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本文引用的文献

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Cutting edge: MHC class I-Ly49 interaction regulates neuronal function.前沿:主要组织相容性复合体I类分子与Ly49相互作用调节神经元功能。
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Expression of nonclassical class I major histocompatibility genes defines a tripartite organization of the mouse vomeronasal system.非经典I类主要组织相容性基因的表达定义了小鼠犁鼻系统的三方组织。
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Regulation of CNS synapses by neuronal MHC class I.神经元MHC I类分子对中枢神经系统突触的调控
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PirB restricts ocular-dominance plasticity in visual cortex.PirB蛋白限制视觉皮层中的眼优势可塑性。
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Essential role of the main olfactory system in social recognition of major histocompatibility complex peptide ligands.主要嗅觉系统在主要组织相容性复合体肽配体的社会识别中的重要作用。
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Patterned expression of Purkinje cell glutamate transporters controls synaptic plasticity.浦肯野细胞谷氨酸转运体的模式化表达控制突触可塑性。
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An NMDA receptor/nitric oxide cascade is involved in cerebellar LTD but is not localized to the parallel fiber terminal.N-甲基-D-天冬氨酸受体/一氧化氮级联反应参与小脑长时程抑制,但并不局限于平行纤维终末。
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H2-K(b)和H2-D(b)调节小脑长期抑制并限制运动学习。

H2-K(b) and H2-D(b) regulate cerebellar long-term depression and limit motor learning.

作者信息

McConnell Michael J, Huang Yanhua H, Datwani Akash, Shatz Carla J

机构信息

Bio-X and Department of Biology, Stanford University, Stanford, CA 94305, USA.

出版信息

Proc Natl Acad Sci U S A. 2009 Apr 21;106(16):6784-9. doi: 10.1073/pnas.0902018106. Epub 2009 Apr 3.

DOI:10.1073/pnas.0902018106
PMID:19346486
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2672503/
Abstract

There are more than 50 class I MHC (MHCI) molecules in the mouse genome, some of which are now known to be expressed in neurons; however, the role of classical MHCI molecules in synaptic plasticity is unknown. We report that the classical MHCI molecules, H2-K(b) and H2-D(b), are co-expressed by Purkinje cells (PCs). In the cerebellum of mice deficient for both H2-K(b) and H2-D(b) (K(b)D(b-/-)), there is a lower threshold for induction of long-term depression (LTD) at parallel fiber to PC synapses. This change may be a result of additional glutamate release observed at K(b)D(b-/-) CF to PC synapses, which are thought to "train" the cerebellar circuit. A behavioral correlate of cerebellar LTD is motor learning; acquisition and retention of a Rotarod behavioral task is significantly better in K(b)D(b-/-) mice than in WT cohorts. These physiological and behavioral phenotypes in K(b)D(b-/-) mice reveal a surprising role for classical MHCI molecules in synaptic plasticity and motor learning.

摘要

小鼠基因组中有50多种I类主要组织相容性复合体(MHCI)分子,其中一些现已发现可在神经元中表达;然而,经典MHCI分子在突触可塑性中的作用尚不清楚。我们报告称,经典MHCI分子H2-K(b)和H2-D(b)在浦肯野细胞(PC)中共同表达。在H2-K(b)和H2-D(b)均缺失的小鼠(K(b)D(b-/-))的小脑中,平行纤维与PC突触处诱导长时程抑制(LTD)的阈值较低。这种变化可能是由于在K(b)D(b-/-)攀缘纤维与PC突触处观察到额外的谷氨酸释放,这些突触被认为可“训练”小脑回路。小脑LTD的行为相关表现是运动学习;在Rotarod行为任务的习得和保持方面,K(b)D(b-/-)小鼠明显优于野生型群体。K(b)D(b-/-)小鼠的这些生理和行为表型揭示了经典MHCI分子在突触可塑性和运动学习中出人意料的作用。