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Effects of short term low dose melatonin and ketamine on depressive behavior and BDNF expression in rats with chronic stress depression

Haonan Li, Hongwei Sun, Yanyu Wang, Nengzhi Jiang, Lin Sun

Zhonghua xingwei yixue yu naokexue zazhi December 20, 2017 Peer reviewed DOI: 10.3760/cma.j.issn.1674-6554.2017.12.003 via OpenAlex

Summary

Melatonin demonstrated antidepressant-like effects in a chronic stress model of depression in male Wistar rats. After 14 days of melatonin treatment, the cumulative immobility time decreased significantly to 60.70 seconds in the melatonin group compared to 146.34 seconds in the control stress group. Additionally, melatonin increased BDNF cell levels more than ketamine did, indicating a potential mechanism for its antidepressant action.

Study at a glance

Design randomized controlled trial
Sample size 40
Population male Wistar rats
Key finding Melatonin induced an antidepressant-like action comparable to ketamine, potentially linked to increased BDNF levels.

Abstract

Objective To evaluate the antidepressant action of melatonin in stress model of depression and the effects of the melatonin on depressive-like behavior. Methods Forty male Wistar rats were randomly divided into four groups(n=10): controls group (CON), chronic unpredictable mild stress group(CUS), chronic unpredictable mild stress group + melatonin group(CUS+ MT) and chronic unpredictable mild stress group + ketamine group(CUS+ KET). The rats in CUS group, CUS+ MT group and CUS+ KET group were given different stress stimulation for 42 days to establish the chronic mild unpredictable stress animal model.Sucrose preference experiments was used to detect the depression model and the level of depression was tested by forced swim test.The influence of Short-term low doses of melatonin on the level of BDNF and GluR1 in the prefrontal cortex, was detected by immunohistochemistry(IHC) on 58 day after the start of the experiment. Results (1) The CUS showed depressant-like behavior, and the percent sucrose uptake scores and the cumulative immobility time of the CUS group were decreased significantly(P<0.05). (2) After injection melatonin 14 d, the cumulative immobility time of CUS+ MT group((60.70±18.56)s) and CUS+ KET group((56.43±20.46)s) were decreased significantly in comparison to the CUS group(146.34±34.10)s). It was observed a highly significant (P<0.05) decrease of and up-regulation of the BDNF cells in CUS+ MT group((1 328.99±282.46)/mm2) and CUS+ KET group((1 224.76±116.53)/mm2) in comparison to the CUS group, the number of BDNF cells in CUS+ MT group was increased significantly in comparison to the CUS+ KET group; (3) After administration drug 14 days, the number of GluR1 cells of CUS+ KET((807.82±153.25)/mm2) but not CUS+ MT((632±156.34)mm2) significantly increased compared with CUS((807.82±193.25)/mm2). Conclusion The results indicate that the melatonin induce an antidepressant-like action like ketamine.The antidepressant effects of melatonin may be related with the level of BNDF. Key words: Melatonin; Ketamine; Depression; Chronic unpredictable mild stress; Rat

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