2-(谷胱甘肽-S-基)对苯二酚和2,3,5-(三谷胱甘肽-S-基)对苯二酚在原位灌注大鼠肾脏中的代谢:与肾毒性的关系
Metabolism of 2-(glutathion-S-yl)hydroquinone and 2,3,5- (triglutathion-S-yl)hydroquinone in the in situ perfused rat kidney: relationship to nephrotoxicity.
作者信息
Hill B A, Davison K L, Dulik D M, Monks T J, Lau S S
机构信息
Division of Pharmacology and Toxicology, College of Pharmacy, University of Texas at Austin 78712.
出版信息
Toxicol Appl Pharmacol. 1994 Nov;129(1):121-32. doi: 10.1006/taap.1994.1235.
2,3,5-(Triglutathion-S-yl)hydroquinone [2,3,5-(triGSyl)HQ] (20 mumol/kg) and 2-(glutathion-S-yl)hydroquinone [2-(GSyl)-HQ] (250 mumol/kg) both cause nephrotoxicity when administered to male rats, although the former is considerably more potent than the latter. To address the issue of the differential potency of these conjugates we investigated the metabolism and toxicity of 2,3,5-(triGSyl)HQ and 2-(GSyl)HQ in the in situ perfused rat kidney. Infusion of 5 and 10 mumol 2,3,5-(triGSyl)HQ into the right renal artery caused a time-dependent elevation in gamma-glutamyl transpeptidase (gamma-GT) excretion into urine produced by both the perfused and the contralateral kidneys. At the lower concentration, gamma-GT excretion was greater from the perfused kidney, whereas gamma-GT excretion from the perfused and contralateral kidneys was the same at the higher concentration. Using HPLC-EC to analyze urine and bile, metabolites of 2,3,5-(triGSyl)HQ (10 mumol) were observed only within the first 30 min of perfusion. At the lower dose (5 mumol) neither parent compound nor metabolites were found in urine or bile. Infusion of 40 mumol 2-(GSyl)HQ into the right renal artery also caused a time-dependent excretion of gamma-GT into urine: excretion being greater from the perfused kidney. HPLC-EC analysis of urine and bile from 2-(GSyl)HQ perfused kidneys demonstrated the formation of three known metabolites; 2-(N-acetyl-cystein-S-yl)HQ (9.2 +/- 0.5 mumol). 2-(cystein-S-ylglycine)HQ (0.8 +/- 0.3 mumol), and 2-(cystein-S-yl)HQ (1.3 +/- 0.3 mumol). Unchanged 2-(GSyl)HQ was detected in the urine and bile (0.8 +/- 0.1 mumol). A greater fraction of the dose (74%) was recovered in urine following infusion of 40 mumol 2-(GSyl)[14C]HQ than of 10 mumol 2,3,5-(triGSyl)[14C]HQ (29%). In contrast, a greater fraction of the dose was retained by the kidney following treatment with 10 mumol 2,3,5-(triGSyl)[14C]HQ than following treatment with 40 mumol 2-(GSyl)[14C]HQ (36 and 11%, respectively). This result suggests that metabolites derived from 2,3,5-(triGSyl)[14C]HQ are more reactive than those derived from 2-(GSyl)[14C]HQ, which is consistent with the finding that 2,3,5-(tricystein-S-yl)hydroquinone exhibits a lower oxidation potential than 2-(cystein-S-yl)hydroquinone. Differences in the reactivity of the metabolites derived from 2,3,5-(triGSyl)[14C]HQ and 2-(GSyl)[14C]HQ probably account for the more potent nephrotoxicity of 2,3,5-(triGSyl)HQ.
2,3,5-(三谷胱甘肽-S-基)对苯二酚[2,3,5-(三GSyl)HQ](20微摩尔/千克)和2-(谷胱甘肽-S-基)对苯二酚[2-(GSyl)-HQ](250微摩尔/千克)给雄性大鼠给药时均会引起肾毒性,尽管前者的毒性比后者大得多。为了解决这些共轭物效力差异的问题,我们研究了2,3,5-(三GSyl)HQ和2-(GSyl)HQ在原位灌注大鼠肾脏中的代谢和毒性。向右侧肾动脉注入5微摩尔和10微摩尔的2,3,5-(三GSyl)HQ会导致灌注肾和对侧肾产生的尿液中γ-谷氨酰转肽酶(γ-GT)排泄量随时间增加。在较低浓度下,灌注肾的γ-GT排泄量更大,而在较高浓度下,灌注肾和对侧肾的γ-GT排泄量相同。使用高效液相色谱-电化学法(HPLC-EC)分析尿液和胆汁,仅在灌注的前30分钟内观察到2,3,5-(三GSyl)HQ(10微摩尔)的代谢产物。在较低剂量(5微摩尔)下,尿液或胆汁中未发现母体化合物或代谢产物。向右侧肾动脉注入40微摩尔的2-(GSyl)HQ也会导致γ-GT随时间排泄到尿液中:灌注肾的排泄量更大。对灌注2-(GSyl)HQ的肾脏的尿液和胆汁进行HPLC-EC分析,证实形成了三种已知代谢产物;2-(N-乙酰半胱氨酸-S-基)对苯二酚(9.2±0.5微摩尔)、2-(半胱氨酸-S-基甘氨酸)对苯二酚(0.8±0.3微摩尔)和2-(半胱氨酸-S-基)对苯二酚(1.3±0.3微摩尔)。在尿液和胆汁中检测到未变化的2-(GSyl)HQ(0.8±0.1微摩尔)。注入40微摩尔的2-(GSyl)[14C]HQ后,尿液中回收的剂量比例(74%)高于注入10微摩尔的2,3,5-(三GSyl)[14C]HQ(29%)。相反,用10微摩尔的2,3,5-(三GSyl)[14C]HQ处理后,肾脏保留的剂量比例高于用40微摩尔的2-(GSyl)[14C]HQ处理后(分别为36%和11%)。该结果表明,2,3,5-(三GSyl)[14C]HQ衍生的代谢产物比2-(GSyl)[14C]HQ衍生的代谢产物更具反应性,这与2,3,5-(三半胱氨酸-S-基)对苯二酚的氧化电位低于2-(半胱氨酸-S-基)对苯二酚的发现一致。2,3,5-(三GSyl)[14C]HQ和2-(GSyl)[14C]HQ衍生的代谢产物反应性的差异可能是2,3,5-(三GSyl)HQ肾毒性更强的原因。
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