微囊藻毒素在斯普拉格-道利大鼠体内的排泄模式及谷胱甘肽解毒动力学

Excretion pattern and dynamics of glutathione detoxification of microcystins in Sprague Dawley rat.

作者信息

Li Wei, He Jun, Chen Jun, Xie Ping

机构信息

Donghu Experimental Station of Lake Ecosystems, State Key Laboratory of Freshwater Ecology and Biotechnology of China, Institute of Hydrobiology, University of Chinese Academy of Sciences, Donghu South Road 7, Wuhan 430072, China; Changchun University of Science and Technology, School of Life Science and Technology, Changchun 130022, China.

出版信息

Chemosphere. 2018 Jan;191:357-364. doi: 10.1016/j.chemosphere.2017.09.083. Epub 2017 Sep 18.

DOI:10.1016/j.chemosphere.2017.09.083

PMID:29049959

Abstract

The excretion route and dynamics of the glutathione (GSH) conjugate of microcystin-RR (MCRR), MCRR-GSH, were quantitatively studied in Sprague Dawley rat exposed with MCRR-GSH via liquid chromatography electrospray ionization mass spectrometry (LC-ESI-MS). In the MCRR-GSH-treated rat, the average MCRR-Cysteine (MCRR-Cys)/MCRR-GSH ratio reached as high as 105.3, which indicated that the intermediate conjugate MCRR-GSH was rapidly converted to the product compound MCRR-Cys. Besides, MCRR was consistently detected in MCRR-GSH-treated rat, which suggested that MCRR can be dissociated from the MCRR-GSH conjugate and the reversibility of the MC-GSH conjugate. Results of total MC contents analysis in excrement showed that the total MC contents in urine were significantly higher than those in feces. The ratio of the total MC content in urine to feces was as high as 129.3, which demonstrates that the urine is the main route of excretion after MCRR-GSH-treatment. In urine, the MCRR-Cys concentration was 27.8-fold, 19.4-fold higher than MCRR-GSH and MCRR, respectively. Our results, for the first time, quantitatively found that MCRR-GSH was rapidly converted to MCRR-Cys after exposed to rat, and was excreted mainly through urine in the form of the MCRR-Cys conjugate. This study suggests that the GSH detoxification pathway of MCs could help to explain the greater sensitivity of mammals to MCs.

摘要

通过液相色谱电喷雾电离质谱法（LC-ESI-MS），对经微囊藻毒素-RR（MCRR）-谷胱甘肽（GSH）处理的Sprague Dawley大鼠体内MCRR的谷胱甘肽（GSH）共轭物MCRR-GSH的排泄途径和动力学进行了定量研究。在经MCRR-GSH处理的大鼠中，MCRR-半胱氨酸（MCRR-Cys）/MCRR-GSH的平均比值高达105.3，这表明中间共轭物MCRR-GSH迅速转化为产物化合物MCRR-Cys。此外，在经MCRR-GSH处理的大鼠中持续检测到MCRR，这表明MCRR可以从MCRR-GSH共轭物中解离出来，并且MC-GSH共轭物具有可逆性。排泄物中总微囊藻毒素（MC）含量分析结果表明，尿液中的总MC含量显著高于粪便中的总MC含量。尿液与粪便中总MC含量的比值高达129.3，这表明尿液是MCRR-GSH处理后主要的排泄途径。在尿液中，MCRR-Cys的浓度分别比MCRR-GSH和MCRR高27.8倍和19.4倍。我们的研究结果首次定量发现，MCRR-GSH在暴露于大鼠后迅速转化为MCRR-Cys，并主要以MCRR-Cys共轭物的形式通过尿液排出。这项研究表明，微囊藻毒素的谷胱甘肽解毒途径有助于解释哺乳动物对微囊藻毒素更高的敏感性。

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微囊藻毒素在斯普拉格-道利大鼠体内的排泄模式及谷胱甘肽解毒动力学

Excretion pattern and dynamics of glutathione detoxification of microcystins in Sprague Dawley rat.

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