无菌小鼠兴奋-抑制平衡的转录标志物表现出区域特异性失调,并在细菌定植后得到恢复。
Transcriptional markers of excitation-inhibition balance in germ-free mice show region-specific dysregulation and rescue after bacterial colonization.
机构信息
Campbell Family Mental Health Research Institute, The Centre for Addiction and Mental Health, Toronto, Canada; Farncombe Family Digestive Health Research Institute, McMaster University, Hamilton, ON, Canada.
Campbell Family Mental Health Research Institute, The Centre for Addiction and Mental Health, Toronto, Canada; Department of Pharmacology and Toxicology, University of Toronto, Toronto, ON, Canada.
出版信息
J Psychiatr Res. 2021 Mar;135:248-255. doi: 10.1016/j.jpsychires.2021.01.021. Epub 2021 Jan 19.
BACKGROUND
Studies of germ-free (GF) mice demonstrate that gut microbiota can influence behaviour by modulating neurochemical pathways in the brain, and that bacterial colonization normalizes behavioural deficits in GF-mice. Since disrupted GABAergic and glutamatergic signaling are reported in mood disorders, this study investigated the effect of gut microbiota manipulations on EIB-relevant gene expression in the brain.
METHODS
GF Swiss-Webster mice were colonized with E. coli JM83, complex microbiota (specific-pathogen-free; SPF), or no microbiota, and compared with controls (n = 6/group). 21 synaptic genes representing GABAergic, glutamatergic, BDNF, and astrocytic functions were measured in the hippocampus, amygdala, and prefrontal cortex using quantitative PCR. Gene co-expression analysis was used to identify gene modules related to colonization status, and compared by permutation analysis. Gene expression profiles were compared to existing post-mortem cohorts of depressed subjects (n = 28 cases vs 28 controls).
RESULTS
Region-specific alterations in gene expression were observed in GF-mice compared to controls. 58% of all genes (14/24) altered in GF-mice were normalized following SPF-colonization. GF-mice displayed disorganization of gene co-expression networks in all three brain regions (hippocampus, p = 0.0003; amygdala, p = 0.0012; mPFC, p = 0.0069), which was restored by SPF colonization in hippocampus (p v.s. GF = 0.0003, p v.s. control = 0.60). The hippocampal gene expression profile in GF-mice was significantly correlated with that in human depression (ρ = 0.51, p = 0.027), and this correlation was not observed after colonization.
CONCLUSION
Together, we show that the absence of gut microbiota disrupts the expression of EIB-relevant genes in mice, and colonization restores EIB-relevant expression, in ways that are relevant to human depression.
背景
无菌(GF)小鼠的研究表明,肠道微生物群可以通过调节大脑中的神经化学途径来影响行为,而细菌定植可使 GF 小鼠的行为缺陷正常化。由于在情绪障碍中报告了 GABA 能和谷氨酸能信号的中断,因此本研究调查了肠道微生物群操作对大脑中与 EIB 相关的基因表达的影响。
方法
用大肠杆菌 JM83、复杂微生物群(无特定病原体;SPF)或无微生物群定植 GF 瑞士 Webster 小鼠,并与对照(每组 n = 6)进行比较。使用定量 PCR 测量海马体、杏仁核和前额叶皮层中代表 GABA 能、谷氨酸能、BDNF 和星形胶质细胞功能的 21 个突触基因。使用基因共表达分析来识别与定植状态相关的基因模块,并通过置换分析进行比较。将基因表达谱与现有的抑郁患者死后队列进行比较(n = 28 例与 28 例对照)。
结果
与对照相比,GF 小鼠观察到基因表达的区域特异性改变。GF 小鼠中改变的所有基因的 58%(14/24)在 SPF 定植后恢复正常。GF 小鼠在所有三个脑区(海马体,p = 0.0003;杏仁核,p = 0.0012;mPFC,p = 0.0069)显示基因共表达网络的紊乱,SPF 定植可恢复海马体的紊乱(p v.s. GF = 0.0003,p v.s. 对照 = 0.60)。GF 小鼠的海马基因表达谱与人类抑郁症显著相关(ρ = 0.51,p = 0.027),定植后这种相关性不再存在。
结论
总之,我们表明,缺乏肠道微生物群会破坏小鼠中与 EIB 相关的基因表达,而定植则以与人类抑郁症相关的方式恢复与 EIB 相关的表达。
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