缺氧诱导的海马长时程增强是由神经-胶质-内皮轴产生的谷氨酸和一氧化氮再生性产生的。

Anoxia-induced hippocampal LTP is regeneratively produced by glutamate and nitric oxide from the neuro-glial-endothelial axis.

作者信息

Wang Han-Ying, Takagi Hiroshi, Stoney Patrick N, Echeverria Anai, Kuhn Bernd, Hsu Kuei-Sen, Takahashi Tomoyuki

机构信息

Cellular and Molecular Synaptic Function Unit, Okinawa Institute of Science and Technology Graduate University, Okinawa 904-0495, Japan.

Academia Sinica, Institute of Biomedical Sciences, Taipei 115, Taiwan.

出版信息

iScience. 2024 Mar 16;27(4):109515. doi: 10.1016/j.isci.2024.109515. eCollection 2024 Apr 19.

DOI:10.1016/j.isci.2024.109515

PMID:38591010

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11000013/

Abstract

Transient anoxia causes amnesia and neuronal death. This is attributed to enhanced glutamate release and modeled as anoxia-induced long-term potentiation (aLTP). aLTP is mediated by glutamate receptors and nitric oxide (·NO) and occludes stimulation-induced LTP. We identified a signaling cascade downstream of ·NO leading to glutamate release and a glutamate-·NO loop regeneratively boosting aLTP. aLTP in entothelial ·NO synthase (eNOS)-knockout mice and blocking neuronal NOS (nNOS) activity suggested that both nNOS and eNOS contribute to aLTP. Immunostaining result showed that eNOS is predominantly expressed in vascular endothelia. Transient anoxia induced a long-lasting Ca elevation in astrocytes that mirrored aLTP. Blocking astrocyte metabolism or depletion of the NMDA receptor ligand D-serine abolished eNOS-dependent aLTP, suggesting that astrocytic Ca elevation stimulates D-serine release from endfeet to endothelia, thereby releasing ·NO synthesized by eNOS. Thus, the neuro-glial-endothelial axis is involved in long-term enhancement of glutamate release after transient anoxia.

摘要

短暂性缺氧会导致失忆和神经元死亡。这归因于谷氨酸释放增强，并被模拟为缺氧诱导的长期增强作用（aLTP）。aLTP由谷氨酸受体和一氧化氮（·NO）介导，并阻断刺激诱导的LTP。我们确定了·NO下游的一个信号级联反应，该反应导致谷氨酸释放，并形成一个谷氨酸-·NO环路，可再生地增强aLTP。内皮型一氧化氮合酶（eNOS）基因敲除小鼠中的aLTP以及阻断神经元型一氧化氮合酶（nNOS）活性表明，nNOS和eNOS都对aLTP有贡献。免疫染色结果显示，eNOS主要在内皮细胞中表达。短暂性缺氧在星形胶质细胞中诱导了持久的钙升高，这与aLTP相似。阻断星形胶质细胞代谢或耗尽NMDA受体配体D-丝氨酸可消除eNOS依赖性aLTP，这表明星形胶质细胞的钙升高刺激D-丝氨酸从终足释放到内皮细胞，从而释放由eNOS合成的·NO。因此，神经-胶质-内皮轴参与了短暂性缺氧后谷氨酸释放的长期增强。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c98a/11000013/65614f3b9618/fx1.jpg

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缺氧诱导的海马长时程增强是由神经-胶质-内皮轴产生的谷氨酸和一氧化氮再生性产生的。

Anoxia-induced hippocampal LTP is regeneratively produced by glutamate and nitric oxide from the neuro-glial-endothelial axis.

作者信息

Wang Han-Ying, Takagi Hiroshi, Stoney Patrick N, Echeverria Anai, Kuhn Bernd, Hsu Kuei-Sen, Takahashi Tomoyuki

机构信息

Cellular and Molecular Synaptic Function Unit, Okinawa Institute of Science and Technology Graduate University, Okinawa 904-0495, Japan.

Academia Sinica, Institute of Biomedical Sciences, Taipei 115, Taiwan.

出版信息

iScience. 2024 Mar 16;27(4):109515. doi: 10.1016/j.isci.2024.109515. eCollection 2024 Apr 19.

DOI:10.1016/j.isci.2024.109515

PMID:38591010

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11000013/

Abstract

摘要

缺氧诱导的海马长时程增强是由神经-胶质-内皮轴产生的谷氨酸和一氧化氮再生性产生的。

Anoxia-induced hippocampal LTP is regeneratively produced by glutamate and nitric oxide from the neuro-glial-endothelial axis.

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缺氧诱导的海马长时程增强是由神经-胶质-内皮轴产生的谷氨酸和一氧化氮再生性产生的。

Anoxia-induced hippocampal LTP is regeneratively produced by glutamate and nitric oxide from the neuro-glial-endothelial axis.

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