非NMDA受体的细胞内调控及其机制

非NMDA受体是AMPA受体和KA受体的统称,其亚基上的胞内C末端上有很多磷酸化脱磷酸化及胞内蛋白的结合位点,这些作用位点与非NMDA受体的调控密切相关。如PKA,PKC,PKG,CaMKⅡ和PTK等蛋白激酶均可调节受体的活性,另外,胞内的一些骨架蛋白和信号蛋白也可与非NMDA受体结合而影响其功能,本文着重综述非NMDA受全的细胞内调控及其机制。     

雌激素受体β潜在磷酸化位点突变体的构建及其活性测定

目的：构建雌激素受体（ER）β潜在磷酸化位点突变体,并在人胚肾细胞293T中检测其对ERβ下游基因转录的影响。方法：通过ERα和ERβ序列同源性比对,寻找ERβ的潜在磷酸化位点;以pcDNA3-ERβ-FLAG为模板,通过重组PCR,将ERβ264位、469位Ser编码基因突变为Ala编码基因,将突变片段连接到同样双酶切的pcDNA3-FLAG载体中,Western blot检测其表达;将重组质粒转入293T细胞中,检测突变体对含雌激素应答元件（ERE）的报告基因转录活性的影响。结果：ERα和ERβ序列同源性比对发现ERβ的264位Ser和469位Ser可能是其潜在的磷酸化位点;构建了ERβ264位和469位2个点突变体载体pcDNA3-FLAG-ERβ（S264A）和pcDNA3-FLAG-ERβ（S469A）,Western blot可检测到ERβ突变体融合蛋白在293T细胞中表达。萤光素酶活性检测表明,在没有雌激素刺激的情况下,2个突变体的活性较野生型没有变化;加入雌激素后,突变体的活性较野生型略有升高。结论：ERβ的264位和469位Ser位点的磷酸化可能不是ERβ调节下游基因转录所必需的,活性升高可能是由于ERβ构象变化造成的。     

雌激素受体α及其活性变化的影响因素

雌激素受体α的活性依赖于自身构象的变化,与协同激活因子的结合程度,自身磷酸化的部位与程度,与ＤＮＡ的结合程度等因素,胞内胞外各种因子通过多个环节调节它的活性。本文通过对雌激素受体α结构,作用方式的分析,对雌激素受体α活性变化进行简要介绍。     

NMDA受体在焦虑症发病机制的研究进展

伴随社会生活和工作压力的增大,常见精神类疾病焦虑症的发病率逐年攀升。焦虑症的发病机制非常复杂,迄今尚未完全阐明。本文概述了焦虑症发病机制与NMDA受体不同亚型的关系。NMDA受体主要广泛分布于脑、脊髓和周围神经系统。NR1广泛分布于中枢神经,在NR2D亚基敲除小鼠中,NR1和NR2D的相互影响可能参与了焦虑样行为。NR2A与NR2B是NMDA受体的两个重要亚基,NR2B的高选择性拮抗剂艾芬地尔在小鼠的高架十字迷宫实验中发挥了抗焦虑功效。将小鼠全脑的NR2C基因用NR2B替代之后,1月龄变异小鼠的高架十字迷宫实验显示有明显的非条件性焦虑行为,表明NR2B和NR2C均可能参与焦虑的发生。因此,深入阐明调控NMDA受体亚基组成的确切作用机制,将有助于探索焦虑症潜在治疗靶点的发现,并针对性地开展新药的研发。     

心脑佳配方对慢性酒精中毒大鼠学习记忆及海马NMDA受体亚基NR2B表达的影响

目的：研究心脑佳配方对慢性酒精中毒大鼠学习记忆及海马N-甲基-D-天冬氨酸（NMDA）受体2B亚基（NR2B）表达的影响。方法：建立大鼠慢性酒精中毒模型,分别检测学习与记忆成绩、超氧化物歧化酶（SOD）活性和海马区NR2B mRNA表达。结果：学习记忆测试显示模型组大鼠学习记忆成绩比正常组明显下降（P〈0.01）,各用药组与模型组相比,学习记忆成绩明显上升（P〈0.05或P〈0.01）;模型组大鼠脑组织中SOD活性较正常组显著降低（P〈0.01）,而各用药组与模型组相比,脑组织中SOD活性显著升高（P〈0.05或P〈0.01）;PCR结果表明模型组大鼠海马区NR2B mRNA表达较正常组明显上升（P〈0.01）,各用药组与模型组相比,NR2B mRNA表达明显下降,差异有显著性（P〈0.01）。结论：心脑佳配方可能通过对NMDA受体亚基NR2B蛋白表达的调节而发挥抗酒精中毒作用。     

雌激素和多巴胺对大鼠垂体组织中雌激素受体基因表达的影响

目的研究雌激素和多巴胺激动剂对雌激素受体在大鼠垂体组织表达的作用。方法20只成年雌性Wistar大鼠,切除卵巢后,随机分2组：（1）对照组（n=5）,皮下植入空白硅胶管;（2）雌激素组（n=15）皮下植入含有乙烯雌酚的硅胶管,8周后,两组各处死5只大鼠,雌激素组剩余大鼠（n=10）取出硅胶管,随机再分2组,安慰剂组（n=5）给予自来水灌胃,多巴胺组（n=5）给予溴隐亭（多巴胺激动剂）灌胃,用药4周后处死动物。放免法测定血清PRL水平,用反转录一聚合酶链反应（RT-PCR）方法检测ERs在各组垂体组织中的表达,以β-actin作为内参照,借助于计算机凝胶成像系统分析表达量。结果ERa,ERβ以及TERP在各组大鼠垂体组织均有表达,其中ERα和TERPmRNA水平在雌激素组明显高于对照组（P〈0．001）,在安慰剂组和多巴胺组的表达无明显差别。结论大鼠垂体组织中存在ER的表达,雌激素对ERα和TERP的表达具有升调节作用,多巴胺不影响雌激素受体的表达。     

癌基因MDM2对雌激素受体转录活性的调节作用

目的:检测MDM2基因对雌激素受体α和β(ERα和ERβ)是否具有转录活性调节作用。方法:用PCR方法从乳腺文库中扩增MDM2序列,并将其以正确相位与pcDNA3-FLAG载体中的FLAG序列融合,构建成重组质粒pcDNA3-FLAG-MDM2;以含雌激素反应元件的荧光素酶(ERE-LUC)为报告基因,通过检测荧光素酶活性来确定MDM2是否对ER有转录调节因子的作用。结果:克隆和表达了MDM2基因;MDM2只对ERα具有转录活性调节作用。结论:MDM2对ER转录活性的调节具有亚型特异性。     

NMDA受体与中枢神经系统的发育

离子型谷氨酸受体分为NMDA型和非NMDA型两类,其中NMDA型受体与中枢神经系统发育关系密切。本文综述了NMDA受体的分子特性及NMDA受体五种亚单位NR1、NR2A、NR2B、NR2C和NR2D在动物出生后脑内的时空表达;NMDA受体亚单位在发育中的作用以及NMDA受体活性的胞内调节机制。     

雌激素受体α在小鼠海马中的表达研究

雌激素在生殖系统、认知记忆系统、骨骼和神经的发育及其功能维持等多种生理功能中扮演了重要的作用。雌激素可以通过结合到核雌激素受体Erα、Erβ来完成其生理功能。最近通过ER敲除鼠和选择性的抑制剂研究表明Erα在海马中具有重要作用。Erα在海马中的表达是否具有年龄和性别差异的研究较少,该文研究了Erα在不同年龄、不同性别的小鼠海马中的表达,并进一步比较了Erα在卵巢去除小鼠和对照小鼠中的表达差异。研究结果揭示了Erα在海马中的表达具有年龄和性别差异,暗示了Erα的表达受到外周雌激素水平的调控。这些结果为进一步研究雌激素和Erα在海马组织中基因表达的调控过程以及相关疾病的临床治疗提供参考。     

Rapid and Transient Learning-Associated Increase in NMDA NR1 Subunit in the Rat Hippocampus

Several lines of evidence indicate that glutamate NMDA receptors are critically involved in long-term potentiation (LTP) and in certain forms of learning. It was previously demonstrated that memory formation of an inhibitory avoidance task in chick is specifically associated with an increase in the density of NMDA receptor in selected brain regions. Here we report on the effect of a one trial inhibitory avoidance training in rats, a hippocampal-dependent learning task, on the levels of different subunits of the glutamate NMDA receptor in synaptic plasma membranes (SPM) isolated from the hippocampus. Training rats on a one trial inhibitory avoidance task results in a rapid, transient and selective increase (+33 %, p < 0.05) in NMDA NR1 subunit expression in hippocampal SPM of rats sacrificed 30 min posttraining. No changes were observed at 0 or 120 min after training or in shocked animals in comparison to naive control rats. In addition, no training-associated increase in the levels of NMDA NR2A and NR2B or AMPA GluR 2/3 subunits was observed at any timepoint tested. In conclusion, the present findings support the hypothesis that alterations in expression of synaptic NMDA NR1 subunits in the hippocampus are specifically associated with memory formation of an inhibitory avoidance task and strongly suggest that hippocampal NMDA receptors are crucially involved in the neural mechanisms underlying certain forms of learning.These authors contributed equally to this work     

三苯氧胺和雌二醇对大鼠子宫雌激素受体的竞争性结合作用

利用改进的葡聚糖活性炭饱和分析法（ＤＣＣ法）,对卵巢切除大鼠注射雌二醇（Ｅ组）或同时注射雌二醇和三苯氧胺（Ｅ＋Ｔ组）后６ｈ至６４ｄ,进行子宫ＥＲ含量测定,发现,Ｅ＋Ｔ组比Ｅ组的ＥＲ值小并且增加缓慢;Ｅ组的ＥＲ值在注射后３０ｄ达到最大值而且数值超过对照组（Ｃ组）。计算机曲线拟合Ｅ组或Ｅ＋Ｔ组与Ｃ组的ＥＲ比值求得：Ｅ组开始注射雌二醇时ＥＲ水平为Ｃ组的２．０３３倍,即＝２．０３３,恢复过程的时间常数τ＇为５１．５５ｄ,３￣Ｈ－雌二醇与ＥＲ结合过程的时间常数τ为１３．０ｄ;Ｅ＋Ｔ组的＝１．３１５,τ＇＝３８．７６ｄ,τ＝２１．５５ｄ,说明同时给予三苯氧胺和雌二醇情况下,三苯氧胺有抑制雌二醇诱导ＥＲ水平升高的作用,并减缓３￣Ｈ－雌二醇与ＥＲ的结合过程。另外,还求得Ｅ＋Ｔ组中三苯氧胺和ＥＲ和结合率约占４３．７％,表明三苯氧胺与雌二醇对ＥＲ有竞争性结合作用。     

大豆异黄酮对老龄大鼠雌激素水平和子宫雌激素受体表达的影响

目的探讨大豆异黄酮（soy isoflavones,SIF）对老龄大鼠雌激素水平和雌激素受体表达的影响。方法将40只16月龄雌性SD大鼠随机分为高、中和低剂量大豆异黄酮3个实验组（H-SIF,M-SIF和L-SIF）和1个对照组,每天分别按1005、0和25 mg/（kg.bw）剂量的大豆异黄酮进行灌胃,对照组灌服生理盐水。42 d后称重,股动脉放血处死动物收集血清、摘取子宫称重并冷冻保存。采用放射免疫法测定血清中雌二醇（E2）、睾酮（T）、泌乳素（PRL）、促黄体生成素（LH）和促卵泡激素（FSH）的含量;RT-PCR检测子宫雌激素受体α（ERα）基因的表达。结果与对照组相比,3个实验组血清中E2和PRL都升高,LH和FSH都降低,其中高剂量组差异有显著性（P〈0.05）;子宫重量无明显差异;子宫ERα表达呈下降趋势,但无统计学意义。结论大豆异黄酮能调节老龄大鼠血清中的雌激素水平,且有剂量依赖性;大豆异黄酮对老年大鼠子宫重量和子宫ERα的表达无影响。     

Transient Global Ischemia Alters NMDA Receptor Expression in Rat Hippocampus: Correlation with Decreased Immunoreactive Protein Levels of the NR2A/2B Subunits, and an Altered NMDA Receptor Functionality

Abstract: We investigated the gene expression levels, the immunoreactive protein prevalence, and the functional activity of N -methyl- d -aspartate (NMDA) receptor complexes at early times after severe global ischemia challenge in rats. The mRNA expression levels for the NR2A and NR2B subunits of NMDA receptors changed to different degrees within different subregions of the hippocampus after reperfusion with respect to sham-operated control. No significant change in expression was observed in the vulnerable CA1 subfield at or before 6 h after challenge for either receptor subunit, although changes in expression in other hippocampal subfields were observed. At 12 and 24 h after challenge, significant decreases in expression for both subunits were found in the vulnerable CA1 subfield, as well as in other hippocampal regions. At the protein level, a significant decrease in the amount of NR2A/NR2B immunoreactivity in the total hippocampus was observed at both 6 and 24 h after reperfusion compared with sham control. Electrophysiological assessment of single-channel NMDA receptor activity in the CA1 subfield indicates that the main conductance state of NMDA receptor channels is maintained 6 h after challenge, although by 18–24 h after challenge, this main conductance state is rarely observed. The NMDA receptor component of the excitatory postsynaptic field potential was found to be significantly diminished from sham control 24 h after challenge, such that only ∼10% of the sham response remained, but was not significantly altered from sham control at 6 h after challenge. These results indicate that decreases in the expression levels, the immunoreactive protein prevalence, and that alterations in the functionality of NMDA receptors occur in the hippocampus at early times after severe transient global ischemia.     

Aversive Learning under Different Training Conditions: Effects of NMDA Receptor Blockade in Area CA1 of the Hippocampus

Adult male Wistar rats were given either a single training trial or one training trial per day during 3 days followed by a retention test trial in an inhibitory avoidance (IA) task. In animals given a single training trial, pretraining, but not pretest bilateral infusion of the NMDA glutamate receptor antagonist d,l-2-amino-5-phosphonopentanoic acid (AP5) (5.0 μg) into the CA1 hippocampal area blocked IA retention. In animals given three training trials, infusions of AP5 given prior to each of the three training trials severely impaired, but did not block retention. The results indicate that NMDA receptors in the hippocampus are involved in the formation, but not in expression, of aversive memory. In addition, rats given repeated training were able to show a mild improvement of performance across training trials, possibly through mechanisms that do not depend on NMDA receptor activation in the dorsal hippocampus.     

Expression of mRNAs Encoding Subunits of the NMDA Receptor in Developing Rat Brain

Abstract: Developmental changes in the levels of N -methyl- d -aspartate (NMDA) receptor subunit mRNAs were identified in rat brain using solution hybridization/RNase protection assays. Pronounced increases in the levels of mRNAs encoding NR1 and NR2A were seen in the cerebral cortex, hippocampus, and cerebellum between postnatal days 7 and 20. In cortex and hippocampus, the expression of NR2B mRNA was high in neonatal rats and remained relatively constant over time. In contrast, in cerebellum, the level of NR2B mRNA was highest at postnatal day 1 and declined to undetectable levels by postnatal day 28. NR2C mRNA was not detectable in cerebellum before postnatal day 11, after which it increased to reach adult levels by postnatal day 28. In cortex, the expression of NR2A and NR2B mRNAs corresponds to the previously described developmental profile of NMDA receptor subtypes having low and high affinities for ifenprodil, i.e., a delayed expression of NR2A correlating with the late expression of low-affinity ifenprodil sites. In cortex and hippocampus, the predominant splice variants of NR1 were those without the 5' insert and with or without both 3' inserts. In cerebellum, however, the major NR1 variants were those containing the 5' insert and lacking both 3' inserts. The results show that the expression of NR1 splice variants and NR2 subunits is differentially regulated in various brain regions during development. Changes in subunit expression are likely to underlie some of the changes in the functional and pharmacological properties of NMDA receptors that occur during development.     

Transient Ischemia Differentially Increases Tyrosine Phosphorylation of NMDA Receptor Subunits 2A and 2B

Abstract: Activation of the N -methyl- d -aspartate (NMDA) receptor has been implicated in the events leading to ischemia-induced neuronal cell death. Recent studies have indicated that the properties of the NMDA receptor channel may be regulated by tyrosine phosphorylation. We have therefore examined the effects of transient cerebral ischemia on the tyrosine phosphorylation of NMDA receptor subunits NR2A and NR2B in different regions of the rat brain. Transient (15 min) global ischemia was produced by the four-vessel occlusion procedure. The tyrosine phosphorylation of NR2A and NR2B subunits was examined by immunoprecipitation with anti-tyrosine phosphate antibodies followed by immunoblotting with antibodies specific for NR2A or NR2B, and by immunoprecipitation with subunit-specific antibodies followed by immunoblotting with anti-phosphotyrosine antibodies. Transient ischemia followed by reperfusion induced large (23–29-fold relative to sham-operated controls), rapid (within 15 min of reperfusion), and sustained (for at least 24 h) increases in the tyrosine phosphorylation of NR2A and smaller increases in that of NR2B in the hippocampus. Ischemia-induced tyrosine phosphorylation of NR2 subunits in the hippocampus was higher than that of cortical and striatal NR2 subunits. The enhanced tyrosine phosphorylation of NR2A or NR2B may contribute to alterations in NMDA receptor function or in signaling pathways in the postischemic brain and may be related to pathogenic events leading to neuronal death.