Effect of chronic restraint stress on the phenotypic transition of hippocampal astrocytes and depression-like behavior in mice

doi:10.16098/j.issn.0529-1356.2023.01.006

Abstract

Abstract:

Objective To explore the effect of chronic restraint stress(CRS) on the phenotypic transition of hippocampal astrocytes and depression-like behavior in mice. Methods Forty eight male C57BL/6 mice were randomly divided into control groups (control), model groups (CRS) and fluoxetine(FLX) drug intervention groups (CRS+FLX), 16 for each group. The mice of the CRS group were subjected to 3 weeks chronic restraint stress. The mice of CRS+FLX group were treated with fluoxetine by intraperitoneal injection 30 minutes before restraint stress from the day 8 to day 21. The mice in the control group and CRS group were treated with the same amount of normal saline (NS). Depression-like behavior was determined by sucrose preference test and open filed test. The expression of astrocytes marker glial fibrillary acidic protein(GFAP) was detected by immunohistochemistry and Western blotting. The expression of A1 and A2 astrocytes markers were detected by Real-time PCR. Results Compared with the control group, mice in the CRS group showed obvious depression-like behavior, including a significantly decrease in the percent of sucrose preference (P＜0.0001), a redcued significantly body weight (P＜0.05), and reduced significantly distance travelling in the central area (P＜0.005) in the open field test, which could be reversed by the FLX intervention (P＜0.05). Compared with the control group, the expression of hippocampal astrocytes marker GFAP in the CRS group increased significantly (P＜0.05), which could be reversed by the FLX intervention (P＜0.05). Compared with the control group, the mRNA expression level of the A1 astrocytes markers ［(H2D1, guanylate binding protein 2(GBP2), Fkbp5, Amigo2)］ in the hippocampus of the CRS group were significanlty up-regulated (P＜0.05), which could be reversed by the FLX intervention (P＜0.05). No difference was found in the A2 astrocytes markers mRNA level among the three groups (P＞0.05), except Sphk1 and PTX3. Compared with the control group , the protein level of hippocampal A1 markers (C3, Fkbp5, GBP2) in CRS group was significanlty up-regulated (P＜0.05), while no difference in the protein level of hippocampal A2 marker CD14 between the two groups (P=0.8361), FLX intervention could significantly reduce the protein level of A1 markers (P＜0.05), but had no obvious effect on the protein expression of CD14 (P=0.5881). Conclusion The depression-like behavior of mice in the chronic restraint stress model may be related to the phenotypic changes of astrocytes, and it is mainly due to the high expression of type A1 markers in astrocytes.

Key words: Chronic restraint stress, Depression, Astrocyte, Hippocampus, Fluoxetine, Real-time PCR, Mouse

CLC Number:

R322.81

SHI Meng-meng ZHANG Yuan LI Jing LUO Xiang-lin ZHANG Yuan XU Yang ZHONG Xiao-lin CAO Wen-yu. Effect of chronic restraint stress on the phenotypic transition of hippocampal astrocytes and depression-like behavior in mice[J]. Acta Anatomica Sinica, 2023, 54(1): 42-49.

References

［1］Liu SM, Hong H. Research advances of astrocyte-neuron interaction in depression［J］. Journal of Pharmaceutical Ｒesearch, 2020,39(3):156-159. (in Chinese)

刘思敏, 洪浩. 星形胶质细胞-神经元相互作用与抑郁症［J］. 药学研究, 2020,39(3):156-159.

［2］Walker ER, McGee RE, Druss BG. Mortality in mental disorders and global disease burden implications: a systematic review and meta-analysis［J］. JAMA Psychiatry, 2015,72(4):334-341.

［3］Wang CX, Shuaib A. Critical role of microvasculature basal lamina in ischemic brain injury［J］. Prog Neurobiol, 2007,83(3):140-148.

［4］Li YJ, Mo YP, Deng XF, et al. Effect on the expression of 5-HT,5-HTT in hippocampus of chronic unpredictable mild stress-induced depressive rats by electro-acupuncture pretreatment［J］. Iournal of Clinical Acupuncture and Moxibustion, 2014,30(7):57-60. (in Chinese)

李昱颉, 莫雨平, 邓晓丰, 等. 电针预处理对慢性应激抑郁模型大鼠海马内5-HT及5-HT转运体表达的影响［J］. 针灸临床杂志, 2014,30(7):57-60.

［5］Chen YQ, Zhen R, Yang X, et al. Research progress on the function of astrocytes［J］. Journal of Brain and Nervous Diseases, 2020,28(5):327-330. (in Chinese)

陈艳清, 甄然, 杨璇, 等. 星形胶质细胞的功能作用研究进展［J］. 脑与神经疾病杂志, 2020,28(5):327-330.

［6］Sofroniew MV, Vinters HV. Astrocytes: biology and pathology［J］. Acta Neuropathol, 2010,119(1):7-35.

［7］Dossi E, Vasile F, Rouach N. Human astrocytes in the diseased brain［J］. Brain Res Bull, 2018,136:139-156.

［8］TorresPlatas SG, Hercher C, Davoli MA, et al. Astrocytic hypertrophy in anterior cingulate white matter of depressed suicides［J］. Neuropsychopharmacology, 2011,36(13):2650-2658.

［9］Liddelow SA, Barres BA. Reactive astrocytes: production, function, and therapeutic potential［J］.Immunity, 2017,46(6):957-967.

［10］Wang Zh, Huang YJ, Nai AT, et al. Fluoxetine improving the depression-like behavior induced by chronic restraint stress by up-regulation the expression of bromodomaincontaining protein 4 in hippocampus of mouse［J］. Acta Anatomica Sinica, 2019,50(1):18-23. (in Chinese)

王贞, 黄怡佳, 乃爱桃, 等. 氟西汀通过上调海马内溴结构域蛋白4的表达改善慢性束缚应激所致小鼠的抑郁样行为［J］. 解剖学报, 2019,50(1):18-23.

［11］Wu H, Wang R, Qin X, et al. Effects of chronic stress on depressive-like behaviors and JMJD3 expression in the prefrontal cortex and hippocampus of C57BL/6 and ob/ob mice［J］. J Psychiatr Res, 2021,133:142-155.

［12］Niu L, Luo ShSh, Zeng JY, et al. Effect and mechanism of caloric restriction on early social isolation-induced cognitive impairment in mice［J］. Acta Anatomica Sinica, 2019,50(4):418-422. (in Chinese)

牛磊, 罗诗诗, 曾佳玉, 等. 热量限制改善早期社会隔离诱导的小鼠认知功能障碍［J］. 解剖学报, 2019,50(4):418-422.

［13］Cao WY, Xu Y, Luo YW, et al. Activation of ERK1/2 is required for normal response of isosexual social interactions in male rats［J］. Brain Res, 2013,1538:51-60.

［14］Anacker C, Cattaneo A, Musaelyan K, et al. Role for the kinase SGK1 in stress, depression, and glucocorticoid effects on hippocampal neurogenesis［J］. Proc Natl Acad Sci USA, 2013,110(21):8708-8713.

［15］Monteggia LM, Luikart B, Barrot M, et al. Brain-derived neurotrophic factor conditional knockouts show gender differences in depression-related behaviors［J］. Biol Psychiatry, 2007,61(2):187-197.

［16］Chiba S, Numakawa T, Ninomiya M, et al. Chronic restraint stress causes anxiety- and depression-like behaviors, downregulates glucocorticoid receptor expression, and attenuates glutamate release induced by brain-derived neurotrophic factor in the prefrontal cortex［J］. Prog Neuropsychopharmacol Biol Psychiatry, 2012,39(1):112-119.

［17］Arauchi R, Hashioka S, Tsuchie K, et al. Gunn rats with glial activation in the hippocampus show prolonged immobility time in the forced swimming test and tail suspension test［J］. Brain Behav, 2018,8(8):e1028.

［18］Zhang HY. Mechanism study on benefical effects of ginseng total saponin on stress-induced hippocampal astrocyte structure plasticity impairment in mice［D］. Nanjing: Nanjing University of Chinese Medicine, 2014. (in Chinese)

张绘宇. 人参总皂苷抗应激小鼠海马星形胶质细胞结构可塑性损伤的机制研究［D］. 南京: 南京中医药大学, 2014.

［19］Yao ESh, Tang Y, Wang W. Laser speckle imaging technique monitoring the hemodynamic changes in depression mice［J］. Journal of Shihezi University, 2020,38(6):761-766. (in Chinese)

姚恩生, 唐燕, 王伟. 激光散斑成像技术监测抑郁症样小鼠脑血流动力学改变的初步研究［J］. 石河子大学学报(自然科学版), 2020,38(6):761-766.

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