment

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