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本文探讨了CRF,AV P 及N E 对体外培养大鼠腺垂体细胞生成cAM P的作用。CRF 刺激体外培养大鼠腺垂体细胞内cAM P 的生成, 且浓度与效应正相关。AV P 未引起细胞内cAM P 差异性变化(P > 0.5)。N E 使培养腺垂体细胞内cAM P 水平降低。低氧使CRF 刺激cAM P 生成的作用降低。而AV P 及N E 可能是通过其它胞内信息通路。

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Stress is the most important factor in the vulnerability to depression and other behavioral disorders, but the mechanisms that stress signals are transferred into depression are far from understanding. To date, the neurotransmitters, neurotrophins and signal pathway have been concerned in the topic focusing on the pathophysiology of depression, but there are still many puzzles. Increasing evidence has indicated that the alteration in neuronal plasticity is the “trace” of stress-induced damages. The extracellular signal-regulated protein kinase(ERK)-cyclic-AMP-responsive element(CRE)-binding protein(CREB)signal pathway is a powerful intracellular signal transduction pathway participating in neuronal plasticity which is involved in higher brain cognitive functions such as learning and memory. However, so far, little is known about the role of the ERK-CREB signal pathway in response to stress and emotional modulations. Thus the aim of the study was to systematically investigate the role of the ERK-CEB signal pathway in depressive-like behaviors induced by stress. Depression animal models, antidepressant agent treatment and disruption of signal pathway in specific brain regions were applied. In the present study, three experiment sessions were designed to make sure whether the ERK-CREB signal pathway was indeed one of pathophysiological mechanisms of depressive-like behaviors induced by stress. In experiment one, two different stress animal models were applied, chronic forced swim stress and chronic empty water bottle stress. After stress, all animals were tested behaviorally using open-field, elevated-plus maze and saccharine preference test, and brain samples were processed for determination of ERK, P-ERK, CREB and P-CREB using western blot. The relationships between the proteins of ERK, P-ERK, CREB and P-CREB in the brain and the behavioral variables were also analyzed. In experiment two, rats were treated with antidepressant agent fluoxetine once a day for 21 consecutive days, then the brain levels of ERK, P-ERK, CREB and P-CREB was determined, the depressive-like behaviors were also examined. In experiment three, mitogen activated extracellular-signal-regulated kinase kinase (MEK) inhibitor U0126 was administrated to inhabit the activation of ERK in the hippocampus and prefrontal cortex respectively, then behavioral measurements and protein detection were conducted. The main results of the study were as the following: (1) Chronic forced swim stress induced animals to suffer depression and disrupted the ERK-CREB signal pathway in hippocampus and prefrontal cortex. There were significant correlations between P-ERK2, P-CREB and multiple variables of depressive-like behaviors. (2) Chronic empty water bottle stress did not induce depressive-like behaviors. Such stress decreased the brain level of P-ERK2 in hippocampus and prefrontal cortex, but the level of P-CREB in the hippocampus was increased. (3) The antidepressant agent fluoxetine relieved depressive-like behaviors and increased the activities of the ERK-CREB signal pathway in stressed animals. (4) Animals treated with U0126 injection into hippocampus showed decreased activities of the ERK-CREB signal pathway in the hippocampus, and suffered depression comorbid with anxiety. (5) Animals treated with U0126 injection into prefrontal cortex showed decreased activities of the ERK-CREB signal pathway in the prefrontal cortex, and exhibited depressive-like behaviors. In conclusion, The ERK-CREB signal pathway in the hippocampus and prefrontal cortex was involved in stress responses and significantly correlated with depressive-like behaviors; The ERK-CREB signal pathway in the hippocampus and prefrontal cortex participated in the mechanism that fluoxetine reversed stress-induced behavioral disorders, and might be the target pathway of the therapeutic action of antidepressants; The disruption of the ERK-CREB signal pathway in the hippocampus or prefrontal cortex led to depressive-like behaviors in animals, suggesting that disruption of ERK-CREB pathway in the hippocampus or prefrontal cortex was involved in the pathophysiology of depression, and might be at least one of the mechanisms of depression induced by stress.

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生物学图式及其形成规律一直是生命科学特别是发育生物学的重要课题;同时也是组织工程中实现体外组织构建的核心科学问题之一。长期以来,对生物图式形成的模型研究的根本不足之处是以数理方法为基础的动力学模型研究和生物学背景的结合不够。因此,本文试图遵循生物图式本身的形成过程,寻求一条与生物学相适配的途径,即以哺乳动物组织发育/活组织工程化构建为目标,以细胞行为为基点,以力学一化学藕合作用为介导,以元胞自动机方法为基础,建立生物学图式形成的一个细胞一环境整体离散模型。应用这一整体离散模型,在不同的控制参数下,对盘基网柄菌的聚集图式和杆菌的生长图式进行了系统的分析,对血管发生(vasculogenesis)的自组装图式进行了初步的新的探索,得到了与实验研究定性上一致的结果。提出了“诱导开关”概念,对盘基网柄菌(Dictyostelium discoideu),杆菌(Bacillus)和血管内皮祖细胞(Endothelial Precursor cells,EPC)三种模式生物,分别以cAMP的信号波前,营养微粒,VEGF的浓度梯度等为诱导开关量。在对盘基网柄菌细胞接收到cAMP后分泌和定向迁移形成的聚集图式的模拟中,系统地考察了影响聚集图式的各种控制参数;一个重要的结果表明细胞初始响应间期对形成的聚集模式有十分显著的影响;引入聚集速度、回转半径、盒质量分布系数等概念对盘基网柄菌的聚集图式进行了一些定量描述的探索。在对杆菌因代谢、增殖、凋亡/衰亡而形成的生长图式的模拟中,系统地定量地分析了在初始营养浓度、营养/代谢物扩散快慢、代谢抑制三者藕合作用下的生长图式;引入定向流动边界,考察了杆菌向营养入口方向的优势生长。在对血管内皮祖细胞经vEGF分子浓度梯度场的诱导进行定向迁移,分化为血管内皮细胞,并自组装形成网状的原初毛细血管丛的模拟中,建立了一个微血管发生自组装图式的新的离散模型,为以后加入力与内皮细胞的相互作用以及血管再生等构建了一个前期模型框架;初步考察了细胞的浓度,细胞分泌vEGF分子的周期,vEGF分子的扩散时间尺度等对血管发生图式的影响因素。

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自绵羊卵巢分离卵丘-卵母细胞复合物进行体外培养,培养基中分别加入或不加入抑制剂次黄嘌呤+dbcAMP或IBMX+dbcAMP。培养6h后各组取部分卵母细胞固定染色检查卵母细胞核成熟情况;将其余的卵母细胞分别移入无抑制剂的成熟培养基中继续培养18h后,再次检查各组卵母细胞核成熟情况,并进行体外受精和胚胎培养。结果表明:次黄嘌呤+dbcAMP或IBMX+dbcAM都分别能使60%以上的绵羊卵母细胞抑制在GV期。这种抑制是可逆性的,去除抑制剂后卵母细胞能恢复减数分裂,并加快由GVBD到MⅡ的成熟过程。各处理组受精率、卵裂率和囊胚发育率与对照组相比无显著性差异,表明卵母细胞的胚胎发育潜力没有受损。上述物质对卵母细胞成熟的可逆性抑制可用于研究卵母细胞成熟及其胚胎发育潜力的调节机制。

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Sertoli cells play a central role in the control and maintenance of spermatogenesis. Isolated Sertoli cells of mouse and rat testes have been shown to secrete plasminogen activator (PA) and a plasminogen activator inhibitor type-1 (PAI-1) in culture. In this study, we have investigated the hormonal regulation of PA and PAI-1 activities in cultured monkey Sertoli cells. Sertoli cells (5x10(5) cells/well) isolated from infant rhesus monkey testes were preincubated at 35 degrees C for 16 h in 24-well plates precoated with poly(D-lysine) (5 mu g/cm(2)) in 0.5 mi McCoy's 5a medium containing 5% of fetal calf serum and further incubated for 48 h in 0.5 mi serum-free medium with or without various hormones or other compounds, PA as well as PAI-1 activities in the conditioned media were assayed by fibrin overlay and reverse fibrin autography techniques respectively. The Sertoli cells in vitro secreted only tissue-type PA (tPA), no detectable amount of urokinase-type PA (uPA) could be observed, Monkey Sertoli cells were also capable of secreting PAI-1, Immunocytochemical studies indicated that both tPA and PAI-1 positive staining localized in the Sertoli cells, spermatids and residual bodies of the seminiferous epithelium; Northern blot analysis further confirmed the presence of both tPA and PAI-1 mRNA in monkey Sertoli cells. Addition of follicle-stimulating hormone (FSH) or cyclic adenosine monophosphate (cAMP) derivatives or cAMP-generating agents and gonadotrophin-releasing hormone (GnRH) agonist or phorbol ester (PMA) to the cell culture significantly increased tPA activity. PAI-1 activity in the culture was also enhanced by these reagents except 8-bromo-dibutyryl-cAMP, forskolin and 3-isobutyl-1-methylxanthin (MIX) which greatly stimulated tPA activity, whereas decreased PAI-1 activity, implying that neutralization of PAI-1 activity by tile high level of tPA in the conditioned media may occur. These data suggest that increased intracellular signals which activate protein kinase A (PKA), or protein kinase C (PKC) can modulate Sertoli cell tPA and PAI-1 activities, The concomitant induction of PA and PAI-1 by the same reagents in the Sertoli cells may reflect a finely tuned regulatory mechanism in which PAI-1 could limit the excession of the proteolysis.

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Pituitary adenylate cyclase-activating polypeptide (PACAP) which belongs to the secretin/glucagon/ VIP family has been originally isolated from the sheep hypothalamus on the basis of its ability to stimulate cAMP formation in culture rat anterior pituitary cells. Post-translational processing of the PACAP precursor generates two biologically active molecular forms, PACAP-38 and PACAP-27. The primary structure of PACAP has been remarkably conserved during evolution. The sequence of PACAP-27 exhibits substantial similarities with those of vasoactive intestinal polypeptide (VIP), glucagon and secretin. The gene encoding the PACAP precursor is widely expressed in brain and various peripheral organs, notably in endocrine glands, gastro-intestinal, urogenital tracts and respiratory system. In vivo, and in vitro studies have shown that PACAP exhibits multiple activities especially a trophic activity during ontogenesis, notably in the adrenal medulla and the central nervous system. The biological effects of PACAP are mediated through three distinct receptor subtypes which exhibit differential affinities for PACAP and VIP. The PAC1 receptor, which shows high selectivity for PACAP, is coupled to several transduction systems. In contrast, VPAC1 and VPAC2, which bind with the same affinity for PACAP and VIP, are mainly coupled to the adenylyl cyclase pathway. In conclusion, PACAP is neuropeptide, and it functions as a hypothalamic hormone, neurohormone, neuromodulator, vasodilator, neurotransmitter or trophic factor in the brain and the various organs.

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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。

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对Egonol龙胆三糖苷及以Egonol衍生物对雌二醇生成活性及其相关机制进行了研究。发现Egonol龙胆三糖苷促雌二醇最高生成率在MCF-7、HepG2、ROS1728中分别为157% 、182.4%、226.8%(以空白组200μg/ml睾酮转换成E2值作为100%生成率)。活性的强弱可能与芳香化酶的组织特异性表达情况一致,说明Egonol龙胆三糖苷促雌二醇活性可能与芳香化酶有关。芳香化酶的组织特异性表达与特异性启动子有关系,Egonol龙胆三糖苷在各组织中皆有促雌二醇活性,说明该化合物不是通过调节该酶的基因表达而起作用。 在探究Egonol龙胆三糖苷及其衍生物是否介导cAMP-PKA途径从而影响芳香化酶的表达中,发现该系列化合物在HEK-293T细胞中对cAMP的影响非常弱小。在人HepG2细胞中显示了极强的提高cAMP的作用。而化合物对cAMP的作用与其促雌二醇活性强弱不呈正相关关系,对c AMP-PKA途径的激活可能与胞内雌激素有关。 Egonol龙胆三糖苷及其衍生物对HepG2细胞增殖影响显示,该系列化合物同雌二醇一样有相似的较弱促HepG2细胞增殖作用。而且存在一定剂量依赖性。在瞬时转染有ERE(雌激素作用元件)的HepG2中,Egonol龙胆三糖苷及其衍生物也显示了类似于雌二醇与ERE结合的作用,进一步提示Egonol龙胆三糖苷及其衍生物在HepG2细胞中具备雌激素样作用。 为研究Egonol龙胆三糖苷及其衍生物是否可能直接提高芳香化酶的活性,我们计划将芳香化酶从芳香化酶阳性细胞中克隆后表达到芳香化酶阴性的细胞中。在MCF-7细胞中以Oligo dT为引物合成的cDNA模板,和在ROS1728细胞中以Oligo dT及大鼠引物F链为引物合成的cDNA模板能成功扩增出与芳香化酶全长编码序列大小一致的片段。 Egonol衍生物在HepG2、ROS1728细胞中促雌二醇活性的实验表明,Egonol苯环上引入其它基团可以提高Egonol的活性。 从雌激素经典的基因组效应和非基因组效应两方面对雌激素信号转导研究进展进行了简单的综述。 The promoting effects of egonol gentiotrioside and egonol derivatives on the synthesis of estrogen E2 were studied. In vitro test, egonol gentiotrioside promoted the synthesis of estrogen E2 in MCF-7, HepG2,ROS1728 cell lines with mean yields of estrogen E2 57%,82.4% and 126.8%, higher than those of blank control at a concentration of 100 mg/ml. The difference of estrogen E2 synthesis promoting effects among the cell lines suggested tissue specificity. It is in accordance with tissue specific character of aromatase expression. The evidence implied that effect of egonol gentiotrioside on promoting the synthesis of estrogen E2 was related to the aromatase. Different expression levels of aromatase in different tissues are attributed to their specific promoters, but egonol gentiotrioside can promote the synthesis of estrogen E2, in many tissues,so the fact is controversary to the estimation that this compound regulates the aromatase on gene level. In order to investigate whether egonol gentiotrioside and its synthetic derivatives regulates aromatase activity through the cAMP-PKA signal pathway,we transfected the p CRE-Luc luciferase reporter gene into the HEK-293T cells and HepG2 cells. These compounds had weak activity in promoting the cAMP activity in HEK-293T cells but strong in HepG2 cells.The compounds’effect of promoting the cAMP may be related to their estrogenic activity in cells. The modified HepG2 cell proliferation assay was used to evaluate the estrogenic activity of egonol gentiotrioside and its derivatives. The weak estrogenic activity of egonol gentiotrioside and its derivatives at various concentrations expressed as proliferative effect relative to that of blank control was examined. We transfected the pERE-Luc luciferase reporter gene into the HepG2 cells. These compounds possessed significant activity on estrogen response element compared with the one treated with 10 n M estrogen E2. This evidence indicated that the estrogenic activity of egonol gentiotrioside and its derivatives. In order to investigate whether the egonol gentiotrioside and its derivatives can upregulate the activity of aromatase directly, The full-length of P450 aromatase cDNA encoding aromatase were amplified by using primer Oligo dT in MCF-7,and specific primer in ROS1728,respectively. The structure-activity relationship of Egonol in promoting the synthesis of E2 in HepG2 and ROS1728 cells indicated that introduction of some group on the basic sketon of egonol could improve the effect. The progress in research of signal pathway of estrogen in recent years was summarized.

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重复使用吗啡将导致吗啡成瘾,其主要表现如依赖、耐受、敏感化以及吗啡停用后的戒断反应。其核心特征是强迫性吗啡使用:即成瘾者失去了对药物寻觅和摄取的控制。药物成瘾是一个复杂的生物学过程,近年来的研究表明学习记忆参与药物成瘾过程。学习记忆和药物成瘾都受到相似的神经营养因子,递质释放与转运的调控,它们都受到cAMP,CREB等调控因子的调控。研究发现在与成瘾相关的线索,如用药有关的人物、地点或暗示等,都可能恢复觅药和用药行为。当把成瘾相关的线索呈现给戒断中的人时,可以发现这些人表现异常,如心率、呼吸加快,血压升高,并表现明显的渴求行为,前额叶在这种线索导致的渴求行为中起重要作用。以前的研究证实条件化位置偏好(conditioned place preference,CPP)是一个很好的模型来研究环境线索在成瘾中作用,可以用来分析检测成瘾行为。因此,在实验一、二中,采用CPP模型来研究吗啡相关的学习记忆与胆碱系统,以及蛋白质合成的关系;实验三研究了前额叶和海马在吗啡成瘾和戒断过程中谷氨酸(GLU)和γ-氨基丁酸(γ-GABA)含量的变化。 (1):学习和记忆依赖于多种递质的共同作用,不同的递质在不同的学习记忆中的作用也不一样。大量的研究表明胆碱系统在学习记忆中起重要作用,胆碱系统抑制剂可以导致学习记忆障碍。在本实验中,我们研究东莨菪碱(经典的抗胆碱能药物,影响记忆的获取过程)对吗啡以及食物相关的线索的记忆的影响,研究抑制胆碱系统对这两种线索相关的奖赏性学习记忆的影响。采用腹腔注射东莨菪碱,三个不同的剂量(0.5、1、2mg/kg),在给吗啡(40 mg/kg)或者食物之前30分钟给东莨菪碱,连续给药4天。结果显示,除了0.5 mg/kg的东莨菪碱不能抑制食物导致的CPP外,其他剂量的东莨菪碱都明显抑制食物导致CPP。但是东莨菪碱并不能抑制吗啡导致的CPP,而且,2.0 mg/kg东莨菪碱强化了吗啡线索相关的学习记忆。这种结果表明吗啡导致的奖赏性学习和普通的普通记忆存在不同的机制。 (2):记忆的形成需要蛋白质的合成,特别是长时程记忆。在记忆形成的不同阶段,蛋白质的合成对记忆的影响不一样,在学习前后较短的时间内给蛋白质合成抑制剂可以有效的抑制长时程记忆的形成。学习记忆参与吗啡成瘾过程,那么抑制蛋白质的合成是否也能抑制吗啡成瘾相关的学习记忆呢?本实验中,采用环己酰亚胺(蛋白质合成抑制剂,抑制记忆的巩固)来研究抑制蛋白质合成对吗啡线索相关的学习记忆的影响。腹腔给环己酰亚胺,剂量30mg/kg,给药时间为给吗啡前30分钟,同时,后30分钟以及后2小时。实验发现在给吗啡前后30分钟内给环己酰亚胺可以削弱对吗啡相关的线索的记忆,但是不能完全抑制这种记忆的形成,而且在吗啡后两小时给环己酰亚胺基本上对这种记忆没有抑制作用。这种结果表明吗啡相关的联合型学习记忆的形成并不完全依赖于蛋白质的合成,脑内还存在其他的途径来参与这种记忆过程。 (3):GLU和GABA参与许多学习记忆过程,同样它们在吗啡成瘾过程中也起重要的作用。前额叶和海马在记忆中都起到重要的作用,而且它们在成瘾记忆中也扮演重要角色。那么在成瘾及戒断过程中,前额叶和海马中GLU和GABA会有什么变化呢?本实验利用高效液相色谱-紫外分析法分析在吗啡成瘾及戒断过程中前额叶和海马中总GLU和GABA的动态变化。实验发现在吗啡成瘾及戒断过程中,GABA和GLU在前额叶和海马中的总含量都没有显著的变化,尽管在给药和戒断中,这两种递质都下调然后逐渐上升,但是跟对照组比较都不显著。但是比较吗啡组之间的变化,可以看出前额叶GLU在给药及戒断过程中有比较显著的变化。该结果提示在吗啡成瘾和戒断过程中,GLU和GABA的总量并没有发生显著的改变。结合前人的研究我们认为,这两种递质在成瘾和戒断过程中,它们的合成,释放以及在突触间的转运等各个环节都受到影响,从而参与吗啡成瘾。

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一、 药物滥用是一种慢性、复发性脑疾病。药物滥用将导致药物成瘾(addiction),其主要表现有药物依赖、药物耐受、药物敏感化以及药物停用后的戒断症状(withdraw symptom)。药物成瘾的核心特征是强迫性觅药和用药行为。药物成瘾会导致药物滥用者认知功能的损伤和认知偏差,并会造成滥用者情绪异常。药物成瘾是一个复杂的生物学过程,有着及其复杂的机理。对药物成瘾机制的解释有很多种,主要认为成瘾过程是一种学习记忆过程,学习记忆的机制在药物成瘾过程中起到了非常重要的作用。首先,学习记忆和药物成瘾过程都受到了相似的神经营养因子以及神经递质系统的调控,例如:它们都受cAMP,CREB等调控因子的调控。其次,研究发现与成瘾相关的线索,如用药有关的人物、地点或暗示等,在药物戒断很长时间后都会恢复吸毒者的用药行为。并且,当把与成瘾相关的线索呈现给毒品戒断中的人时,这些人会出现心率、呼吸加快,血压升高等现象,甚至表现出明显的渴求行为。药物对学习记忆的影响是复杂的,虽然重复使用药物会导致药物成瘾,并且这个过程需要学习记忆机制的参与,但同时使用吗啡却会对其他类型的学习记忆(如:恐惧性学习记忆、一次性被动回避学习记忆和水迷宫空间学习记忆)造成破坏。学习前给予吗啡可以剂量及状态依赖地破坏被动回避试验以及空间辨别试验的记忆获取过程。学习过程结束后立即给予吗啡可以破坏一次性被动回避试验、主动回避试验和恐惧条件化试验的记忆巩固过程。测试前给予吗啡可以破坏空间辨别试验的记忆提取过程。本研究的目的在于更进一步地了解使用吗啡导致吗啡成瘾以及使用吗啡导致学习记忆的各个阶段受损的机制。为此我们采用了药理学以及多种行为学的方法,1、用PTZ诱发的癫痫持续状态干扰吗啡成瘾的学习记忆过程,进一步比较了吗啡成瘾的学习记忆与其他学习记忆,例如:空间学习记忆以及食物奖赏学习记忆的机制有何异同;2、研究了β-肾上腺素系统与阿片系统在空间记忆巩固过程中的相互作用;3、我们还研究了NMDA受体的激动剂和拮抗剂在吗啡破坏空间记忆提取过程中的作用。研究结果发现: 1.戊四唑诱发的癫痫持续状态,对吗啡建立的条件化位置偏好没有任何影响,动物仍然对阳性箱(吗啡匹配箱)表现出明显的偏好。但是癫痫持续状态破坏了食物建立的条件化位置偏好,并且还破坏了水迷宫和Y迷宫检测的空间记忆。癫痫持续状态破坏了食物建立的条件化位置偏好,原因不是由于其影响了动物的食欲。此外,癫痫持续状态也没有持续地破坏动物的活动能力,因此,对动物活动量的影响也不是造成其他学习记忆破坏的原因。这些结果说明,吗啡成瘾的学习记忆和普通的学习记忆在机制上可能存在不同之处。为了说明这个问题,我们还需要进行其他更深入的研究。 2、训练后立即单独注射吗啡(0.25和2.5 mg/kg)或心得安(2,10和20 mg/kg)都不会破坏动物Y-迷宫空间记忆的巩固过程,动物仍然能识别新异环境,并在里面停留较长时间。但是,训练后同时注射吗啡和心得安却可以破坏动物空间记忆的巩固过程。并且,较高剂量的吗啡(2.5 mg/kg)加上较高剂量的心得安(10和20 mg/kg)对记忆的破坏更严重,实验组动物在新异环境停留的时间显著低于对照组。这说明阿片系统和去甲肾上腺素系统在破坏记忆巩固的过程中可能有协同作用。 3、记忆提取前30分钟注射吗啡(1和10 mg/kg)可以剂量依赖地破坏Y-迷宫空间记忆的提取。单独注射NMDA受体的激动剂NMDA(1,2和4 mg/kg)对动物的空间记忆提取没有影响,但是,单独注射NMDA受体拮抗剂MK-801(0.05,0.1和0.2 mg/kg)剂量依赖地破坏了空间记忆的提取。同时注射吗啡(10 mg/kg)和NMDA(2 mg/kg)可以阻断吗啡对空间记忆造成的破坏作用。相反,共同注射吗啡(1 mg/kg)和MK-801(0.05 mg/kg)可以加重吗啡对空间记忆造成的破坏作用。这说明谷氨酸系统可以干扰吗啡对记忆提取过程的影响。 二、衰老严重地影响了人们的视觉功能,然而眼睛光学系统的老年性改变并不能完全解释清楚这种视觉功能衰退。一般认为是神经系统的退化导致了这种老年性功能降低。但是,研究显示视网膜(retina)和外膝体(dorsal lateral geniculate nucleus, dLGN)在衰老的过程中神经元的数量和体积以及神经元的功能特性,如对比度敏感性、空间分辨率等,都没有明显的变化,因此,人们推测老化导致的神经系统的变化发生在更高级的视觉皮层。过去几年的研究发现老年动物视觉皮层细胞发生了一系列反应特性的改变,如:老年动物皮层细胞的方向选择性和方位选择性降低以及细胞反应的潜伏期延长。这些细胞水平的变化被认为是老年性视觉功能衰退的神经机制。为了更全面地了解衰老过程对视觉皮层的影响以及细胞反应改变与整体功能降低之间的关系,本研究采用活体动物细胞外单位记录的方法,比较了青年和老年猕猴初级视觉皮层细胞时间反应特性和空间反应特性的差异。研究结果发现:老年动物初级视觉皮层细胞的时间频率和空间频率敏感性明显比年轻动物降低。表现为老年动物初级视觉皮层细胞的最优时间和空间频率、空间分辨率(spatial resolution, SR)和较高时间截至频率(high temporal frequency cut-off, TF50)都显著低于年轻动物初级视觉皮层细胞,同时伴随着这些功能的降低,老年动物初级视觉皮层细胞的自发放增加,对视觉刺激的反应增加,但是信噪比却显著降低。这些结果表明,老年动物初级视觉皮层细胞的功能在老化过程中都普遍降低。这可能是导致老年人视觉功能降低的原因。

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In this paper, a microarray-based surface-enhanced Raman spectroscopic (SERS) assay for detection of kinase functionality and inhibition has been reported. Biotinylated anti-phosphoserinen antibodies mark the phosphorylation and inhibition events and gold nanoparticles are attached to the antibodies by standard avidin-biotin chemistry, followed by silver deposition for SERS signal enhancement. The avidin conjugated fluorescein is used as SERS probe. The alpha-catalytic subunit of cyclic adenosine 5'-monophosphate (cAMP) dependent protein kinase (PKA), its well known substrate, kemptide, and three inhibitors, H89, HA1077, and KN62 have been chosen here to establish the SERS assay. As expected, highly selective inhibition of PKA is demonstrated with the inhibitor H89 and the inhibition assay enable to detect kinase inhibition as well as derive IC50 (half maximal inhibitory concentration) plots.

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The present work revealed that the praseodymium( II ) complex of 2-carboxyethylgermanium sesquioxide (Ge-132) promotes the hydrolysis of the phosphodiester linkages of 3',5'-cyclic adenosine monophosphate (cAMP), 3' , 5'-cyclic deoxyadenosine monophosphate (dcAMP), 5'-adenosine monophosphate(5'-AMP) and 5'-deoxyadenosine monophosphate (5'-dAMP) under mild conditions. Both cAMP and dcAMP were hydrolyzed site-specifically, yielding predominantly 3'-monophosphates, the main products of the cleavage of 5'-AMP and 5'-dAMP included adenosine (Ado). deoxyadenosine (dAdo) and free phosphates respectively. A hydrolytic mechanism was proposed for cAMP, dcAMP, 5'-AMP and 5'-dAMP.

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Lutetium(III) and lanthanum(III) complexes of 2-carboxyethylgermanium sesquioxide (Ge-132) can hydrolyze the phosphodiester linkage of 3',5'-cyclic adenosine monophosphate (cAMP), 3',5'-cyclic deoxyadenosine monophosphate (dcAMP) and 2',3'-cyclic adenosine monophosphate (2',3'-cAMP). Both cAMP and dcAMP are hydrolyzed with high selectivity, yielding predominantly 3'-monophosphates. 2',3'-cAMP is converted to 3'-AMP and 2'-AMP, the ratio of 3'-AMP to 2'-AMP produced being 1.4.

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In recent years there has been a resurgence of interest in inhibitors of cyclic nucleotide phosphodiesterases (PDE) and enzymes responsible for the intracellular hydrolysis of the second messenger cAMP and cGMP. In this study, a series of 2-substituted phenyllimidazo[4,5-b]pyridines have been made to investigate 3D-QSAR of PDE activity using CoMFA. CoMFA resulted in a quantitative description of the major steric and electrostatic field effects, and gave significant new insights to factors governing PDE inhibition activity. The model was used to predict the PDE inhibition activity of imidazopyridines with satisfactory results.