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运动改善ASMT基因敲除小鼠抑郁行为的海马蛋白质组学机制

Hippocampal Proteomic Mechanisms of Exercise Alleviating Depressive-like Behaviors in ASMT Knockout Mice

  • 摘要:
    目的  利用定量蛋白质组学技术探究N-乙酰基-5-羟色胺-甲基转移酶(N-acetyl-5-hydroxytryptamine-methyltransferase,ASMT)基因敲除及运动干预对小鼠抑郁行为及海马蛋白质组的影响。
    方法  将雄性ASMT基因敲除小鼠及野生型小鼠随机分为安静组和运动组。5周的游泳运动干预结束后全部进行抑郁行为学检测。行为学结束后进行麻醉处死取海马组织。采用TMT标记定量蛋白质组学技术检测海马组织中的蛋白表达情况,并运用生物信息学方法分析。
    结果  ASMT基因敲除后小鼠具有显著的抑郁行为表型,游泳运动干预后可以显著改善。筛选出的差异蛋白功能集中在突触信号通路、突触化学传递的调控、突触囊泡循环、神经发生、神经系统发育的调控、长时程突触增强、SNARE复合体聚集等。
    结论  ASMT基因敲除可能会通过海马突触前膜的SNARE家族蛋白过度表达诱导谷氨酸的过度释放并产生神经毒性,进而产生抑郁行为;游泳运动可能通过调节突触转运相关蛋白SNAP25维持神经递质稳态,促进神经发生水平和突触可塑性,进而使ASMT基因敲除小鼠抑郁行为得到改善。

     

    Abstract:
    Objective  N-acetyl-5-hydroxytryptamine-methyltransferase (ASMT) is the rate-limiting enzyme for melatonin synthesis and has physiological significance in the regulation of circadian rhythms and mental health.
    Methods  Male ASMT knockout mice and wild-type mice were randomly divided into sedentary and exercise groups. All were tested for depression behaviorally at the end of the five-week swimming exercise intervention. Anesthetic execution was performed to remove the hippocampal tissue at the end of the behavioral study. Quantitative proteomics techniques were used to detect protein expression in hippocampal tissues and bioinformatics methods were applied for differential protein screening and enrichment pathway analysis.
    Results  It was found that ASMT knockout mice had a significant depressive-like behavioral phenotype that was significantly improved by swimming exercise intervention. TMT-based quantitative proteomics screened for differential protein functions focused on synaptic signaling pathways, regulation of synaptic chemotransmission, vesicle localization, vesicle-regulated transport at synapses, synaptic vesicle recycling, neurogenesis, regulation of nervous system development, long-term potentiation, and SNARE complex aggregation, etc.
    Conclusions  The depressive behavior of ASMT knockout mice was associated with abnormal hippocampal synaptic protein expression, which in turn affected the neurotransmitter transmission, synaptic membrane fusion and other functions of hippocampal neurons, and affected synaptic plasticity of hippocampal neurons through signaling pathways such as synaptic vesicle recycling pathway, glutamatergic synaptic pathway, and long-term potentiation. The improvement of depressive-like behaviors in ASMT knockout mice by swimming exercise affects hippocampal neuronal neurogenesis and neuronal differentiation through synaptic vesicle recycling pathway.

     

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