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星形胶质细胞的CD38在全脑缺血后损害海马突触可塑性。

Astroglial CD38 impairs hippocampal synaptic plasticity after global cerebral ischemia.

作者信息

Burch Amelia M, Haas Ami, Orfila James E, Tiemeier Erika, De Anda Gamboa Cassidy, Chalmers Nicholas, Quillinan Nidia, Herson Paco S

机构信息

Department of Anesthesiology, Neuronal Injury & Plasticity Program, University of Colorado School of Medicine, Aurora, CO, United States.

Department of Neurological Surgery, The Ohio State University College of Medicine, Columbus, OH, United States.

出版信息

Front Stroke. 2024;3. doi: 10.3389/fstro.2024.1423887. Epub 2024 Aug 14.

DOI:10.3389/fstro.2024.1423887
PMID:40822706
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12356413/
Abstract

Cardiac arrest-induced global cerebral ischemia (GCI) results in profound cognitive impairment in survivors. Our prior work demonstrated persistent disruption of long-term potentiation (LTP) in hippocampal CA1 neurons, correlating with learning and memory deficits in a rodent model of cardiac arrest/cardiopulmonary resuscitation (CA/CPR). Delayed inhibition of the Ca-permeable TRPM2 ion channel restored LTP post-CA/CPR, yet the mechanisms upstream of TRPM2 activation remain elusive. This study investigates CD38 as a potential regulator of TRPM2, highlighting a novel target to reverse hippocampal synaptic plasticity deficits after ischemia. We observe elevated levels of CD38 in activated astrocytes in the CA1 region of the hippocampus 7 days following CA/CPR in both male and female mice. Delayed inhibition of CD38 reverses hippocampal synaptic plasticity impairments at subacute timepoints after CA/CPR, phenocopying TRPM2 restoration of LTP. Our previous findings demonstrated that TRPM2 inhibition reverses the CA/CPR-induced enhancement of GABA receptor (GABAR) clustering, which contribute to ongoing LTP deficits. We, therefore, assessed the effect of CD38 on GABAergic inhibitory potentiation and find that inhibition of CD38 reverses GABAR clustering in a TRPM2-dependent manner. In this study, we identify astroglial CD38 as a potential target and upstream regulator of the TRPM2 channel, offering a promising approach to restore hippocampal synaptic plasticity impairments following GCI through modulation of GABAergic signaling.

摘要

心脏骤停引起的全脑缺血(GCI)会导致幸存者出现严重的认知障碍。我们之前的研究表明,在心脏骤停/心肺复苏(CA/CPR)啮齿动物模型中,海马CA1神经元的长期增强(LTP)持续受到破坏,这与学习和记忆缺陷相关。CA/CPR后对钙通透性TRPM2离子通道的延迟抑制可恢复LTP,但TRPM2激活的上游机制仍不清楚。本研究调查了CD38作为TRPM2的潜在调节因子,突出了一个逆转缺血后海马突触可塑性缺陷的新靶点。我们观察到,在雄性和雌性小鼠CA/CPR后7天,海马CA1区活化星形胶质细胞中CD38水平升高。在CA/CPR后的亚急性时间点,对CD38的延迟抑制可逆转海马突触可塑性损伤,模拟TRPM2对LTP的恢复。我们之前的研究结果表明,TRPM2抑制可逆转CA/CPR诱导的GABA受体(GABAR)聚集增强,这导致了持续的LTP缺陷。因此,我们评估了CD38对GABA能抑制增强的影响,发现抑制CD38以TRPM2依赖的方式逆转GABAR聚集。在本研究中,我们确定星形胶质细胞CD38是TRPM2通道的潜在靶点和上游调节因子,通过调节GABA能信号通路,为恢复GCI后海马突触可塑性损伤提供了一种有前景的方法。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2d7d/12356413/b7f7692b9ad2/nihms-2100769-f0007.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2d7d/12356413/b567d95971c6/nihms-2100769-f0003.jpg
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本文引用的文献

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TRPM2 and CaMKII Signaling Drives Excessive GABAergic Synaptic Inhibition Following Ischemia.TRPM2 和 CaMKII 信号通路驱动缺血后过度的 GABA 能突触抑制。
J Neurosci. 2024 May 8;44(19):e1762232024. doi: 10.1523/JNEUROSCI.1762-23.2024.
2
CD38/ADP-ribose/TRPM2-mediated nuclear Ca signaling is essential for hepatic gluconeogenesis in fasting and diabetes.CD38/ADP-ribose/TRPM2 介导的核 Ca 信号对于禁食和糖尿病中的肝糖异生是必需的。
Exp Mol Med. 2023 Jul;55(7):1492-1505. doi: 10.1038/s12276-023-01034-9. Epub 2023 Jul 3.
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Characterizing CD38 Expression and Enzymatic Activity in the Brain of Spontaneously Hypertensive Stroke-Prone Rats.
自发性高血压易中风大鼠大脑中CD38的表达及酶活性特征分析
Front Pharmacol. 2022 May 31;13:881708. doi: 10.3389/fphar.2022.881708. eCollection 2022.
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Stepwise disassembly of GABAergic synapses during pathogenic excitotoxicity.在致病性兴奋毒性作用下 GABA 能突触的逐步解体。
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Functional Restoration following Global Cerebral Ischemia in Juvenile Mice following Inhibition of Transient Receptor Potential M2 (TRPM2) Ion Channels.抑制瞬时受体电位 M2 (TRPM2) 离子通道后幼年小鼠全脑缺血后的功能恢复。
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CD38: An Immunomodulatory Molecule in Inflammation and Autoimmunity.CD38:炎症和自身免疫中的免疫调节分子。
Front Immunol. 2020 Nov 30;11:597959. doi: 10.3389/fimmu.2020.597959. eCollection 2020.
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