青蒿素经PI3K/Akt通路改善突触可塑性减轻糖尿病小鼠认知障碍

目的 本研究旨在阐明青蒿素对II型糖尿病（T2DM）小鼠认知功能障碍的改善作用及其机制。方法 C57BL/6J小鼠单次腹腔注射STZ（100 mg/kg）后联合高脂饲料喂养建立T2DM模型。T2DM小鼠随后腹腔注射青蒿素（40 mg/kg/d）或等体积溶剂。干预4周后，新物体识别、Y迷宫和Morris水迷宫实验检测小鼠的学习和记忆能力。蛋白质印迹法（Western blot）检测海马PI3K、Akt、磷酸化Akt、SYN和PSD-95蛋白的表达。透射电镜观察海马CA1区突触密度和突触超微结构改变。结果 与模型组相比，青蒿素干预组T2DM小鼠的认知功能显著改善，海马中PI3K和磷酸化Akt水平升高，SYN和PSD-95蛋白表达增加，CA1区神经元丢失减少。此外，青蒿素干预组小鼠CA1区的突触密度、PSD-95和突触界面曲率增加，突触间隙宽度减小。结论 青蒿素可能通过激活海马PI3K/Akt途径增强突触可塑性，从而减轻T2DM小鼠认知功能障碍；青蒿素有望成为治疗糖尿病性认知功能障碍的新型药物。     

Gas7在大鼠海马和齿状回发育过程中的动态表达

目的研究生长休止蛋白7（Gas7）在大鼠海马和齿状回不同发育阶段的表达。方法采用免疫组织化学方法观察Gas7在SD大鼠胚胎第18d（E18）、新生（P0）、生后第7d（P7）、P14、P21和成年海马和齿状回中的表达和分布。结果在大鼠脑海马和齿状回部位的冠状切片上,Gas7免疫反应阳性产物主要表达在海马的锥体细胞、齿状回的颗粒细胞和门区的多形层细胞。随着发育的进程,在海马,Gas7较早表达在CA3区,其次是CA2和CA1区;在齿状回,Gas7在外臂的表达早于内臂,在颗粒细胞层的表达是按先外层后内层的顺序。在围生期,Gas7在海马和齿状回各区的表达逐渐增强,至P14达到高峰,后逐渐降低,至P21其表达强度和分布趋于恒定至成年水平。结论 Gas7在大鼠海马和齿状回发育过程中的动态表达具有时间和空间上的特异性,提示Gas7可能参与了海马和齿状回形态形成和功能成熟的调控。     

永久性局灶性中动脉阻断脑缺血（pMCAO）模型大鼠脑内突触相关蛋白表达的免疫组织化学观察

目的观察永久性局灶性中动脉阻断脑缺血（pMCAO）模型大鼠脑缺血发作后2 d、7 d脑内突触相关蛋白表达的变化。方法制作大鼠永久性局灶性中动脉阻断脑缺血（pMCAO）模型。缺血动物术后随机分为缺血2 d组、缺血7 d组,另设假手术组。在术后2 d、7 d 2个时间点采用HE染色观察动物神经病理学改变,同时采用免疫组织化学法观察动物的缺血侧脑组织突触素-I（synapsin-I）、突触后致密蛋白95（PSD-95）、α-突触核蛋白（α-synuclein）表达情况。结果与假手术组相比,缺血后,模型动物神经元大量变性坏死,数目减少,排列散乱。缺血后2 d,synapsin-I在CA1区、CA3区、皮层表达显著减少（P〈0.05或P〈0.01）,PSD-95在CA1区、皮层表达显著减少（P〈0.05或P〈0.01）,α-synuclein在CA1区神经元产生显著积聚（P〈0.01）;缺血后7 d,synapsin-I在CA1区、皮层表达仍显著降低（P〈0.01）,PSD-95在CA1区、皮层表达显著减少（P〈0.05或P〈0.01）,α-synuclein在CA1、CA3、皮层表达显著增加（P〈0.05或P〈0.01）。结论 pMCAO模型大鼠在脑缺血发生后,神经突触有关蛋白的表达显著改变,并随缺血后不同时间点表达情况不同,这可能与神经元突触重塑有关。突触相关蛋白的表达与缺血损伤程度密切相关。     

锌及锌转运蛋白ZnT3在小鼠海马苔藓纤维的一致性分布

目的 研究游离锌离子和锌转运蛋白ZnT3在小鼠海马的定位以及二的分布是否具有一致性。方法 应用锌TSQ荧光技术、锌金属自显影技术检测含锌神经元内的游离锌离子;应用免疫电镜技术检测ZnT3在含锌神经元轴突终末的分布。结果 游离锌离子和ZnT3免疫反应产物的分布在海马苔藓纤维内的分布具有一致性。在齿状回和CA3区的苔藓纤维内,锌和ZnT3蛋白定位于轴突终末的突触小泡。富含锌离子的含锌神经元轴突终末与CA3区锥体细胞的胞体和树突形成突触。尚可见锌离子存在于突触间隙内。结论 ZnT3向突触小泡内转运锌离子使锌离子聚积在含锌神经元轴突终末的突触小泡内,发挥锌离子的神经生物学功能。     

锁阳乙酸乙酯提取物改善慢性应激小鼠认知功能障碍的神经保护机制

本实验以去卵巢后慢性应激模型,探究锁阳乙酸乙酯提取物(ECS)改善慢性应激小鼠认知功能障碍的神经保护机制。采用Morris水迷宫检测小鼠空间学习记忆能力,Western Blot检测海马组织突触蛋白中突触囊泡蛋白(synaptophysin,Syn)和突触后致密物(Postsynaptic density protein 95,PSD-95)表达量,通过海马组织形态学改变进一步证明ECS的神经保护作用。Morris水迷宫结果显示雌鼠锁阳乙酸乙酯组穿越平台次数增加(P0.01)。Western Blot结果显示,ECS可增加Syn(P0.05)与PSD-95(P0.05)蛋白表达量。HE染色结果显示ECS可减轻海马神经元损伤,改善海马CA1区锥体细胞形态。结果表明ECS能够增加去势后慢性应激小鼠突触蛋白中Syn与PSD-95的表达量,保护海马神经元,改善慢性应激所致学习记忆障碍。     

牦牛海马的形态特征及成体神经发生的初探

采用传统H.E 染色和Golgi-Cox 染色方法观察成年牦牛海马结构的形态和细胞构筑,并通过DCX - DAB免疫组化染色和DCX/ NeuN、GFAP / NeuN 双重免疫荧光标记等技术观察齿状回颗粒下层中的新生神经元和放射状胶质细胞。结果表明,牦牛海马结构主要包括齿状回和海马本部,二者分层清晰。海马的主要细胞为颗粒细胞、苔藓细胞和锥体细胞。CA3 区的锥体细胞胞体较CA1 区的大,但其顶树突的平均长度较短。CA1 区的锥体细胞明显分为两层,而CA3 区的则为一层。DCX 阳性细胞的胞体主要集中在齿状回颗粒下层靠近门区处,沿颗粒层内侧单个或少数聚集分布。沿齿状回颗粒下层分布着一层GFAP 阳性的放射状胶质细胞样细胞,其胞质和单极性的细长突起均呈GFAP 阳性,而胞核为阴性。在整个海马结构中均有大量星形GFAP 阳性细胞散在分布,特别是海马分子层和门区内靠近颗粒层部分的密度较其它部位大。牦牛海马的形态结构与绵羊的相似,而与大鼠、小鼠、家猫、兔子等小型哺乳动物有一定差别。两种DCX 免疫组化实验结果表明在牦牛海马中存在着新生神经元。GFAP 免疫荧光标记表明,牦牛海马结构中分布有星形胶质细胞;特别是放射状胶质细胞。     

微管相关蛋白tau在不同年龄大鼠海马内的定位分布特点

目的 检测微管相关蛋白tau和Ser396/404位点磷酸化tau在胚胎期大鼠和出生后直至成熟期大鼠海马内的表达及变化规律,浅析与神经细胞分裂和分化的关系.方法 用免疫组织化学SABC法显示孕18d、出生后1d、1w、2w、2m的大鼠脑冠状切面总tau（R134d）、Ser396/404位点磷酸化tau（PHF-1）的表达.结果 ①胚胎期大鼠海马CA区的锥体细胞数量明显多于出生后,随着脑的发育,锥体细胞层的神经细胞数量逐渐下降;②孕18d大鼠海马内有丰富的总tau和PHF-1 tau的表达,并且海马内各区的阳性物质表达均匀,生后1d和1w两种物质表达仍然很强,阳性产物主要分布在海马CA1和CA2区以锥体细胞轴突为主要成分的始层,在锥体细胞树突集中的分子层和胞核内也有少量分布,而在生后2w和2m大鼠海马内各区均未见密集的阳性产物表达.结论 不同年龄大鼠海马内总tau和PHF-1 tau的表达和分布变化可能与神经系统发育过程中细胞的分裂和分化有关.     

戊四氮点燃癫痫大鼠空间学习记忆改变及海马突触素、突触后致密物PSD-95表达的变化

目的探讨戊四氮点燃癫痫对大鼠空间学习记忆的影响及可能的分子机制。方法戊四氮(pentylenetet-razol,PTZ)点燃建立慢性癫痫(chronic epileptic,CEP)模型,Morris水迷宫进行行为学检测,免疫组织化学方法观察大鼠海马CA1、CA3区突触素(synaptophysin,P38)和突触后致密物95(postsynaptic density 95,PSD-95)的表达,并用计算机图像分析系统对免疫反应结果进行处理。结果水迷宫试验检测癫痫组大鼠空间学习记忆能力受损;免疫组化结果表明其海马CA1、CA3区P38和PSD-95免疫反应产物较对照组明显减少(P<0.01,P<0.05)。结论戊四氮点燃癫痫大鼠伴有学习记忆功能减退,其海马神经元P38和PSD-95的表达减少可能参与了空间学习记忆受损。     

在体大鼠海马CA1区侧枝/联合纤维通路和TA通路的不同EPSP空间整合特性

在麻醉Wistar大鼠上,结合脑室给药,应用双电极刺激技术刺激海马独立的两条侧枝／联合纤维通路、TA通路,并在CA1区放射层记录兴奋性突触后电位（EPSP）,对海马CA1区锥体细胞近、远端树突EPSP的空间整合进行了初步探讨。结果表明,海马CA1区锥体细胞近、远端树突的空间整合都是亚线性的;近端树突的空间整合不受期望值大小的影响,但远端树突的空间整合随期望值增加而减小（更趋于亚线性）。此外,荷包牡丹碱没有影响EPSP的空间整合;但瞬时A型钾通道（IAK^＋）的拮抗剂氨基吡啶-4却使得近端树突的空间整合趋于线性发展。本研究表明,海马CA1锥体细胞近、远端树突不同的被动、主动特征使它们具有了不同的空间整合特性。由于近端树突接受海马内部侧枝／联合纤维投射的信息,远端树突通过TA通路接受内嗅皮层投射的信息,由此提示,CA1区锥体细胞对来自海马内部和直接来自皮层的信息输入采用了不同的整合方式。     

大鼠海马移植物内神经元与CA能纤维之间突触联系的研究

将胎龄为１７ｄ的大鼠胚胎海马（移植物）移植到同种成年大鼠（宿主）腹海马，９０ｄ后，用ＴＨ免疫细胞化学方法对海马移植物内神经元与儿茶酚胺（ｃａｔｅｃｈｏｌａｍｉｎｅ ＣＡ）能纤维之间的突触联系进行上观察。免疫组织化学显示，宿主海马内有大量ＴＨ免疫反应纤维。这些纤维是直径为０．５－１μｍ的细纤维。它们的分布密度是，齿回门区和ＣＡ３区透明层内较密集，分子层次之，锥体细胞层和颗粒细胞层内较稀疏。在移植物的     

Altered interaction between PSD-95 and the NMDA receptor following transient global ischemia

The postsynaptic density (PSD) is a cytoskeletal specialization involved in the anchoring of neurotransmitter receptors and in regulating the response of postsynaptic neurons to synaptic stimulation. The postsynaptic protein PSD-95 binds to NMDA receptor subunits NR2A and NR2B and to signaling molecules such as neuronal nitric oxide synthase and p135synGAP. We investigated the effects of transient cerebral ischemia on protein interactions involving PSD-95 and the NMDA receptor in the rat hippocampus. Ischemia followed by reperfusion resulted in a decrease in the solubility of the NMDA receptor and PSD-95 in 1% sodium deoxycholate, the decrease being greater in the vulnerable CA1 hippocampal subfield than in the less sensitive CA3/dentate gyrus regions. Solubilization of the kainic acid receptor GluR6/7 and the PSD-95 binding proteins, neuronal nitric oxide synthase and p135synGAP, also decreased following ischemia. The association between PSD-95 and NR2A and NR2B, as indicated by coimmunoprecipitation, was less in postischemic samples than in sham-operated controls. Ischemia also resulted in a decrease in the size of protein complexes containing PSD-95, but had only a small effect on the size distribution of complexes containing the NMDA receptor. The results indicate that molecular interactions involving PSD-95 and the NMDA receptor are modified by an ischemic challenge.     

Activation of pyramidal neurons by intrinsic longitudinal connections in the hippocampus

In the guinea pig, EPSPs and population spikes were found to be generated in the apical dendrites of pyramidal neurons of middle and ventral hippocampus, in response to dorsal hippocampal commissure (PSD) stimulation, without any involvement of dentate gyrus granule cells of corresponding segments. These long-latency synaptic effects were evoked only by repetitive (0.2-2.0 c/sec) PSD stimulation and showed increasing latency in ventral direction. A cross section between dorsal and middle hippocampus was followed by the disappearance of the responses ventrally to the section. The results show that the postsynaptic discharge of dorsal pyramidal neurons is transferred to more ventral hippocampal segments by an intrahippocampal longitudinal association system.     

Cre-mediated cerebellum- and hippocampus-restricted gene mutation in mouse brain

Using the phage P1-derived Cre/loxP recombination system, we have created a line of cre-transgenic mice in which the Cre-mediated gene deletion is restricted to granule cells of cerebellum and dentate gyrus of hippocampus. Low levels of deletion were also present in pyramidal cells of hippocampal CA1 and CA3 fields. The Cre/loxP recombination occurred prenatally. The recombination efficiencies in the granular layer of the cerebellum, the granular layer of the dentate gyrus, and the CA1 and CA3 pyramidal cells of the hippocampus were 34.0%, 23.1%, 3.0%, and 9.8%, respectively. This line of cre-transgenic mice should be conducive to studies of the effect of a gene mutation upon brain development and plasticity.     

AVP_（4－8）结合点在大鼠海马内的分布和AVP_（4－8）对其受体发育的影响：放射自显影研究

本文利用放射自显影方法结合神经毒对海马神经元的选择性损毁观察ＡＶＰ（４－８）结合点在大鼠海马内的分布和定位;利用外源性ＡＶＰ（４－８）对新生大鼠的处理,观察海马ＡＶＰ（４－８）结合点的发育调节。在成年大鼠海马内,ＡＶＰ（４－８）结合点集中分布在整个海马的锥体细胞层和齿回的颗粒细胞层。秋水仙碱处理后,齿回颗粒细胞层消失,齿回区的ＡＶＰ（４－８）结合点也消失。红藻氨酸（Ｋａｉｎｉｃａｃｉｄ）处理后海马ＣＡ３－ＣＡ４的锥体细胞层消失,该区的ＡＶＰ（４－８）结合点也消失。新生大鼠海马锥体细胞层的ＡＶＰ（４－８）结合点在出生后第６天开始出现,齿回颗粒细胞层的ＡＶＰ（４－８）结合点在出生后第７天开始出现。然而,新生大鼠每天经外源性ＡＶＰ（４－８）处理,海马锥体细胞层和齿回颗粒细胞层的结合点均在出生后第５天已变得十分稠密。本文就大鼠海马ＡＶＰ（４－８）结合点的特异性分布和ＡＶＰ（４－８）处理促进海马ＡＶＰ（４－８）结合点的发育与成年后大鼠学习能力的提高的相互关系作了讨论。     

Age-Related Changes in Expression of Hippocalcin and NVP2 in Rat Brain

Expression of hippocalcin and neural visinin-like calcium-binding protein 2 (NVP2) in aging rat brain was investigated by immunoblot and immunohistochemical analyses. In 3-month old rats, hippocalcin and NVP2 were present at high concentrations in hippocampal and cerebral pyramidal cells and dentate granule cells, with hippocalcin protein levels being five to ten times higher than NVP2 levels. Hippocalcin levels in hippocampus and cerebral cortex decreased by approximately 20% at 24 months. While the number of hippocalcin-positive cells in CA3, dentate gyrus and cerebral cortex were preserved, staining intensity decreased. In contrast, the number and staining intensity of hippocalcin-positive cells in CA1 were maintained. NVP2 levels in hippocampus and cerebral cortex decreased by approximately 30% at 24 months. In cerebral cortex, the number and intensity of NVP2-positive cells decreased. In CA1 through CA3 and in dentate gyrus, NVP2-positive cell numbers were preserved, but staining intensity decreased. In summary, the loss of hippocalcin and NVP2 in aging rat brain may be associated with age-related impairment of postsynaptic functions.     

A study on co-localization of FSH and its receptor in rat hippocampus

It has been known that GnRH, LH and their receptors exist in hippocampal neurons. However, whether FSH and its receptor also exist in hippocampal neurons remained unknown yet. In situ hybridization, double-labeled immunofluorescence stain and double-labeled immunohistochemistry stain in adjacent sections were used in our research to study the distribution, co-localization of FSH and its receptor and co-localization of FSH and GnRH receptor in rat hippocampus. The result found that pyramidal neurons from CA1 to CA4 region and granule neurons in dentate gyrus could express FSH and its receptor, majority of hippocampal neurons co-expressed FSH and its receptor, FSH and GnRH receptor. These suggested that hippocampal neurons not only express FSH but also act as FSH target cells. FSH may regulate the function of hippocampal neurons by ways of paracrine or autocrine. At the same time, GnRH may regulate the function of FSH neuron in hippocampus through GnRH receptor.     

Increased Dynamin-1 and -2 Protein Expression in the Aged Gerbil Hippocampus

Dynamin (DNM) plays roles in membrane dynamics, vesicle formation, and transport. In the present study, we compared DNM-1 and DNM-2 protein expressions between the adult (postnatal month 6) and aged (postnatal month 24) gerbil hippocampus using immunohistochemistry and western blot analysis. DNM-1 and DNM-2 immunoreactivities were primarily observed in hippocampal principal neurons: pyramidal cells in the hippocampus proper (CA1–CA3) and granule cells in the dentate gyrus. DNM-1 and DNM-2 immunoreactivities in principal neurons were significantly increased in the aged group compared with the adult group. In addition, DNM-1 and DNM-2 protein levels as well as phospho-DNM-1 level were significantly increased in the aged group. These results indicate that the increases of DNM-1 and DNM-2 protein expressions may reflect the age-related changes in hippocampal function.