利用激光扫描共聚焦显微镜研究视皮层脑片长时程增强过程中？…

本文使用１５－２０天龄幼年大鼠视皮层脑片的标本,在通氧状态下,用荧光探针ＡＯ染色,激光扫描共聚焦显微镜对全脑片不同层面进行共聚焦断层扫描,沿纵轴每２０μｍ扫一次,共扫描１６次。再利用总值方式的投影算法对其三维重建,分析幼年大鼠视皮层脑片长时程增强过程中核酸的变化。     

激光共聚焦扫描观察脑片及其神经元内RNA与DNA变化的技术

本研究采用双重染料Ａｃｒｉｄｉｎｅ Ｏｒａｎｇｅ（ＡＯ）对常规长时程增强（ＬＴＰ）电生理实验后的视皮层脑片进行荧光标记,并应用激光共聚焦扫描显微镜（ｃｏｎｆｏｃａｌ ｌａｓｅｒ ｓｃａｎｎｉｎｇ ｍｉｃｒｏｓｃｏｐｅ,ＣＬＳＭ）,测定ＬＴＰ形成过程中脑片局部ＲＮＡ和ＤＮＡ的变化。结果表明：长明程增强的诱导期与维持期脑片空白对照组比较,视皮层ＯＣ１区局部ＲＮＡ显著增高。此外,本研究还对使用激光扫描共     

幼年大鼠视皮层神经元对闪光刺激的反应特性

哺乳动物视觉系统的发育延续到出生后,大鼠出生后 3~5 周是视觉系统发育的关键期 . 在关键期中,视皮层的兴奋性和抑制性突触连接逐渐成熟,形成有效的皮层内回路 . 为了观察发育关键期大鼠视皮层神经元的反应特性与成年大鼠的异同,使用胞外单细胞记录的方法对比研究了幼年和成年大鼠对闪光刺激的视觉反应特性 . 结果显示：与成年大鼠相比较,幼年大鼠视皮层神经元对持续闪光刺激显示出更强的适应性,对光刺激的诱发放电频率更低,而在没有光刺激时的自发放电频率更高,从而导致信噪比更低 . 这一结果表明,幼年大鼠视皮层对连续刺激的反应能力下降,对信号的分辨能力也更弱,其原因可能是兴奋性突触和抑制性突触发育的不同步所致 .     

经脂多糖(LPS)处理免疫应答大鼠离体脑片视上核神经元对细胞因子敏感性的变化

实验采用离体脑片全细胞膜片箝记录方法 ,观察了细胞因子白介素 1β(IL 1β)和IL 2对大鼠离体脑片视上核神经元膜电位及自发放电的影响 ,以期探明免疫应答大鼠视上核神经元对细胞因子敏感性的变化。结果显示 ,用 10 0U/mlIL 1β灌流脑片 ,正常对照的 (n =15 )和脂多糖 (lipopolysaccharideLPS)腹腔注射 9d的大鼠视上核神经元 (n =2 0 )超极化 ,同时伴有自发放电频率的下降 ;应用 10 0U/mlIL 2 ,大部分正常对照视上核神经元 (n =14)表现为超极化 ,自发放电减少 ,剩余部分 (n =3)变化不明显 ;在LPS免疫 9d大鼠离体脑片上的 45个视上核神经元中 ,10 0U/ml的IL 2使其中 19个表现为去极化并伴有自发放电频率增加 ,16个变化不明显 ,其余 10个表现为超极化伴放电频率下降。以上结果表明 ,在免疫应答中 ,视上核神经元对细胞因子IL 2的敏感性 ,在一定的程度上发生了改变 ,细胞因子IL 2可能参与了视上核神经元的功能调节 ,进而在免疫应答过程中发挥了调节作用。     

大鼠运动区脑片的培养方法

利用出生后1天的乳鼠大脑活组织切片建立脑片的培养模型,并用抗非磷酸化神经丝单克隆抗体SMI－32对皮层锥体细胞加以鉴定、计数,与生长至同时期的大鼠运动区皮层锥体细胞数目比较,并测定不同时期培养液中乳酸脱氢酶（LDH）含量。结果显示脑片体外生长良好,形态完整,皮层锥体细胞数目恒定,与体内生长的锥体细胞数目无显著差异,培养液中LDH含量稳定。大鼠脑片的培养以及锥体细胞组化鉴定技术为研究有关皮层运动神经元的疾病如肌萎缩侧索硬化提供了有效的方法。     

幼年大鼠皮层听-视多感觉神经元和听-视信息整合

应用常规电生理学细胞外记录技术,研究了生后3周龄幼年大鼠皮层听-视双模态神经元及听-视信息整合特性,并与成年动物进行对照。在听皮层的背侧,听皮层和视皮层的交界处,即颞-顶-枕联合皮层区,共记录到了324个神经元,其中45个为听-视双模态神经元,占13.9%,远低于成年动物双模态神经元所占比例(42.8%)。这些双模态神经元可分为A-V型,v-A型和a-V型3种类型。根据它们对听-视信息的整合效应,可分为增强型、抑制型和调制型。整合效应与给予的声和光组合刺激的时间间隔有关,以获得整合效应的时间间隔范围为整合时间窗,幼年动物的平均整合时间窗为11.9 ms,远小于成年动物的整合时间窗(平均为23.2 ms)。结果提示,与单模态感觉神经元对模态特异性反应特性一样,皮层听-视双模态神经元生后有一个发育、成熟的过程。研究结果为深入研究中枢神经元多感觉整合机制提供了重要实验资料。     

神经节苷脂GM1对体外缺糖缺氧/再灌注大鼠海马脑片保护作用的研究

目的 :探讨神经节苷脂GM 1对体外缺糖 /缺氧再灌注 (OGD/Rep)大鼠海马脑片的保护作用。 方法 :采用测定脑片OGD/Rep后光通透度改变和 2 ,3 ,5 三苯基氯化四氮唑 (TTC)染色。结果 :①在 0 (对照 )、0 .1、1.0、10 μmol/LGM1四个处理组中 ,1μmol/LGM1组脑片光通透度峰值明显低于对照组和 0 .1μmol/LGM1组 (P <0 .0 1,ANO VA) ,10 μmol/LGM 1组脑片的峰值明显低于其他组 (P <0 .0 1)。脑片OGD后光通透度到达峰值的时间在四组间有显著性差异 (P <0 .0 5 ,Kruskal Wallistest) ,1μmol/LGM1组较对照组有显著差异 (P <0 .0 1,Mann WhitneyUtest)。②GM1与OGD/RP后大鼠海马脑片TTC染色呈现一定的剂量反应关系。在 0 (对照 )、0 .0 1、0 .1、1.0、10μmol/LGM1五组中 ,1μmol/LGM 1组脑片TTC染色最深 (P <0 .0 5vs对照、0 .0 1和 0 .1μmol/L组 ,ANOVA) ,10 μmol/LGM 1组次之 (P <0 .0 5vs对照和 0 .0 1μmol/L组 ,ANOVA)。 结论 :GM 1可以有效的保护体外大鼠海马脑片缺糖 /缺氧再灌注损伤。     

柴胡对癫痫模型电活动的调制

目的 :研究柴胡对癫痫发作的影响。方法 :以家兔和大鼠为实验对象 ,用毛果芸香碱致痫 ,采用脑电图和细胞外玻璃微电极记录技术 ,观察柴胡对癫痫模型大脑皮层放电及海马脑片场电位的影响。结果 :腹腔注射柴胡后可使癫痫发作次数及发作持续时间显著减少 ,发作间隔时间显著延长 ,(P <0 .0 5 ) ,脑片旁滴注柴胡后使致痫大鼠海马脑片诱发场电位幅度平均降低 2 0 .4 1% ,恢复时间平均为 6 .86min ,(P <0 .0 1)。结论 :柴胡注射液能明显抑制癫痫模型电活动 ,提示柴胡具有抗痫作用     

大鼠纹状体脑片热损伤模型的建立

热损伤是环境医学领域的重要课题。据报道 ,脑内多巴胺受体与热损伤有密切关系。由于多巴胺受体主要集中分布于纹状体 ,为此 ,本实验建立了离体大鼠纹状体脑片胞外记录模型 ,以观察热损伤对离体大鼠纹状体脑片电位的影响。1　材料与方法将成年大鼠 (Ｗｉｓｔａｒ)在乙醚麻醉下断头取脑 ,分离出纹状体 ,于 4℃供氧条件下用国产震动切片机将其切成厚约 35 0 μｍ的脑片 ,并迅速置于 32℃恒温供氧条件下的人工脑脊液 (ＡＣＳＦ)中孵育 1ｈ。ＡＣＳＦ液成份 (ｍｍｏｌ/Ｌ) :ＮａＣｌ 1 2 0 .0 ,ＫＣｌ 3.3,ＫＨ2 ＰＯ4 1 2 ,ＮａＨＣＯ3 2 6 .…     

大鼠视皮层神经元电生理和形态学特性在发育中的变化

为研究大鼠不同发育阶段视皮层神经元电的生理学与形态学特性,实验观察了神经元电生理和形态学特性的变化与年龄的同步化程度,探讨视皮层视觉依赖性突触的形成和重新分布的细胞内机制。应用脑片膜片钳全细胞记录技术和细胞内生物家标记相结合的方法,记录4—28d SD大鼠视皮层神经元的突触后电流(postsynaptic currents,PSCs)。共记录156个大鼠视皮层神经元,睁眼前与睁眼后组中无反应型细胞数量,多突触反应型细胞数量、细胞的输入阻抗有显著性差异。成功标记23例神经元,不同年龄的神经元的形态学成熟度不同。低输入阻抗神经元在形态学上属成熟型,高输入阻抗神经元属幼稚型。该结果表明,大鼠在发育过程中,视皮层神经元功能的成熟表现为在形觉刺激以及局部神经元网络的整合作用下的视觉依赖性突触的形成和重新分布。在视觉发育可塑性关键期内,视皮层神经元形态和电生理特性的变化与年龄的同步化程度大于皮层下结构。     

Effect of acute cyanide intoxication on the active transport of amino acids in brain slices

(1) Acute hypoxia was produced in adult rats by cyanide inhalation and the effect on the active transport of amino acids was studied in brain slices. (2) Initial and steady-state accumulation of amino acids and rates of amino acid exit were identical in brain slices from control and treated animals when a glucose-containing incubation medium was used. (3) When the incubation was carried out in a glucose-free incubation medium, the inhibition of initial and steady-state accumulation and the stimulation of amino acid exit observed in control slices were significantly reduced or abolished in slices from treated animals. (4) Tissue swelling, size of ‘inulin space’ and glucose consumption did not differ in the two groups of animals. (5) Also the respiration rate was identical in slices from control and treated animals incubated in the presence of glucose. In the absence of added substrate, brain slices from treated animals consumed 15-20 per cent more oxygen than control slices. (6) A possible correlation between the effects observed on amino acid transport and on respiration is suggested. The reasons why cyanide given in vivo or added in vitro have different effects on amino acid transport in brain slices are discussed.     

Effect of undernutrition on succinate dehydrogenase and acetylcholinesterase in developing rat brain

Pups (5 days old) were undernourished by separating them for 14 hr daily from their mothers for 7, 10, 13, 16 and 20 days. The undernourished rats showed significant decrease in body and brain weight, protein and nucleic acid contents at all stages of observation as compared to controls. The activities of SDH and AChE enzymes were decreased significantly after 10 days and onwards in undernourished rat brain. However, maximum decrease in brain protein, nucleic acid contents and enzyme activities was observed during suckling-weaning-transition (20-21 days). Such alterations in enzyme activities may be correlated with the reduced oxidative and neurotransmission function in undernourished developing rat brain.     

The effects of phenylpyruvate and hyperphenylalaninemia on incorporation of (6- 3 H)glucose into macromolecules of slices of rat cerebral cortex

The effects of phenylpyruvate and hyperphenylalaninemia on the incorporation of [6-³H]glucose into lipids, proteins and nucleic acids were examined in differentiating and adult rat brain. Foetal brain was most sensitive to inhibition by phenylpyruvate in vitro, with significant effects occurring at 2·5 mM for labelling of lipids and proteins and at 5 mM for labelling RNA and DNA. Older age groups were less affected, and cortical slices from adult brain were slightly or not at all affected by phenylpyruvate. The inhibition by phenylpyruvate of incorporation of [6-³H]glucose into nucleic acids, proteins, and lipids could be further distinguished by the reversibility of the effect on nucleic acid and protein synthesis at high levels of glucose and the irreversibility of the effect on lipid synthesis. Lipid synthesis was most sensitive to inhibition by phenylpyruvate at the stage of fatty acid synthesis, with lesser effect on the formation of glyceride glycerol. Exposure in utero of the foetal brain to maternal hyperphenylalaninemia resulted in reduction of 26–38 per cent in the subsequent incorporation in vitro of [6-³H]glucose into lipids, proteins, RNA and DNA of brain slices from foetal animals. Feeding hyperphenylalaninemic pregnant rats a high-glucose diet significantly protected the foetal brain from the neurotoxicity accompanying the hyperphenylalanemia.     

In vitro acylation of myelin PLP and DM-20 in the quaking mouse brain

Both proteolipid proteins (PLP) and DM-20 were found to be present by the immunoblot technique in myelin isolated from quaking mouse brain; however, the relative concentration of these proteins in myelin from quaking brain was substantially reduced when compared to the control. Brain slices from littermate control and quaking mice were incubated with [³H]palmitic acid to determine the incorporation of fatty acid into myelin proteolipid proteins. Fluorography of gels containing myelin proteins from control and quaking mice brain revealed that both PLP and DM-20 were acylated. The incorporation of [³H]palmitic acid into quaking myelin PLP and DM-20 was reduced by 75% and 20% respectively of those in control brain. The significance of differential acylation of quaking myelin PLP and DM-20 is discussed with respect to availability of non-acylated pools of proteolipid proteins and the activities of acylating enzymes.     

Regionaland Interspecies Differences in Brain Progesterone Metabolism

Metabolites of [³H]progesterone were studied in slices prepared from different brain regions of male rat, mouse, and monkey. The major metabolites were 5α-dihydroprogesterone (5α-DHP) and 3α,5α-tetrahydroprogesterone (3α,5α-THP) in rat brain slices, 5α-DHP and 20α- dihydroprogesterone (20α-DHP) in mouse brain slices, and 20α-DHP in monkey brain slices. In rat olfactory bulb slices, 5α-DHP represented 25.2 ± 3.3% of total radioactivity and 3α,5α-THP 17.5 ± 2.8%, whereas in rat medulla oblongata slices, 5α-DHP was 31.3 ± 3.5% and 3α,5α- THP 5.4 ± 1.5% of total radioactivity. In slices from other rat brain regions, both metabolites represented 12–20% of total radioactivity.-The highest metabolite content in mouse brain was also detected in olfactory bulb slices, where 5α-DHP represented 16.6 ± 4.6% and 20α-DHP 9.5 ± 2.3% of total radioactivity. In cortical and corpus callosum slices of monkey brain, 26.8 ± 4.4% and 2.4 ± 0.5% of total radioactivity, respectively, were converted to 20α-DHP, and less than 3% of total radioactivity could be attributed to any of the other metabolites detected. The 3α,α-THP content in both rat and monkey brain was below 1 nM, but increased in rat brain to 6.7 ± 2.5 nM after electroshock. Endogenous 3α,5α-THP might play an important role in the regulation of rat behavior through the modulation of GABA action on the GABA_A receptor. The significant interspecies differences in the brain progesterone metabolism should be considered in evaluating the functional role of neurosteroids in various species.     

Study of Differential Effects of Kainic Acid on Metabolic Rates, Utilizing Exogenous or Endogenous Substrates, in Rat Brain Slices

CO2 production from exogenous glucose of cortical, whole hippocampal, and CA3 region hippocampal slices, as well as O2 consumption of whole hippocampal slices, were measured in the presence of different concentrations of kainic acid. A moderate, significant increase of CO2 production was seen only in the CA3 region hippocampal preparation at kainic acid concentrations of 10(-4)-10(-2) M. The O2 consumption, at the expense of endogenous energy stores of whole hippocampal slices, was substantially increased by 10(-3) M kainic acid when the slices were incubated without exogenous glucose. The effect was partly paralleled by the use of high (50 mM) K+ concentration. Some of the possible factors involved in the differential metabolic responses of brain slices to the action of kainic acid are discussed briefly.     

Lipoxygenase Metabolism of Arachidonic Acid in Brain

When blood-free mouse brain slices were incubated with exogenous radiolabeled arachidonic acid, gas chromatography/mass spectrometry confirmed that the major radioactive lipoxygenase enzyme product of arachidonic acid was 12-hydroxy-5,8,10,14-eicosatetraenoic acid (12-HETE), with lesser amounts of 5-hydroxy-5,6,8,11,14-eicosatetraenoic acid and 15-hydroxy-5,8,11,13-eicosatetraenoic acid. When 12-[2H]HETE was used to measure endogenous 12-HETE in brain tissue frozen with liquid nitrogen, the level of 12-HETE was 41 +/- 6 ng/g of wet weight tissue. This frozen tissue level was not due to the presence of blood. When brain slices were incubated in vitro for 20 min, the 12-HETE level increased to 964 +/- 35 ng/g of wet weight tissue. Elimination of residual intravascular blood before tissue incubation reduced the brain slice 12-HETE concentration by one-half.     

Studies on Tyrosine Hydroxylase System in Rat Brain Slices Using High-Performance Liquid Chromatography with Electrochemical Detection

A new method for the measurement of tyrosine hydroxylase (TH; EC 1.14.16.2) activity in brain slices was developed by using high-performance liquid chromatography (HPLC) with electrochemical detection (ED). To estimate TH activity in brain slices containing all of the components of the enzyme system, tetrahydrobiopterin, dihydropteridine reductase, and TH itself, slices were incubated with NSD-1055, an inhibitor of aromatic L-amino acid decarboxylase, and 3,4-dihydroxyphenylalanine (DOPA) formed from endogenous tyrosine was measured using HPLC-ED. Hydroxylation of endogenous tyrosine to DOPA in striatal slices was linear up to 90 min at 37 degrees C, and increased by incubation with 20 mM K+ to depolarize the nerve cells. Furthermore, the formation of DOPA could be detected in all parts of brain regions examined, and the activity in this slice system was nearly parallel to the maximal velocity of the homogenate from the slices as enzyme in the presence of saturating concentrations of tyrosine and 6-methyltetrahydropterin as cofactor. This assay system should be useful to study the regulatory mechanisms of TH in relatively intact tissue preparations.     

On using cis-Pt (II)-uracil as a stain for nucleic acids in brain slices and subcellular fractions.

Chick brain cortical slices and crude mitochondrial fractions were fixed with glutaraldehyde, stained only with cis-Pt (II)-uracil and processed for electron microscopy. The optimal time of staining was determined to be 10 min. Results show that this platinum-pyrimidine complex is a relatively specific stain for the nucleic acids of brain slices. However, staining of crude mitochondrial fractions apparently resulted in some protein staining and other artifacts. The method should be helpful identifying ribosomal contamination of subcellular preparations and if its specificity can be increased it may prove a useful addition to staining methods of the electron microscopist.     

Neuroprotective effect of the stearic acid against oxidative stress via phosphatidylinositol 3-kinase pathway

Stearic acid is a long-chain saturated fatty acid consisting of 18 carbon atoms without double bonds. In the present study, we reported the neuroprotective effects and mechanism of stearic acid on cortical or hippocampal slices insulted by oxygen-glucose deprivation, NMDA or hydrogen peroxide (H(2)O(2)) in vitro. Different types of models of brain slice injury in vitro were developed by 10 min of oxygen/glucose deprivation, 0.5 mM NMDA or 2 mM H(2)O(2), respectively. After 30 min of preincubation with stearic acid (3-30 microM), cortical or hippocampal slices were subjected to oxygen-glucose deprivation, NMDA or H(2)O(2). Then the tissue activities were evaluated by using the 2,3,5-triphenyltetrazolium chloride (TTC) method. Population spikes were recorded in randomly selected hippocampal slices. Stearic acid (3-30 microM) dose-dependently protected brain slices from oxygen-glucose deprivation, NMDA and H(2)O(2) insults. Its neuroprotective effect against H(2)O(2) insults can be completely blocked by wortmannin (inhibitor of PI3K) and partially blocked by H7 (inhibitor of PKC) or genistein (inhibitor of TPK). Treatment of cortical or hippocampal slices with 30 microM stearic acid resulted in a significant increase in PI3K activity at 5, 10, 30 and 60 min. These observations reveal that stearic acid can protect cortical or hippocampal slices against injury induced by oxygen-glucose deprivation, NMDA or H(2)O(2), and its neuroprotective effects are via phosphatidylinositol 3-kinase dependent mechanism.