Nakamura Yoshimasa, Kumagai Takeshi, Yoshida Chiho, Naito Yuko, Miyamoto Masaaki, Ohigashi Hajime, Osawa Toshihiko, Uchida Koji
Laboratory of Food and Biodynamics, Nagoya University Graduate School of Bioagricultural Sciences, Nagoya 464-8601, Japan.
Biochemistry. 2003 Apr 15;42(14):4300-9. doi: 10.1021/bi0340090.
Although the induction of glutathione S-transferase (GST) activity by tert-butylhydroquinone (tBHQ) has been well-documented in several cell culture systems and rodent experiments, the exact mechanism responsible for its inducibility is still not thoroughly understood. To more precisely define the molecular mechanism of GST induction by tBHQ, we examined the one-electron oxidation and glutathione (GSH) reaction potentials of tBHQ as compared to its analogue, 2,5-di-tert-butylhydroquinone (DtBHQ). tBHQ and DtBHQ showed similar one-electron oxidation potentials, including free radical quenching (antioxidant), oxidative conversion of both compounds to a benzoquinone form, and Cu(2+)-dependent superoxide generation. On the other hand, the reduced GSH level was observed by the addition of tBHQ, but not DtBHQ, suggesting that tBHQ acts as an electrophile while DtBHQ does not. The data were consistent with the observation that tBHQ more potently induced the GSTP1 gene expression in RL34 cells than DtBHQ did. Moreover, we indeed detected the GSH-tBHQ conjugates in the cells exposed to tBHQ using an electrochemical detector-high-performance liquid chromatography technique. Thus, we conclude that an electrophilic quinone oxidation product that reacts with intracellular nucleophiles including protein thiol or GSH plays a major role in the GSTP1 gene expression.
尽管叔丁基对苯二酚(tBHQ)诱导谷胱甘肽S-转移酶(GST)活性在多个细胞培养系统和啮齿动物实验中已有充分记录,但其诱导的确切机制仍未完全了解。为了更精确地定义tBHQ诱导GST的分子机制,我们将tBHQ与其类似物2,5-二叔丁基对苯二酚(DtBHQ)相比较,检测了tBHQ的单电子氧化和谷胱甘肽(GSH)反应电位。tBHQ和DtBHQ显示出相似的单电子氧化电位,包括自由基猝灭(抗氧化剂)、两种化合物氧化转化为苯醌形式以及铜(2+)依赖性超氧阴离子生成。另一方面,添加tBHQ可观察到GSH水平降低,而DtBHQ则不会,这表明tBHQ作为亲电试剂而DtBHQ不是。这些数据与tBHQ比DtBHQ更有效地诱导RL34细胞中GSTP1基因表达的观察结果一致。此外,我们确实使用电化学检测器-高效液相色谱技术在暴露于tBHQ的细胞中检测到了GSH-tBHQ缀合物。因此,我们得出结论,与包括蛋白质硫醇或GSH在内的细胞内核亲试剂反应的亲电醌氧化产物在GSTP1基因表达中起主要作用。
