The dynamics of hippocampal sensory gating during the development of morphine dependence and withdrawal in rats

The effects of morphine on hippocampal sensory gating (N40) during the development of morphine dependence and withdrawal were investigated in the double click auditory evoked potential (EP) suppression paradigm. Rats were made dependent upon morphine hydrochloride by a series of injections (every 12h) over 6 days, followed by withdrawal after stopping morphine administration. Hippocampal gating was examined during the development of dependence and withdrawal. Moreover, the DA antagonist haloperidol was used to assess the contribution of dopamine to hippocampal gating induced by morphine. Our results showed that the morphine-treated rats exhibited significantly disrupted hippocampal gating during the development of morphine dependence and this disrupted gating was partially reversed by haloperidol pretreatment. In contrast, there was significantly enhanced hippocampal gating at the fifth and sixth days of withdrawal. The dynamics of hippocampal gating during the development of morphine dependence and withdrawal suggests the interaction between the hippocampus and opioids. (c) 2005 Elsevier Ireland Ltd. All rights reserved.

Improved spatial recognition memory in mice lacking adenosine A(2A) receptors

Adenosine receptors play an important role in learning and memory as their antagonists have been found to facilitate learning and memory in various tasks in rodents. However, few studies have examined the effect of adenosine A(2A) receptor deficiency on c

Long-term depression in rat CA1-subicular synapses depends on the G-protein coupled mACh receptors

The subiculum, which is the primary target of CA1 pyramidal neurons and sending efferent fibres to many brain regions, serves as a hippocampal interface in the neural information processes between hippocampal formation and neocortex. Long-term depression (LTD) is extensively studied in the hippocampus, but not at the CA1-subicular synaptic transmission. Using whole-cell EPSC recordings in the brain slices of young rats, we demonstrated that the pairing protocols of low frequency stimulation (LFS) at 3 Hz and postsynaptic depolarization of -50 mVelicited a reliable LTD in the subiculum. The LTD did not cause the changes of the paired-pulse ratio of EPSC. Furthermore, it did not depend on either NMDA receptors or voltage-gated calcium channels (VGCCs). Bath application of the G-protein coupled muscarinic acetylcholine receptors (mAChRs) antagonists, atropine or scopolamine, blocked the LTD, suggesting that mAChRs are involved in the LTD. It was also completely blocked by either the Ca2+ chelator BAPTA or the G-protein inhibitor GDP-beta-S in the intracellular solution. This type of LTD in the subiculum may play a particular role in the neural information processing between the hippocampus and neocortex. (c) 2005 Elsevier Ireland Ltd and the Japan Neuroscience Society. All rights reserved.

Stress within the postseizure time window inhibits seizure recurrence

Recurrence is a key characteristic in the development of epilepsy. It remains unclear whether seizure recurrence is sensitive to postseizure stress. Here, tonic-clonic seizures were induced with a convulsive dose of pentylenetetrazole (PTZ), and acute seizure recurrence was evoked with a subconvulsive dose of the drug. We found that stress inhibited seizure recurrence when applied 30 minutes or 2 hours, but not 4 hours, after the tonic-clonic seizure. The time-dependent anti-recurrence effect of stress was mimicked by the stress hormone corticosterone and blocked by co-administration of mineralocorticoid and glucocorticoid receptor antagonists. Furthermore, in a PTZ-induced epileptic kindling model, corticosterone administered 30 minutes after each seizure decreased the extent of seizures both during the kindling establishment and in the following challenge test. These results provide novel insights into both the mechanisms of and therapeutic strategies for epilepsy. (C) 2010 Elsevier Inc. All rights reserved.

POSTSYNAPTIC ALPHA-2 RECEPTOR STIMULATION IMPROVES MEMORY IN AGED MONKEYS - INDIRECT EFFECTS OF YOHIMBINE VERSUS DIRECT EFFECTS OF CLONIDINE

Very low doses (0.00001 mg/kg) of the alpha-2 adrenergic antagonist, yohimbine, improved working memory performance in a subset of aged monkeys. Improvement appeared to result from increased norepinephrine (NE) release onto postsynaptic alpha-2 adrenoceptors, as the response was blocked by the ''postsynaptic'' alpha-2 antagonist, SKF104078. Cognitive-enhancing effects of low dose yohimbine treatment may depend on aged animals retaining an intact, endogenous NE system. In contrast to yohimbine, the alpha-2 agonist, clonidine, has improved working memory in air aged animals examined. In the present study, clonidine's beneficial effects were also blocked by the postsynaptic antagonists SKF104078 and SKF104856, suggesting that clonidine acts by directly stimulating postsynaptic alpha-2 adrenoceptors. Beneficial doses of clonidine (0.01 mg/kg) and yohimbine (0.00001 mg/kg) were combined to see if they would produce additive effects on memory enhancement. This strategy was successful in young monkeys with intact NE systems but was not effective in the aged monkeys. These findings demonstrate that drugs that indirectly stimulate postsynaptic alpha-2 receptors by increasing NE release are not as reliable in aged monkeys as directly acting agonists that can replace NE at postsynaptic alpha-2 receptors.

大麻受体CB1及CB2在慢性吗啡成瘾大鼠中枢神经系统与免疫系统的分布和表达

吗啡是临床常用的镇痛药物之一，通过模拟内源性抗痛物质脑啡肽的作用，激活中枢神经阿片受体而产生强大的镇痛作用。吗啡属于阿片类生物碱，为阿片受体激动剂，是目前我国主要的毒品成瘾类型之一，对人民生命健康危害极大。目前我国登记在册的吗啡成瘾者约有100万，每年导致的直接经济损失超过1000亿元。因此吗啡成瘾机制的研究以及治疗，是目前神经疾病的研究重点之一。 吗啡成瘾与其结合的受体有关。吗啡除结合阿片受体外，也可能结合大麻素受体，现发现体内有两种大麻素受体的存在：CB1受体和CB2受体。大麻CB1、CB2受体都是G蛋白耦联受体。其中CB1受体主要位于脑、脊髓与外周神经系统中，脑内CB1受体主要分布于基底神经节（黑质、苍白球、外侧纹状体）、海马CA锥体细胞层，小脑和大脑皮层。因此推测大麻CB1受体的功能可能与成瘾、记忆、认知、运动控制的调节有关。而大麻CB2受体主要分布于外周组织，如脾脏边缘区、扁桃体等，它的这种分布可能与免疫抑制作用有关。近来的研究发现大麻CB2受体在中枢神经系统也有分布，目前对其在此分布的功能不明确，推测可能与成瘾、抑郁症等神经类疾病有密切关系。 在药物成瘾导致的精神依赖作用中，奖赏效应是各种药物成瘾的药理学基础。中脑—边缘系统（(mesolimbic dopamine system,MLDS)是药物奖赏效应的神经解剖学基础。目前认为内源性大麻素所起的药理作用与多巴胺能和阿片能的神经传递有密切的关系。因此推断大麻素CB1受体与慢性吗啡成瘾有密切关系，至少是部分参与到慢性吗啡成瘾过程中。 相较于较多的关于大麻CB1受体的研究，有关大麻CB2受体的研究很少。尽管近来证实大麻CB2受体也分布于中枢神经系统，但在慢性吗啡成瘾时，大麻CB2受体表达的改变仍不清楚。在本项目中，我们将对慢性吗啡成瘾动物通过分子生物学、蛋白质化学、免疫组织化学的方法，探讨大麻CB2受体在中枢神经系统的分布和表达，以及大麻CB2受体在吗啡成瘾中可能的作用。 吗啡对免疫系统有抑制作用, 包括抑制淋巴细胞增殖, 减少细胞因子的分泌，减弱自然杀伤细胞（NKC）的细胞毒作用。现已证实激活周围神经系统的CB2受体可诱导IL-4的生成，从而影响阿片μ型受体的转录。此发现提供了内源性大麻系统-阿片系统-免疫系统之间存在相互作用的关系。然而，吗啡吸食是否通过CB2受体从而导致免疫功能的抑制，现在还没有直接证据，在本实验中我们将探讨CB2受体与吗啡成瘾导致免疫功能的改变有关。 实验结果显示（1）应用RT-PCR法，检测到大麻素受体CB1在慢性吗啡成瘾大鼠的皮质和海马处mRNA表达水平与对照组大鼠有明显不同。（2）应用western免疫印迹法，检测到大麻素受体CB1在慢性吗啡成瘾大鼠的皮质，海马和脑干处蛋白表达水平与对照组大鼠有明显不同。在脑干处，虽然mRNA表达水平无变化，但蛋白质的表达水平上升。（3）应用免疫组化检测到大麻素受体CB1在大鼠的皮质，海马，脑干，小脑处都广泛分布。（4）应用RT-PCR法，检测到大麻素受体CB2在慢性吗啡成瘾大鼠的皮质，海马，脑干处mRNA表达水平与对照组大鼠有明显不同。（5）应用western免疫印迹法，检测到大麻素受体CB2在慢性吗啡成瘾大鼠的皮质，海马，脑干蛋白表达水平与对照组大鼠有明显不同。且蛋白质的表达改变趋势与mRNA表达水平的改变相似。（6）应用免疫组化法检测到大麻素受体CB2在大鼠的皮质，海马，脑干，小脑处都广泛分布。但数量明显少于大麻CB1受体。（7）应用直接ELISA法，检测到慢性吗啡成瘾大鼠的血清与对照组大鼠的血清比较，IgM表达下降；IgG表达上升。 实验结果提示大麻受体CB1和CB2 很可能在慢性吗啡成瘾过程起着重要的作用，至少是部分参与到慢性吗啡成瘾的过程中。因为大麻素受体CB1和CB2都属于G 蛋白耦连受体，长期持续使用吗啡，其表达的变化可能会导致cAMP信号通路的上调；提高了腺苷酸环化酶(AC)和蛋白激酶A(PKA)的活性从而激活下游相关基因的表达最终导致成瘾。此外大麻素受体CB1和CB2表达的变化可能与慢性吗啡成瘾后免疫功能的改变有相关性。 通过以上的的实验结果，可以得到以下的结论：（1）我们验证了大麻素受体CB1在慢性吗啡成瘾大鼠的皮质，海马和脑干处mRNA和蛋白质表达水平与对照组大鼠有明显不同，且大麻CB1受体在大鼠中枢神经系统中广泛大量分布，表明大麻素受体CB1很可能在慢性吗啡成瘾过程中起着重要的作用，至少部分参与到慢性吗啡成瘾的过程中。（2）我们第一次证实了大麻素受体CB2在吗啡成瘾大鼠的皮质，海马和脑干处mRNA和蛋白质表达水平与对照组大鼠有明显不同，且大麻CB2受体在大鼠中枢神经系统中少量广泛分布。表明大麻素受体CB2很可能在慢性吗啡成瘾过程中起着重要的作用，至少部分参与到慢性吗啡成瘾的过程中。（3）同时我们发现大麻素受体CB1和CB2在大鼠脑组织中广泛表达，表明内源性大麻系统有可能广泛的参与各种神经疾病，很可能成为治疗的新靶点。（4）最后我们发现慢性吗啡成瘾大鼠血液中IgM表达下降；IgG表达上升，表明慢性吗啡成瘾对机体的免疫功能有广泛的调节作用。慢性吗啡成瘾大鼠血清CB2受体mRNA表达上升。我们证实了大麻受体CB2可能正是把神经系统和免疫系统相联系的一个靶点。

TRPV1 受体调控海马突触可塑性的机制及其功能意义

全世界有四分之一人口的日常饮食中包含辣椒及其相关食品，辣椒素是辣椒 里使人产生辛辣和呛感觉的主要成分。辣椒素受体最初是在感觉神经元克隆到 的，后来被命名为TRPV1，是因为发现它属于TRP（Transient receptor potential，瞬时受体势）离子通道家族。辣椒素及其受体在疼痛学领域已有广 泛的研究，但它们如何调节脑功能却知之甚少。很多报道显示辣椒素受体在脑内 广泛表达。在啮齿类动物的海马内，辣椒素受体从齿状回到CA3-CA1区均有表达。 在亚细胞层次，辣椒素受体在神经元胞体，树突棘和突触部位均有表达。近年来 辣椒素受体的内源性配体也被发现，包括花生四烯酸乙醇胺（anandamide, AEA）、 氮磷脂-多巴胺(N-arachidonoyl-dopamine, NADA)、 精胺等。辣椒素在很多脑 区（包括海马），可通过其受体调节神经元兴奋性和神经递质释放。 海马双向突触可塑性，长时程增强(LTP)和抑制现象(LTD)被认为是学习与记 忆的细胞机制。而LTP/LTD的诱导阈值是由 NMDA受体的激活程度及其引起的突 触后胞内钙水平决定的。因此调节NMDA受体和胞内钙信号被认为是调节LTP/LTD 诱导阈值最直接有效的方式。考虑到辣椒素受体的突触分布及其对钙离子的高通 透性，我们认为辣椒素受体的激活可能参与调节LTP/LTD的诱导阈值 本研究采用离体脑片场电位记录方式，发现辣椒素易化LTP的诱导而损伤了 LTD的诱导，并且降低了LTP/LTD的诱导阈值。在给予辣椒素受体的拮抗剂以后， 或者是在TRPV1基因敲除小鼠的脑片上，辣椒素对LTP/LTD的诱导均没有影响。 我们发现的辣椒素对LTP/LTD的影响与行为学应激对LTP/LTD的影响，两者效应恰恰相反，应激是易化LTD的诱导而损伤LTP的诱导。如期所料，辣椒素使应激 损伤的LTP恢复，同时阻断了应激易化的LTD。除了对LTP/LTD有重要的调节作 用以外，我们的结果也显示应激严重损伤了动物对空间记忆的提取。所以我们进 一步研究辣椒素能否对抗应激对动物空间记忆的损伤。我们发现海马内埋置导管 给予辣椒素可以使应激损伤的空间记忆得到恢复，同样，灌胃给予辣椒素也可以 对抗应激对动物空间记忆的损伤，进一步提示日常饮食中的辣椒会对应激相关的 精神障碍有潜在的正面影响。 从动物实验到临床实验都有广泛的证据表明应激对认知功能，焦虑，创伤后 应激综合症等有着深刻的影响。综上所述，我们第一次报道了辣椒素通过激活 TRPV1受体可以对抗应激引起的空间记忆损伤，该效应可能是通过调节LTP/LTD 的诱导阈值来实现的。我们工作的意义在于揭示了辣椒素受体在应激相关的精神 疾病中的潜在作用，为寻找治疗应激相关的精神心理障碍提供了新的靶点，也为 辣椒偏好的饮食习惯与精神卫生之间的关系研究提供了新的思路。

新型非肽类血管紧张素II受体拮抗剂设计合成及其生物活性研究

Ang II受体拮抗剂是作用于肾素-血管紧张素系统(RAS)的抗高血压药，因其抗高血压作用与较老的抗高血压药物作用相同，且更具有选择性，不良反应状况与安慰剂相似,而在高血压治疗中逐渐引起研究者重视，并成为目前增长最快的抗高血压药物。在许多AngII受体拮抗剂中四氮唑结构已成为固定基团，但四氮唑有许多合成及代谢弊端。因此，寻找其他合适的杂环酸性基团来替代四氮唑，在保持较高口服活性的同时克服相应缺陷，具有极其重要的意义。 本项目以四氮唑沙坦类药物为先导化合物，运用生物电子等排原理及拼合原理，根据计算机分子模拟研究结果，对其进行结构修饰和改造，首次将咪唑、氯代咪唑、三氮唑及咪唑啉替代四氮唑，并结合具有较高AngII受体拮抗活性的联苯并咪唑衍生物，设计并合成一系列含咪唑，咪唑啉，氯代咪唑及三氮唑衍生物的Ang II受体拮抗剂。 研究这一系列新型AngII受体拮抗剂的体内、体外抗高血压活性时，发现咪唑啉衍生物展示了与对照药物几乎相当的活性，而咪唑、氯代咪唑和三氮唑衍生物分别表现了较弱或者没有活性，这些研究对今后更进一步设计合成新的Ang II受体拮抗剂具有重要的指导意义，同时也为筛选抗高血压药物奠定良好的基础。 The angiotensin II receptor antagonists act on renin-angiotensin system (RAS), which are as effective as other types of anti-hypertensive drugs. Because even the more specific and comparable to placebo in terms of side effects, Ang II receptor antagonists cause a high attention and become the fastest growing anti-hypertension drugs. Most of such compounds share the biphenyltetrazole unit with the lead Losartan. However, there are many defects in tetrazole synthesis and vivo metabolism. Therefore, we felt quite encouraged to find some proper acidic heterocyclic groups which maintain the same oral bioavailability to replace the tetrazole. In the present paper, we applied the bioisostere and combination principle, in accordance with the results of computer modeling of molecular, to modify the lead structural of terazole in sartan compounds reported. We turned our attention to replace the tetrazole ring with imidazole rings, chloro-imidazole, imidazoline, traizole ring and combinated them with benzimidazoles derivatives which have antagonistic activity for angiotensin II to design and synthesize a series of Ang II receptor antagonists contaning imidazole ring, chloro-imidazole, imidazoline or traizole ring. In addition, activity tests in vivo and in vivo had shown that imidazoline derivatives display almost equivalent activity with the reference drug, but imidazole derivatives, chloro-imidazole, triazole derivatives were weak or non-performance of the hypotensive activity. We believe that the imidazoline derivative type Ang II receptor antagonists can build a foundation for the development of a novel series of anti-hypertensive drugs.

1、蜜蜂嗅觉学习记忆应用基础研究 2、吗啡和胆碱能拮抗剂联合给药对小鼠Y迷宫空间记忆提取及活动性的影响

一、蜜蜂嗅觉学习记忆应用基础研究特殊气味的探测在刑侦工作中意义重大，常用的警犬探测和仪器分析都有其局限之处。蜜蜂嗅觉灵敏，且学习记忆能力突出，具有为刑侦工作所用的潜力。基于此，我们希望通过训练蜜蜂将其对糖水奖励的伸喙反应与指定气味建立条件反射的原理，配合适当的训练方法，达到利用蜜蜂探测危险气味的目的。在实验中，我们首先比较了不同喂养方式的蜜蜂在气味学习中的差别。由于低浓度气味无法直接使蜜蜂建立条件化，我们采用了逐渐降低气味浓度的方法，成功训练蜜蜂对低浓度(3.6×10-7) 醋酸气味建立了条件反射。结果如下： 1)自然放养与人工孵化两种不同喂养方式的蜜蜂，各两组，分别学习醋酸CS+/薄荷CS-，或柠檬CS+/薄荷CS-的气味配对。以“获得(CS+)，巩固(CS-/CS+ CS+/CS- CS-/CS+)，检测，干净空气假阳性检测”的顺序操作。结果显示自然放养蜜蜂对醋酸气味没有偏好（第一次给醋酸气味伸喙率：6%），学习醋酸气味能力较低（24小时后检测正确率：66%， n=25），相对应，该类蜜蜂对柠檬气味显示出明显偏好(第一次给柠檬气味伸喙率：41%，P< 0.01)，而学习效果（检测正确率：50%，n=20）与醋酸组相近(P>0.05)。人工孵化的蜜蜂对醋酸气味学习能力较自然放养蜜蜂大大提高（检测正确率：96%, n=32， P<0.01），同时对柠檬的学习结果（检测正确率：80%, n=32）也明显提高(0.01

Detection of neurotransmitters by a light scattering technique based on seed-mediated growth of gold nanoparticles

A simple light scattering detection method for neurotransmitters has been developed, based on the growth of gold nanoparticles. Neurotransmitters (dopamine, L-dopa, noradrenaline and adrenaline) can effectively function as active reducing agents for generating gold nanoparticles, which result in enhanced light scattering signals. The strong light scattering of gold nanoparticles then allows the quantitative detection of the neurotransmitters simply by using a common spectrofluorometer.

In situ PEI and formic acid directed formation of Pt NPs/MWNTs hybrid material with excellent electrocatalytic activity

A hybrid material based on Pt nanoparticles (Pt NPs) and multi-walled carbon nanotubes (MWNTs) was fabricated with the assistance of PEI and formic acid. The cationic polyelectrolyte PEI not only favored the homogenous dispersion of carbon nanotubes (CNTs) in water, but also provided sites for the adsorption of anionic ions PtCl42- on the MWNTs' sidewalls. Deposition of Pt NPs on the MWNTs' sidewalls was realized by in situ chemical reduction of anionic ions PtCl42- with formic acid. The hybrid material was characterized with TEM, XRD and XPS. Its excellent electrocatalytic activity towards both oxygen reduction in acid media and dopamine redox was also discussed.

Electrochemical Sensing and Biosensing Platform Based on Chemically Reduced Graphene Oxide

In this paper, the characterization and application of a chemically reduced graphene oxide modified glassy carbon (CR-GO/GC) electrode, a novel electrode system, for the preparation of electrochemical sensing and biosensing platform are proposed. Different kinds of important inorganic and organic electroactive compounds (i.e., probe molecule (potassium ferricyanide), free bases of DNA (guanine (G), adenine (A), thymine (T), and cytosine (C)), oxidase/dehydrogenase-related molecules (hydrogen peroxide (H2O2/beta-nicotinamide adenine dinucleotide (NADH)), neurotransmitters (dopamine (DA)), and other biological molecules (ascorbic acid (AA), uric acid (UA), and acetaminophen (APAP)) were employed to study their electrochemical responses at the CR-GO/GC electrode, which shows more favorable electron transfer kinetics than graphite modified glassy carbon (graphite/GC) and glassy carbon (GC) electrodes.

Sensitive biomimetic sensor based on molecular imprinting at functionalized indium tin oxide electrodes

We initially report an electrochemical sensing platform based on molecularly imprinted polymers (MIPs) at functionalized Indium Tin Oxide Electrodes (ITO). In this research, aminopropyl-derivatized organosilane aminopropyltriethoxysilane (APTES), which plays the role of functional monomers for template recognition, was firstly self-assembled on an ITO electrode and then dopamine-imprinted sol was spin-coated on the modified surface. APTES which can interact with template dopamine (DA) through hydrogen bonds brought more binding sites located closely to the surface of the ITO electrode, thus made the prepared sensor more sensitive for DA detection. Potential scanning is presented to extract DA from the modified film, thus DA can rapidly and completely leach out. The affinity and selectivity of the resulting biomimetic sensor were characterized using cyclic voltammetry (CV). It exhibited an increased affinity for DA over that of structurally related molecules, the anodic current for DA oxidation depended on the concentration of DA in the linear range from 2 x 10(-6) M to 0.8 x 10(-3) M with a correlation coefficient of 0.9927.In contrast, DA-templated film prepared under identical conditions on a bare ITO showed obviously lower response toward dopamine in solution.

Tris(2,2 '-bipyridyl)ruthenium(II) electrochemiluminescent detection of coreactants containing aromatic diol group by the interaction between diol and borate anion

Previous studies show that aromatic diols inhibited Ru(bpy)(3)(2+) electrochemiluminescence (ECL), and all reported Ru(bpy)(3)(2+) ECL methods for the determination of aromatic diols-containing coreactants are based on inhibition of Ru(bpy)(3)(2+)/tripropylamine ECL. In this study, the interaction between diol and borate anion was exploited for Ru(bpy)(3)(2+) ECL detection of coreactants containing aromatic diol group using epinephrine as a model analyte. The interaction prevented from the inhibition of Ru(bpy)(3)(2+) ECL by aromatic diol group of epinephrine. As a result, epinephrine was successfully detected in the absence of tripropylamine simply by using borate buffer solution as the supporting electrolyte. Under the optimum conditions, the log of the ECL intensity increases linearly with the log of epinephrine concentrations over the concentration range of 1.0x10(-9)-1.0x10(-4) M. The detection limit is 5.0x10(-10) M at a signal-to-noise ratio of three. The proposed method exhibit wider dynamic range and better detection limit than that by inhibited Ru(bpy)(3)(2+) ECL method. The relative standard deviation for 14 consecutive determinations of 5 mu M epinephrine was 3.5%. The strategy by interaction with borate anion or boronate derivatives is promising for the determination of coreactants containing aromatic diol group or aromatic hydroxyl acid group. Such interaction can also be used to avoid interference from aromatic diols or aromatic hydroxyl acids.