氧化还原敏感的 RyR2 通道介导的钙释放在海马体结构可塑性和空间记忆中起核心作用。

Calcium Release Mediated by Redox-Sensitive RyR2 Channels Has a Central Role in Hippocampal Structural Plasticity and Spatial Memory.

机构信息

1 Biomedical Neuroscience Institute , Faculty of Medicine, Universidad de Chile, Santiago, Chile .

2 Institute of Biomedical Sciences, Faculty of Medicine, Universidad de Chile, Santiago, Chile .

出版信息

Antioxid Redox Signal. 2018 Oct 20;29(12):1125-1146. doi: 10.1089/ars.2017.7277. Epub 2018 Mar 1.

DOI:10.1089/ars.2017.7277

PMID:29357673

Abstract

AIMS

Previous studies indicate that hippocampal synaptic plasticity and spatial memory processes entail calcium release from intracellular stores mediated by ryanodine receptor (RyR) channels. In particular, RyR-mediated Ca release is central for the dendritic spine remodeling induced by brain-derived neurotrophic factor (BDNF), a neurotrophin that stimulates complex signaling pathways leading to memory-associated protein synthesis and structural plasticity. To examine if upregulation of ryanodine receptor type-2 (RyR2) channels and the spine remodeling induced by BDNF entail reactive oxygen species (ROS) generation, and to test if RyR2 downregulation affects BDNF-induced spine remodeling and spatial memory.

RESULTS

Downregulation of RyR2 expression (short hairpin RNA [shRNA]) in primary hippocampal neurons, or inhibition of nitric oxide synthase (NOS) or NADPH oxidase, prevented agonist-mediated RyR-mediated Ca release, whereas BDNF promoted cytoplasmic ROS generation. RyR2 downregulation or inhibitors of N-methyl-d-aspartate (NMDA) receptors, or NOS or of NADPH oxidase type-2 (NOX2) prevented RyR2 upregulation and the spine remodeling induced by BDNF, as did incubation with the antioxidant agent N-acetyl l-cysteine. In addition, intrahippocampal injection of RyR2-directed antisense oligodeoxynucleotides, which caused significant RyR2 downregulation, caused conspicuous defects in a memorized spatial memory task.

INNOVATION

The present novel results emphasize the key role of redox-sensitive Ca release mediated by RyR2 channels for hippocampal structural plasticity and spatial memory.

CONCLUSION

Based on these combined results, we propose (i) that BDNF-induced RyR2-mediated Ca release and ROS generation via NOS/NOX2 are strictly required for the dendritic spine remodeling and the RyR2 upregulation induced by BDNF, and (ii) that RyR2 channel expression is crucial for spatial memory processes. Antioxid. Redox Signal. 29, 1125-1146.

摘要

目的

先前的研究表明，海马突触可塑性和空间记忆过程需要钙从细胞内储存库通过兰尼碱受体（RyR）通道释放。特别是，RyR 介导的 Ca 释放对于脑源性神经营养因子（BDNF）诱导的树突棘重塑至关重要，BDNF 是一种神经营养因子，它刺激导致记忆相关蛋白合成和结构可塑性的复杂信号通路。为了研究 RyR2 通道的上调和 BDNF 诱导的树突棘重塑是否需要活性氧（ROS）的产生，并检验 RyR2 下调是否会影响 BDNF 诱导的树突棘重塑和空间记忆，我们进行了此项研究。

结果

在原代海马神经元中下调 RyR2 表达（短发夹 RNA [shRNA]），或抑制一氧化氮合酶（NOS）或 NADPH 氧化酶，可阻止激动剂介导的 RyR 介导的 Ca 释放，而 BDNF 则促进细胞质 ROS 的产生。RyR2 下调或 N-甲基-D-天冬氨酸（NMDA）受体、NOS 或 NADPH 氧化酶 2（NOX2）抑制剂，以及抗氧化剂 N-乙酰-L-半胱氨酸孵育，均阻止了 BDNF 引起的 RyR2 上调和树突棘重塑。此外，海马内注射 RyR2 导向的反义寡核苷酸，导致 RyR2 显著下调，会明显影响记忆空间记忆任务。

创新点

本研究的新结果强调了 RyR2 通道介导的氧化还原敏感 Ca 释放对于海马结构可塑性和空间记忆的关键作用。

结论

基于这些综合结果，我们提出（i）BDNF 诱导的 RyR2 介导的 Ca 释放和通过 NOS/NOX2 产生的 ROS 对于 BDNF 诱导的树突棘重塑和 RyR2 上调是严格必需的，（ii）RyR2 通道表达对于空间记忆过程至关重要。抗氧化还原信号 29，1125-1146。

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氧化还原敏感的 RyR2 通道介导的钙释放在海马体结构可塑性和空间记忆中起核心作用。

Calcium Release Mediated by Redox-Sensitive RyR2 Channels Has a Central Role in Hippocampal Structural Plasticity and Spatial Memory.

机构信息

出版信息

AIMS

RESULTS

INNOVATION

CONCLUSION

目的

结果

创新点

结论

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