Department of Biochemistry, Biological Sciences Centre, Federal University of Santa Catarina, 88040-900 Florianópolis, SC, Brazil.
Behav Brain Res. 2013 Sep 15;253:165-72. doi: 10.1016/j.bbr.2013.07.009. Epub 2013 Jul 11.
Glutathione (GSH) displays a broad range of functions, among them a role as a neuromodulator with some neuroprotective properties. Taking into account that oxidative stress has been associated with depressive disorders, this study investigated the possibility that GSH, a major cell antioxidant, elicits an antidepressant-like effect in mice. Thus, GSH was administered by i.c.v. route to mice that were tested in the forced swimming test and in the tail suspension test, two predictive tests for antidepressant drug activity. In addition, GSH metabolism and the redox environment were modulated in order to study the possible mechanisms underlying the effects of GSH in the forced swimming test. The administration of GSH decreased the immobility time in the forced swimming test (300-3000nmol/site) and tail suspension test (100-1000nmol/site), consistent with an antidepressant-like effect. GSH depletion elicited by l-buthionine sulfoximine (3.2μmol/site, i.c.v.) did not alter the antidepressant-like effect of GSH, whereas the inhibition of extracellular GSH catabolism by acivicin (100nmol/site, i.c.v.) prevented the antidepressant-like effect of GSH. Moreover, a sub-effective dose (0.01nmol/site, i.c.v.) of the oxidizing agent DTNB (5,5'-dithiobis(2-nitrobenzoic acid)) potentiated the effect of GSH (100nmol/site, i.c.v.), while the pretreatment (25-100mg/kg, i.p.) with the reducing agent DTT (dl-dithiothreitol) prevented the antidepressant-like effect of GSH (300nmol/site, i.c.v.). DTNB (0.1nmol/site, i.c.v.), produced an antidepressant-like effect, per se, which was abolished by DTT (25mg/kg, i.p.). The results show, for the first time, that centrally administered GSH produces an antidepressant-like effect in mice, which can be modulated by the GSH metabolism and the thiol/disulfide reagents. The redox environment may constitute a new venue for future antidepressant-drug development.
谷胱甘肽(GSH)具有广泛的功能,其中包括作为神经调节剂和具有一些神经保护特性。考虑到氧化应激与抑郁症有关,本研究调查了主要细胞抗氧化剂 GSH 是否会在小鼠中产生抗抑郁样作用。因此,通过脑室内途径给予 GSH,然后在强迫游泳试验和尾部悬挂试验中对小鼠进行测试,这两种试验可预测抗抑郁药物的活性。此外,调节 GSH 代谢和氧化还原环境,以研究 GSH 在强迫游泳试验中作用的可能机制。给予 GSH 可减少强迫游泳试验(300-3000nmol/部位)和尾部悬挂试验(100-1000nmol/部位)中的不动时间,表现出抗抑郁样作用。脑室内给予 L-丁硫氨酸亚砜(3.2μmol/部位)耗竭 GSH 不会改变 GSH 的抗抑郁样作用,而通过 acivicin(100nmol/部位)抑制细胞外 GSH 分解代谢则可阻止 GSH 的抗抑郁样作用。此外,氧化应激剂 DTNB(5,5'-二硫代双(2-硝基苯甲酸))的亚有效剂量(0.01nmol/部位)可增强 GSH(100nmol/部位)的作用,而预先给予还原应激剂 DTT(dl-二硫苏糖醇)(25-100mg/kg,腹腔内注射)则可防止 GSH(300nmol/部位)的抗抑郁样作用。DTNB(0.1nmol/部位)本身产生抗抑郁样作用,而 DTT(25mg/kg,腹腔内注射)则可消除该作用。这些结果首次表明,脑室内给予 GSH 可在小鼠中产生抗抑郁样作用,其可通过 GSH 代谢和硫醇/二硫键试剂进行调节。氧化还原环境可能成为未来抗抑郁药物开发的新途径。
