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Homocysteine reduces NMDAR desensitization and differentially modulates peak amplitude of NMDAR currents depending on GluN2 subunit composition

机译：同型半胱氨酸减少NMDAR脱敏并差异调节NMDAR电流的峰值幅度具体取决于GluN2亚基的组成

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N-methyl-d-aspartate receptors (NMDARs) have been linked to schizophrenia because agents that bind the receptor, like ketamine and phencyclidine, are capable of inducing schizophrenia-like symptoms. Here we show that the amino acid homocysteine (HCY), which is increased in the blood of schizophrenia patients, reduces desensitization of NMDARs in cultured mouse neurons, human embryonic kidney cells transfected with GluN1 + GluN2A, GluN2B, or GluN2D subunits, and hippocampal slices. HCY also alters the peak amplitude of NMDAR currents, depending on the GluN2 subunit the receptor contains; GluN1 + GluN2A-containing NMDARs show an increase in peak amplitude when exposed to HCY, while GluN1 + GluN2B-containing NMDARs show a decrease in peak amplitude. Both peak amplitude and desensitization effects of HCY can be occluded by saturating the NMDAR with glycine. Since glycine concentrations are not saturating in the brain, HCY could play an NMDAR-modulating role in the nervous system. We also show that HCY shares characteristics with glutamate and suggest that HCY affects both the agonist and co-agonist site of the NMDAR.

机译：N-甲基-d-天冬氨酸受体（NMDARs）与精神分裂症有关，因为与受体结合的药物（如氯胺酮和苯环利定）能够诱发精神分裂症样症状。在这里，我们显示了精神分裂症患者血液中氨基酸高半胱氨酸（HCY）的含量降低了培养的小鼠神经元，转染GluN1 + GluN2A，GluN2B或GluN2D亚基的人胚胎肾细胞和海马切片中NMDAR的脱敏性。 HCY还会改变NMDAR电流的峰值幅度，具体取决于受体所含的GluN2亚基。暴露于HCY时，含GluN1 + GluN2A的NMDAR的峰值幅度增加，而含GluN1 +含GluN2B的NMDAR的峰值幅度降低。通过用甘氨酸饱和NMDAR，可以消除HCY的峰幅度和脱敏效应。由于甘氨酸浓度在大脑中不会饱和，因此HCY可能在神经系统中发挥NMDAR调节作用。我们还显示，HCY与谷氨酸共有特征，并暗示HCY影响NMDAR的激动剂和共激动剂位点。

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期刊名称 Journal of Neurophysiology
作者
Andrew D. Bolton; Marnie A. Phillips; Martha Constantine-Paton;
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作者单位

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年(卷),期 -1(110),7
年度 -1
页码 1567–1582
总页数 18
原文格式 PDF
正文语种
中图分类神经科学;人体生理学;
关键词
NMDAR schizophrenia homocysteine GluN2 desensitization;

机译：NMDAR;精神分裂症;高半胱氨酸;GluN2;脱敏;

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专利

1. Homocysteine reduces NMDAR desensitization and differentially modulates peak amplitude of NMDAR currents, depending on GluN2 subunit composition [J] . Andrew D. Bolton, Marnie A. Phillips, Martha Constantine-Paton Journal of Neurophysiology . 2013,第4期

机译：同型半胱氨酸减少NMDAR脱敏并差异调节NMDAR电流的峰值幅度，具体取决于GluN2亚基的组成
2. Homocysteine reduces NMDAR desensitization and differentially modulates peak amplitude of NMDAR currents, depending on GluN2 subunit composition [J] . Andrew D. Bolton, Marnie A. Phillips, Martha Constantine-Paton Journal of Neurophysiology . 2013,第4期

机译：同型半胱氨酸降低NMDAR脱敏，差异调节NMDAR电流的峰值振幅，具体取决于GLUN2亚基组合物
3. Non-Uniform Distribution of the NMDAR1 Receptor Subunit in Kitten Visual Cortex at the Peak of the Critical Period [J] . Kathryn M. MurphyChristopher TrepelVictor D. Pegado Molecular vision . 1996,第12期

机译：关键时期峰值时小猫视觉皮层中NMDAR1受体亚基的不均匀分布
4. A 312-MHz CT ΔΣ Modulator Using a SC Feedback DAC with Reduced Peak Current [C] . Martin Anderson, Lars Sundstrom European Solid-State Circuits Conference . 2007

机译：一种312-MHzCTΔΣ调制器，使用SC反馈DAC具有降低的峰值电流
5. Neuroligin 1 modulates striatal glutamatergic neurotransmission in a pathway and NMDAR subunit-specific manner [O] . Felipe Espinosa, Zhong Xuan, Shunan Liu, 2015

机译：Neuroligin 1以一种途径和NMDAR亚单位特异性方式调节纹状体谷氨酸能神经传递
6. Neuroligin 1 Modulates Striatal Glutamatergic Neurotransmission in a Pathway and NMDAR Subunit-Specific Manner [O] . Felipe eEspinosa, Zhong eXuan, Shunan eLiu, 2015

机译：Neuroligin 1调节通路中的纹状体谷氨酸能神经传递和NmDaR亚基特异性方式

Homocysteine reduces NMDAR desensitization and differentially modulates peak amplitude of NMDAR currents depending on GluN2 subunit composition

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