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海马体中通过钙离子通透型AMPA受体对环磷酸鸟苷依赖性蛋白激酶II基因敲除进行网络补偿

Network compensation of cyclic GMP-dependent protein kinase II knockout in the hippocampus by Ca2+-permeable AMPA receptors.

作者信息

Kim Seonil, Titcombe Roseann F, Zhang Hong, Khatri Latika, Girma Hiwot K, Hofmann Franz, Arancio Ottavio, Ziff Edward B

机构信息

Department of Biochemistry and Molecular Pharmacology, New York University School of Medicine, New York, NY 10016;

Taub Institute for Research on Alzheimer's Disease and the Aging Brain, Columbia University, New York, NY 10032; and.

出版信息

Proc Natl Acad Sci U S A. 2015 Mar 10;112(10):3122-7. doi: 10.1073/pnas.1417498112. Epub 2015 Feb 23.

DOI:10.1073/pnas.1417498112
PMID:25713349
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4364185/
Abstract

Gene knockout (KO) does not always result in phenotypic changes, possibly due to mechanisms of functional compensation. We have studied mice lacking cGMP-dependent kinase II (cGKII), which phosphorylates GluA1, a subunit of AMPA receptors (AMPARs), and promotes hippocampal long-term potentiation (LTP) through AMPAR trafficking. Acute cGKII inhibition significantly reduces LTP, whereas cGKII KO mice show no LTP impairment. Significantly, the closely related kinase, cGKI, does not compensate for cGKII KO. Here, we describe a previously unidentified pathway in the KO hippocampus that provides functional compensation for the LTP impairment observed when cGKII is acutely inhibited. We found that in cultured cGKII KO hippocampal neurons, cGKII-dependent phosphorylation of inositol 1,4,5-trisphosphate receptors was decreased, reducing cytoplasmic Ca(2+) signals. This led to a reduction of calcineurin activity, thereby stabilizing GluA1 phosphorylation and promoting synaptic expression of Ca(2+)-permeable AMPARs, which in turn induced a previously unidentified form of LTP as a compensatory response in the KO hippocampus. Calcineurin-dependent Ca(2+)-permeable AMPAR expression observed here is also used during activity-dependent homeostatic synaptic plasticity. Thus, a homeostatic mechanism used during activity reduction provides functional compensation for gene KO in the cGKII KO hippocampus.

摘要

基因敲除(KO)并不总是导致表型变化,这可能是由于功能补偿机制所致。我们研究了缺乏环磷酸鸟苷依赖性蛋白激酶II(cGKII)的小鼠,该激酶可使α-氨基-3-羟基-5-甲基-4-异恶唑丙酸受体(AMPAR)的亚基GluA1磷酸化,并通过AMPAR转运促进海马体长期增强(LTP)。急性抑制cGKII可显著降低LTP,而cGKII基因敲除小鼠未表现出LTP损伤。值得注意的是,与之密切相关的激酶cGKI并不能补偿cGKII基因敲除的影响。在此,我们描述了基因敲除的海马体中一条先前未被识别的通路,该通路可对急性抑制cGKII时观察到的LTP损伤提供功能补偿。我们发现,在培养的cGKII基因敲除海马神经元中,肌醇-1,4,5-三磷酸受体的cGKII依赖性磷酸化降低,从而减少了细胞质Ca(2+)信号。这导致钙调神经磷酸酶活性降低,进而稳定GluA1磷酸化并促进Ca(2+)通透型AMPAR的突触表达,这反过来又诱导了一种先前未被识别的LTP形式,作为基因敲除海马体中的一种补偿反应。此处观察到的钙调神经磷酸酶依赖性Ca(2+)通透型AMPAR表达在活动依赖性稳态突触可塑性过程中也会被利用。因此,活动减少期间使用的一种稳态机制为cGKII基因敲除海马体中的基因敲除提供了功能补偿。

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