大鼠大脑皮层中钙调神经磷酸酶活力的时空变化

以ＰＮＰＰ为底物测定了超离心制备的大鼠出生后早期和成年大脑皮层亚细胞各组分中钙调神经磷酸酶的活力,实验结果表明：（１）钙调神经磷酸酶活力广泛地存在于胞液和突触部分,并且各亚细胞组分有明显差异,成年大鼠大脑皮层中ＣａＮ活力相对最高水平是在突触体,突触质,胞液,重的和轻的突触膜部分。（２）大鼠大脑皮层突触体中ＣａＮ活力在出生后第２周和第３周出现高峰的平台期,这与突触发生的高峰期是一致的,在胞液和重的突     

硒,谷胱甘肽过氧化物酶和不饱和脂肪酸在鼠亚细胞中的分布

采和梯度离心和放射性同位素等方法从鼠脑中分离得到髓磷脂、突触囊、轻突触体、重突触体、线粒体６个亚细胞组分,分别测定了各亚细胞中硒－７５、谷胱甘肽过氧化物酶和不饱和脂肪酸的含量,结果表明这上结成分在鼠脑亚细胞中的分布呈明显的相关性,同时首次在突触囊、线粒体和微粒体中检测到三咱不同的谷胱甘肽过氧化物酶的活性峰,其中之一可能是红细胞谷胱甘过氧化物酶（ＥＣ１．１１．１．９）。还就机体的自我保护机制和硒在脑     

硒、谷胱甘肽过氧化物酶和不饱和脂肪酸在鼠脑亚细胞中的分布

采用梯度离心和放射性同位素等方法从鼠脑中分离得到髓磷脂、突触囊、轻突触体、重突触体、线粒体６个亚细胞组分。分别测定了各亚细胞中硒－７５、谷胱甘肽过氧化物酶和不饱和脂肪酸的含量,结果表明这些成分在鼠脑亚细胞中的分布呈现明显的相关性,同时首次在突触囊、线粒体和微粒体中检测到三种不同的谷胱甘肽过氧化物酶的活性峰,其中之一可能是红细胞谷胱甘肽过氧化物酶（ＥＣ１．１１．１．９）．还就机体的自我保护机制和硒在脑组织中的重要作用进行了讨论。     

大鼠大脑皮层中钙调神经磷酸酶活力的时空变化

以ＰＮＰＰ为底物测定了超离心制备的大鼠出生后早期和成年大脑皮层亚细胞各组分中钙调神经磷酸酶的活力。实验结果表明：（ｌ）钙调神经磷酸酶活力广泛地存在于胞液和突触部分,并且各亚细胞组分有明显差异。成年大鼠大脑皮层中ＣａＮ活力相对最高水平是在突触体,突触质,胞液,重的和轻的突触膜部分。（２）大鼠大脑皮层突触体中ＣａＮ活力在出生后第２周和第３周出现高峰的平台期,这与突触发生的高峰期是一致的。在胞液和重的突触膜中ＣａＮ活力最高水平是在出生后的第７ｄ,而在突触质和轻的突触膜中是在第２０ｄ。总之,这些发现证实,在脑发育期间,ＣａＮ活力是依照区域和时间性控制的,提示ＣａＮ可能参与了突触功能作用。     

川楝素在大鼠大脑皮层匀浆中的结合位点

从驱蛔中药楝属植物根皮提取的一种三萜化合物──川楝素是一个选择性地作用于突触前的神经肌肉传递阻遏剂。根据它作用的专一性和不可逆性推测,突触前末梢应存在着川楝素的结合位点。本工作利用３Ｈ－川楝素进行的结合实验表明,大鼠大脑皮层匀浆中存在川楝素的结合位点;３Ｈ－川楝素与结合位点复合物的平衡解离常数（ＫＤ）约为２．０×１０（－７）ｍｏｌ／Ｌ;皮层匀浆离心团粒（Ｐ２＇）的重悬液含川楝素结合位点约２．７×１０（－１２）ｍｏｌ／ｍｇ蛋白质;该结合位点的Ｈｉｌｌ系数为０．９７。研究还显示,Ｐ２＇重悬液经蔗糖密度梯度超离心得到的突触体组分是川楝素结合位点的富集亚细胞组分,其比结合活性是Ｐ２＇重悬液的２至３倍。     

大鼠孤束核内脑啡肽样免疫反应阳性结构及其轴突终末的突触联系

本文应用免疫细胞化学方法在光镜与电镜下观察了大鼠孤束核内脑啡肽样免疫反应（ＥＮＫ－ＬＩ）阳性结构的分布特征和ＥＮＫ－ＬＩ轴突终末的突触联系以及非突触性关系。结果表明：（１）经秋水仙素处理的大鼠,其孤束核内有许多ＥＮＫ－ＬＩ胞体的分布;而未经秋水仙素处理的大鼠,其孤束核内可见密集的ＥＮＫ－ＬＩ纤维与终末;ＥＮＫ－ＬＩ胞体、纤维和终末主要分布于锥体交叉平面至闩平面的孤束核内侧亚核与胶状质亚核。（２）ＥＮＫ－ＬＩ阳性产物主要定位于小圆形清亮囊泡外表面、大颗粒囊泡内和线粒体外表面等处。（３）ＥＮＫ－ＬＩ轴突终末主要与阴性树突形成轴－树突触。（４）阴性轴突终末终止于ＥＮＫ－ＬＩ轴突终末上,形成轴－轴突触。（５）ＥＮＫ－ＬＩ轴突终末与阴性轴突终末形成非突触性的轴－轴并靠。以上结果提示孤束核内的ＥＮＫ－ＬＩ神经成分主要通过突触后机制、也不排除突触前作用,参与孤束核中内脏信息的整合过程,而且这一作用又受到非ＥＮＫ－ＬＩ神经成分的调控。     

大鼠不同脑区突触体钙水平的年龄差异

本实验使用荧光指示剂Ｆｕｒａ－２与Ｔｂ~（３＋）,检测了不同年龄组大鼠的不同脑区（海马、皮层、间脑、小脑）突触体内游离钙与膜结合钙水平。结果显示,与青年对照组相比,老年大鼠大部分脑区（海马、皮层、间脑）突触体内游离钙水平显著增高,尤其是海马突触体内游离钙增高极为显著;其突触体膜结合钙水平表现为：海马、小脑两脑区明显升高,而皮层、间脑两脑区明显下降,呈现一种全脑范围内的钙水平失衡。提示动物的衰老与其脑内钙自体平衡失调有关。     

质谱鉴定PC12细胞蛋白酶体抑制剂PSI-诱导性包含体中的LBs蛋白质

路易(小)体(Lewy body, LB）构成特征的蛋白质组份（protein content）在体外形成的路易(小)体样包含体（Lewy body-like inclusion）或聚集体（aggresome）中能够获得鉴定．通过蛋白质组学方法鉴定LB蛋白质组分是一种新的途径.10 µmol/L人工合成蛋白酶体抑制剂PSI（proteasomal inhibitor）作用PC12细胞48 h使其产生PSI诱导性包含体（PSI-induced inclusions）. 为了在体外指明可能的LB蛋白质组分,通过生物化学分级分离、双向电泳（two-dimensional electrophoresis,2-D）和肽质量指纹鉴定（identification via peptide mass fingerprints,PMF）的蛋白质组学方法,鉴定了2个涉及突触递质合成的蛋白质、6个26 S蛋白酶体亚基、2个细胞骨架蛋白、2个线粒体蛋白、1个抗氧化蛋白和7个分子伴侣蛋白和（或）分子伴侣样蛋白等20个LB蛋白质组分.结果提示,当PC12细胞发生蛋白酶体抑制时,这20个LB蛋白质组分可能被富集到PSI诱导性包含体中．     

应激对大鼠海马Glu-NMDA受体通路的影响及锌的保护机制

目的：探讨光-电应激对不同锌水平大鼠海马突触体谷氨酸摄取能力及海马N-甲基-D-门冬氨酸(NMDA)受体容量和亲和力的影响。方法：通过光-电刺激建立大鼠应激模型。观察实验动物旷场行为变化。以^3H-L-Glu作为放射配体进行海马NMDA受体结合反应,以放免法测定海马突触体谷氨酸摄取能力。结果：缺锌动物在旷场中活动较少,海马NMDA受体容量减少、海马突触体谷氨酸摄取能力显著下降;与相应非应激组比较,各应激组动物在旷场中停留时间延长,水平和垂直运动呈现减少趋势、海马NMDA受体容量均有增加趋势而海马突触体谷氨酸摄取能力有下降趋势,但以上各项指标仅缺锌应激组出现统计学差异。结论：光-电应激可导致大鼠在旷场中的行为异常,在缺锌情况下,实验动物出现更严重的异常反应。表明,海马NMDA受体容量及突触体谷氨酸摄取能力的变化参与了应激反应过程,推测其机制与海马Glu-NMDA受体通路的改变有关。     

外源多胺对铜胁迫下荇菜叶片生物膜的保护作用

研究外源亚精胺和精胺对铜胁迫下荇菜叶片细胞膜透性、膜脂脂肪酸组成、光合、呼吸、铜积累影响的结果表明,50μmol·L^-1CuSO4处理导致膜脂脂肪酸组分中饱和脂肪酸组分增加,不饱和脂肪酸组分及不饱和指数（IUFA）下降,细胞膜透性加大,光合速率下降,呼吸速率迅速上升,铜在叶细胞中大量积累。外施0．1mmol·L^-1亚精胺和精胺可以稳定生物膜的结构和功能,降低铜在细胞中的累积。     

COMPARISON OF THE FATTY ACIDS OF LIPIDS OF SUBCELLULAR BRAIN FRACTIONS

Abstract— Rat brain grey and white matter were fractionated to yield myelin, nerve terminal, synaptic vesicle, nerve terminal 'ghost', and microsomal fractions of white and grey matter. Ester-type glycolipids were found in all fractions except myelin, while cerebrosides occurred in significant concentrations only in myelin and white microsomes. Comparison of the fatty acid profile of the ethanolamine- and serine-containing phospholipids showed marked differences between myelin and the particles from grey matter, while the microsomes of white matter were of intermediate composition. Docosahexaenoic acid, a minor acid in myelin, was a major fatty acid in microsomes of grey and white matter. The fatty acid composition of sphingomyelin was distinctly different in the fractions derived from grey and white matter, clustering about stearate and nervonate in the latter, but only about stearate in the grey. Marked differences in the positional distribution of fatty acids were seen within phosphatidyl choline from myelin and nerve terminals. Ribonucleic acid was found in nerve terminal and synaptic vesicle fractions. The sphingosine found in the ganglioside from microsomes of both grey and white matter was similar with respect to distribution of the C₁₈ and C₂₀ homologues.
The possibility is discussed that microsomes furnish characteristic lipids for the synthesis or renewal of specific membranes, and that these lipids are accumulated somewhat before being released.     

EFFECTS OF ESSENTIAL FATTY ACID DEFICIENCY ON MYELIN AND VARIOUS SUBCELLULAR STRUCTURES IN RAT BRAIN

Abstract— Essential fatty acid deficiency initiated in rats prior to birth and continued for 140 days after birth affects the fatty acid composition of ethanolamine phosphoglyceride of brain subcellular fractions (myelin, microsomes, mitochondria and synaptosomes). It was confirmed that the fatty acid composition of the same phospholipid class differs considerably among the various subcellular fractions: myelin has the highest concentration of long-chain monoenes, while in the other fractions saturates and polyenes predominate. In EFA deficiency it was found that (1) trienes are elevated and tetraenes decreased in all fractions, (2) the triene/tetraene ratio, which is considered a biochemical index of essential fatty acid deficiency, is highest in myelin and lowest in the synaptosomal fraction, and (3) in all fractions there is a shift towards more unsaturated members of the same fatty acid family.     

Alterations in the Fatty Acid Composition of Rat Brain Cells (Neurons, Astrocytes, and Oligodendrocytes) and of Subcellular Fractions (Myelin and Synaptosomes) Induced by a Diet Devoid of n-3 Fatty Acids

Abstract: Rats were fed through four generations with a semisynthetic diet containing 1.0% sunflower oil (6.7 mg/ g n-6 fatty acids, 0.04 mg/g n-3 fatty acids). Ten days before mating, half of the animals received a diet in which sunflower was replaced by soya oil (6.6 mg/g n-6 fatty acids, 0.8 mg/g n-3 fatty acids) and analyses were performed on their pups. Fatty acid analysis in isolated cellular and subcellular material from sunflower-fed animals showed that the total amount of unsaturated fatty acids was not reduced in any cellular or subcellular fraction (except in 60-day-old rat neurons). All material from animals fed with sunflower oil showed an important reduction in the docosahexaenoic acid content, compensated (except in 60-day-old rat neurons) by an increase in the n-6 fatty acids (mainly C22:5 n-6). When comparing 60-day-old animals fed with soya oil or sunflower oil, the n-3/n-6 fatty acid ratio was reduced 16-fold in oligodendrocytes, 12-fold in myelin, twofold in neurons, sixfold in synaptosomes, and threefold in astrocytes. No trienes were detected. Saturated and monounsaturated fatty acids were hardly affected. This study provides data on the fatty acid composition of isolated brain cells.     

EFFECT OF HYPERPHENYLALANINEMIA ON FATTY ACID COMPOSITION OF LIPIDS OF RAT BRAIN MYELIN

Abstract— We have studied the fatty acid compositions of cerebral myelin lipids in phenyl-alanine-treated and control rats. The proportion of long chain fatty acids and the ratio of unsaturated to saturated fatty acids of whole brain lipids was low in the penylalanine-treated animals. Both of these reductions were more pronounced in the myelin from phenylalanine-treated rats. The ratio of unsaturated to saturated fatty acids in ethanolamine phosphatides was markedly decreased in the hyperphenylalaninemic condition. The reduction in the proportion of long chain fatty acids was predominant in non-hydroxy fatty acids in cerebrosides and ethanolamine phosphatides. The lipid composition of the myelin expressed as mole percentages of individual phospholipid and sphingolipid components was not significantly different in the two groups of rats, nor did it change with age. Our results indicate a deficiency in the fatty acid elongation and desaturation system in the brains of phenylalanine-treated rats. We suggest that in hyperphenylalaninemic rats, a reduction in the amounts of unsaturated fatty acid and long chain fatty acid alters, respectively, the biochemical reactivity and the stability of the myelin.     

FATTY ACID COMPOSITION OF CEREBROSIDES IN MICROSOMES AND MYELIN OF MOUSE BRAIN

Abstract— The fatty acid composition of cerebrosides isolated from myelin and from light and heavy microsomes of adult mouse brain was determined. 2-Hydroxy fatty acids represented 80 per cent of the fatty acids in myelin cerebrosides and approximately 55 per cent of the fatty acids in both light and heavy microsomes. In myelin, the majority of the fatty acids, both normal and hydroxy, were of chain length > C-20; in microsomes, shorter chain acids (C-16 to C-20) predominated.     

Subcellular distribution of the transmissible agent in Creutzfeldt-Jakob disease mouse brain

To determine the intracellular localization of the Creutzfeldt-Jakob disease (CJD) agent in mouse brain, cerebrum tissue of the mouse brain affected with the Fukuoka-1 strain was separated into six subcellular fractions (microsome, nerve ending, myelin, mitochondria, nucleus, and soluble fractions) by differential sucrose density gradient, and then the CJD infectivity of these fractions was examined. Serially diluted samples of each subfraction were inoculated intracerebrally into groups of BALB/c mice, and the infectivity was determined as to end point titration value, incubation period, and number of affected mice. On the basis of the protein content, the highest CJD infectivity was observed in the microsomal fraction. The nerve ending (synaptic plasma membrane) and myelin fractions were also infective. The mitochondria and nucleus fractions showed the lower infectivity. The infectivity of the soluble fraction was the lowest among the six subcellular fractions. From the findings obtained in this study two possibilities as to the intracellular localization of CJD agent were suggested: 1) the transmissible agent of CJD is closely associated with surface membranes of neuronal and/or glial cells, including their processes; 2) the CJD agent is diffusely present intracellularly, including in the surface membranes, but for manifestation of infectivity the agent needs membrane components as prerequisite factors.     

Identification and characterization of SV31, a novel synaptic vesicle membrane protein and potential transporter

Synaptic vesicle proteins govern all relevant functions of the synaptic vesicle life cycle, including vesicle biogenesis, vesicle transport, uptake and storage of neurotransmitters, and regulated endocytosis and exocytosis. In spite of impressive progress made in the past years, not all known vesicular functions can be assigned to defined protein components, suggesting that the repertoire of synaptic vesicle proteins is still incomplete. We have identified and characterized a novel synaptic vesicle membrane protein of 31 kDa with six putative transmembrane helices that, according to its membrane topology and phylogenetic relation, may function as a vesicular transporter. The vesicular allocation is demonstrated by subcellular fractionation, heterologous expression, immunocytochemical analysis of brain sections and immunoelectron microscopy. The protein is expressed in select brain regions and contained in subpopulations of nerve terminals that immunostain for the vesicular glutamate transporter 1 and the vesicular GABA transporter VGaT (vesicular amino acid transporter) and may attribute specific and as yet undiscovered functions to subsets of glutamatergic and GABAergic synapses.     

ANTIGEN-ANTIBODY CROSSED ELECTROPHORESIS OF RAT BRAIN SYNAPTOSOMES AND SYNAPTIC VESICLES: CORRELATION TO WATER-SOLUBLE ANTIGENS FROM RAT BRAIN

—Antigen-antibody crossed electrophoresis has been applied to the study of rat brain synaptosomes and synaptic vesicles. Several antigens could be visualized. By comparison with previously describéd water-soluble antigens from rat brain, some of the antigens in the synaptosome and the synaptic vesicle preparations were identified; among these were antigens which have been determined as brain-specific. Furthermore, the antisera against the two subcellular fractions were compared with the anti-serum against water-soluble antigens from rat brain.