中毒剂量谷氨酸引起大脑皮质神经细胞的钙振荡及其机制探讨

目的和方法：本文观察中毒剂量谷氨酸对大鼠大脑皮质神经细胞内Ｃａ２＋ 含量变化的影响,并对其机制进行探讨。将１ ｍ ｍｏｌ／Ｌ谷氨酸加入大脑皮质神经细胞培养液中通过激光共聚焦扫描显微镜（ｌａｓｅｒ ｃｏｎｆｏｃａｌｓｃａｎｎｉｎｇ ｍｉｃｒｏｓｃｏｐｅ,ＬＣＳＭ） 观察细胞内Ｃａ２＋ 含量的变化。结果：①１ ｍ ｍｏｌ／Ｌ谷氨酸作用后在观察的８６ 个细胞中,７１ ％ 的细胞内游离Ｃａ２＋ 浓度发生钙振荡,发生钙振荡的波型均为尖峰型：②在抑制细胞内钙库释放后加入１ ｍ ｍｏｌ／Ｌ 谷氨酸,细胞内Ｃａ２＋ 浓度上升,但没有产生钙振荡;而抑制细胞外Ｃａ２ ＋ 内流后加入１ ｍｍｏｌ／Ｌ 谷氨酸,细胞内Ｃａ２ ＋ 发生钙振荡,但振荡幅度逐渐下降直至振荡消失。结论：中毒剂量谷氨酸引起神经细胞钙振荡形成的可能机制是：细胞内钙库的释放和摄取是Ｃａ２ ＋ 发生振荡的必要条件,而振荡的维持则依赖于细胞外Ｃａ２＋ 的内流     

尼莫的平对脑创伤大鼠学习记忆障碍的治疗研究

尼莫的平对脑创伤大鼠学习记忆障碍的治疗研究隋建峰熊鹰张长城（第三军医大学生理学教研室，重庆４０００３８）近年来，Ｃａ２＋内流及随后的细胞内Ｃａ２＋超载在神经细胞继发性损害过程的作用日益受到重视，已提示人们将Ｃａ２＋通道阻断剂（Ｃａ２＋ｃｈａｎｎｅｌｂ...     

用Fura－2双波长荧光法测定神经细胞内游离钙

采用新型Ｃａ＾２＋荧光指示剂Ｆｕｒａ－２建立双波长荧光法测定分离的大鼠神经细胞内游离钙浓度（［Ｃａ＾２＋］ｉ）。结果显示,在静息状态下,其［Ｃａ＾２＋］ｉ为１０９±１２ｎｍｏｌ／Ｌ．３０ｍｍｏｌ／ＬＫＣｌ可显增加［Ｃａ＾２＋］ｉ,并且ＫＣｌ的这种效应呈一定的剂量依赖关系,提示该法灵敏、可靠。     

体温对沙鼠前脑缺血／再灌注Ca^2＋／钙调素依赖性蛋白激酶Ⅱ？…

目的和方法：本文以蒙古沙土鼠侧颈动脉夹闭（ＢＣＡＯ）形成前脑缺血模型,不同体温对脑缺血／再灌注海马、皮质、纹状体、小脑Ｃａ＾２＋／ＣａＭＰＫⅡ活性变化的影响。结果：９１）除小脑外,海马、皮质、纹状体Ｃａ＾２ＣａＭＰＫⅡ活性在缺血后均有不同程度下降。该下降对缺血过程中体温十分敏感;如分别于３６．５℃、３０．０℃、３９．０℃同时样缺血１０ｍｉｎ,海马酶活性分别为对照组的３２．２％、１０１．３％、９．１     

γ—氨基丁酸抑制缺氧所致神经元钙超载

本文以体外分散培养的新生大鼠海马ＣＡ１区神经细胞为标本,分别采用激光扫描共聚集显微镜动态监测单个细胞［Ｃａ＾２＋］ｉ和膜片箝全细胞记录的电生理技术检测细胞的ＮＭＤＡ电流和电压依赖性Ｃａ＾２＋电流等方法,较为深入地研究了抑制性神经递质γ－氨基丁酸（ＧＡＢＡ）及ＧＡＢＡ－Ａ受体激动剂蝇蕈醇对急性缺氧时海马ＣＡ１神经元［Ｃａ＾２＋］ｉ升高过程的影响方式及其作用机制。结果表明：对照组细胞缺氧后比缺氧前［Ｃ     

高血压大鼠红细胞膜Ca~（2＋），Mg~（2＋）─ATP酶对Ca~（2＋）反应的变化及Mg~（2＋）的作用

本实验观察了正常及高血压大鼠红细胞膜Ｃａ２＋,Ｍｇ２＋－ＡＴＰ酶对不同浓度Ｃａ２＋及Ｍｇ２＋的反应。结果表明：（１）在自发性高血压大鼠（ＳＨＲ）,此酶最适反应的Ｃａ２＋浓度为１０－６ｍｏｌ／Ｌ;ＷＫＹ大鼠为１０－４ｍｏｌ／Ｌ;两肾一环型肾性高血压大鼠（ＲＨＲ）为１０－７ｍｏｌ／Ｌ,Ｗｉｓｔａｒ大鼠为１０－４ｍｏｌ／Ｌ,Ｃａ２＋高于以上各相应浓度时该酶活性受到抑制;（２）作为该酶激动剂的Ｍｇ２＋有其最适激活浓度,在ＷＫＹ大鼠、ＲＨＲ及Ｗｉｓｔａｒ大鼠均为４．５ｍｏｌ／Ｌ;（３）高浓度Ｍｇ２＋（３６．０ｍｏｌ／Ｌ）可以逆转高浓度Ｃａ２＋对该酶的抑制作用。以上结果表明,底物Ｃａ２＋浓度的变化对Ｃａ２＋,Ｍｇ２＋－ＡＴＰ酶的催化活性影响极大,该酶活性的促发及维持必须有适宜浓度的Ｍｇ２＋。高血压时此酶对Ｃａ２＋的敏感性增高,且Ｍｇ２＋对酶保护作用更为明显。本结果提示,胞内高浓度Ｃａ２＋不仅是高血压发生的原因之一,并可能与其发展及恶化有关。     

脑缺血时Ca^2＋／CaM依赖性蛋白激酶Ⅱ活性变化的研究

本文以蒙古沙土鼠双侧劲动脉结扎造成脑缺血模型，研究了Ｃａ＾２＋／ＣａＭ ＰＫⅡ活性在脑缺血时的变化。实验结果如下：（１）缺血５、１０、２０和３０分钟时，４０００ｇ大脑皮质匀浆上清Ｃａ＾２＋／ＣａＭ ＰＫⅡ活性分别为对照组的９１％、６５％、５３％、和４８％；经磷酸纤维素部分纯化的酶活性，１０分钟缺血组也仅为对照组的６２％。（２）动力学分析表明，增加Ｃａ＾２＋浓度或ＣａＭ浓度，均不能逆转在脑缺血时该酶     

大鼠肺动脉平滑肌培养细胞内Ca~(2+)反应的多样性

用Ｃａ２＋荧光色素Ｆｌｏｕ－３／ＡＭ负荷原代培养的大鼠肺动脉平滑肌细胞,在共聚焦激光显微镜下观察细胞内Ｃａ２＋对各种缩血管物质反应的非均一性。实验结果提示：各种Ｃａ２＋通道的反应与细胞培养时间相关。８０％以上的Ｃａ２＋贮库具有ＣＩＣＲＣａ２＋通道,在肺血管管平滑肌细胞可能存在一种只具有ＣＩＣＲ通道的Ｃａ２＋贮库,ＣＩＣＲ的Ｃａ２＋释放作用强于ＩＣＲＣａ２＋通道     

Na^＋／Ca^2＋交换抑制剂在大鼠海马缺氧损伤中的作用

本文以大鼠离体海马脑片和分散培养的海马神经元为标本,分别采用微电极记录技术和激光扫描共聚焦显微镜动态监测单个神经元［Ｃａ２＋］ｉ的方法,研究Ｎａ＋／Ｃａ２＋交换抑制剂Ｂｅｎｚａｍｉｌ对缺氧后海马脑片损伤以及海马神经元［Ｃａ２＋］ｉ变化的影响。结果显示,预先用Ｂｅｎｚａｍｉｌ（５０μｍｏｌ）灌流的海马脑片缺氧后ＰＶ持续时间较对照组显著延长,提示其可延缓海马不可逆缺氧损伤的发生;共聚焦测［Ｃａ２＋］ｉ实验进一步发现,急性缺氧可诱导海马神经元［Ｃａ２＋］ｉ迅速升高,而Ｂｅｎｚａｍｉｌ（２０μｍｏｌ）能显著抑制缺氧引起的［Ｃａ２＋］ｉ升高。上述结果表明,抑制神经元Ｎａ＋／Ｃａ２＋交换活动可提高海马脑片抗缺氧能力,其作用机制可能与抑制缺氧所致神经元［Ｃａ２＋］ｉ升高有关,由此推测Ｎａ＋／Ｃａ２＋交换体参于大鼠海马脑区缺氧损伤,它可能是导致缺氧后神经元［Ｃａ２＋］ｉ升高的重要途径之一     

腺苷对缺氧时海马神经元内游离Ca^2＋的影响

实验用Ｆｌｕｏ－３负载细胞,在激光扫描共聚焦显微镜下直接监测缺氧后分散培养的大鼠海马ＣＡ１区神经元内游离Ｃａ＾２＋浓度（［Ｃａ＾２＋］ｉ）的变化,观察腺苷对这种变化的影响并初步探讨其作用机制。结果发现,急性缺氧使海马神经元［Ｃａ＾２＋］ｉ显著升高;腺苷（１００μｍｏｌ／Ｌ）明显抑制缺氧引起的［Ｃａ＾２＋］ｉ增高,腺苷Ａ１受体拮抗剂ＣＰＴ以及Ｋ＾＋通道阻断剂４－ＡＰ和ＡＴＰ敏感性Ｋ＾＋通道阻断剂ｇｌ     

The antioxidant prevention of disorders in calcium ion metabolism under the action of glutamate on the synaptosomes of the rat cerebral cortex]

An increase of intracellular calcium ion concentration and of the 45Ca2+ entry, a decrease in Na+,K(+)-ATPase activity, and activation of Na+/Ca2+ exchange were shown to be initiated by glutamate in the rat brain cortex synaptosomes. These effects could be prevented with antagonists and blocking agents of the NMDA receptors. Pre-incubation of the synaptosomes with alpha-tocopherol, superoxide dismutase, and ganglioside GM1 was shown to normalise [45Ca2+], the rate of 45Ca2+ entry, and the activity of Na+,K(+)-ATPase in the synaptosomes. The data obtained suggest that calcium ions entering the brain cortex neurones via the NMDA receptors in presence of excessive glutamate, trigger activation of free radical reactions damaging the neurones in ischemia, cerebral lesions, and other pathological conditions.     

BAY K 8644, a 1,4-Dihydropyridine Ca2+ Channel Activator: Dissociation of Binding and Functional Effects in Brain Synaptosomes

K+-stimulated 45Ca2+ uptake into rat brain and guinea pig cerebral cortex synaptosomes was measured at 10 s and 90 s at K+ concentrations of 5-75 mM. Net increases in 45Ca2+ uptake were observed in rat and guinea pig brain synaptosomes. 45Ca2+ uptake under resting or depolarizing conditions was not increased by the 1,4-dihydropyridine BAY K 8644, which has been shown to activate Ca2+ channels in smooth and cardiac muscle. High-affinity [3H]nitrendipine binding in guinea pig synaptosomes (KD = 1.2 X 10(-10) M, Bmax = 0.56 pmol mg-1 protein) was competitively displaced with high affinity (IC50 2.3 X 10(-9) M) by BAY K 8644. Thus high-affinity Ca2+ channel antagonist and activator binding sites exist in synaptosome preparations, but their relationship to functional Ca2+ channels is not clear.     

局灶性脑缺血再灌损伤时神经细胞内Ca~(2+)时空动态变化的实验研究

本文用插线法制作局灶性脑缺血／再灌损伤模型,利用激光共聚焦扫描显微镜观察活体脑片细胞内Ｃａ２＋的分布及动态变化,结果表明：（１）缺血／再灌时间不同,梗塞面积不同,缺血４小时梗塞面积占同侧半球的１６．３％,缺血４小时再灌２０小时梗塞面积增加到２５．９％,缺血２４小时梗塞面积占同侧半球的６０．４％。（２）本文首次观察到在缺血４小时纹状体区域的Ｃａ２＋变化明显高于皮层,并且再灌后皮层及纹状体区域Ｃａ２＋的含量明显增加     

Screening of Thiol Compounds: Depolarization-Induced Release of Glutathione and Cysteine from Rat Brain Slices

Superfusates from rat brain slices were screened for thiol compounds after derivatization with monobromobimane by reversed-phase HPLC. Only glutathione and cysteine were detected. The Ca(2+)-dependent release of these compounds from slices of different regions of rat brain was investigated, applying a highly sensitive and reproducible quantification method, based on reduction of superfusates with dithiothreitol, reaction of thiols with iodoacetic acid, precolumn derivatization with o-phthalaldehyde reagent solution, and analysis with reversed-phase HPLC. This methodology allowed determination of reduced and total thiols in aliquots of the same superfusates. Mostly reduced glutathione and cysteine were released upon K+ depolarization and the Ca2+ dependency suggests that they originate from a neuronal compartment. The GSH release was most prominent in the mesodiencephalon, cortex, hippocampus, and striatum and lowest in the pons-medulla and cerebellum. This underscores a physiologically significant role for glutathione in CNS neurotransmission.     

Inositol Phospholipid Hydrolysis in Rat Cerebral Cortical Slices: II. Calcium Requirement

The calcium requirement for agonist-dependent breakdown of phosphatidylinositol and polyphosphoinositides has been examined in rat cerebral cortex. The omission of added Ca2+ from the incubation medium abolished [3H]inositol phosphate accumulation from prelabelled phospholipid induced by histamine, reduced that due to noradrenaline and 5-hydroxytryptamine, but did not affect carbachol-stimulated breakdown. EC50 values for agonists were unaltered in the absence of Ca2+. Removal of Ca2+ by preincubation with EGTA (0.5 mM) abolished all responses, but complete restoration was achieved by replacement of Ca2+. The EC50 for Ca2+ for histamine-stimulated [3H]inositol phosphate accumulation was 80 microM. Noradrenaline-stimulated breakdown was antagonised by manganese (IC50 1.7 mM), but not by the calcium channel blockers nitrendipine or nimodipine (30 microM). The calcium ionophore A23187 stimulated phosphatidylinositol/polyphosphoinositide hydrolysis with an EC50 of 2 microM, and this response was blocked by EGTA. Omission of Ca2+ or preincubation with EGTA or Mn2+ (EC50 = 230 microM) greatly enhanced the incorporation of [3H]inositol into phospholipids. The IC50 for Ca2+ in inhibiting incorporation was 25 microM. The results show that different receptors mediating phosphatidylinositol/polyphosphoinositide breakdown in rat cortex have quantitatively different Ca2+ requirements, and it is suggested that rigid opinions regarding phosphatidylinositol/polyphosphoinositide breakdown as either cause or effect of calcium mobilisation in rat cortex are inappropriate.     

Role of endogenous regucalcin in transgenic rats: suppression of kidney cortex cytosolic protein phosphatase activity and enhancement of heart muscle microsomal Ca2+-ATPase activity

Rats were generated by pronuclear injection of the transgene with a cDNA construct encoding rat regucalcin that is a regulatory protein of Ca2+ signaling. Transgenic (TG) founders were fertile, transmitted the transgene at the expected frequency, and bred to homozygote. Western analysis of the cytosol prepared from the tissue of TG female rats (5-week-old) showed a remarkable expression of regucalcin (3.3 kDa) protein in the liver, kidney cortex, heart, lung, stomach, brain, spleen, muscle, colon, and duodenum. Regucalcin expression of TG male rats was seen in the liver, kidney cortex, heart, and lung. In wild-type (wt) male and female rats, regucalcin was mainly present in the liver and kidney cortex. Regucalcin inhibited protein phosphatase activity in rat kidney cortex cytosol and activated Ca2+-ATPase activity in rat heart muscle microsomes. The suppressive effect of regucalcin on protein phosphatase activity was significantly enhanced in the cytosol of kidney cortex of TG male and female rats as compared with those of wt rats. Likewise, heart muscle microsomal Ca2+-ATPase activity was significantly enhanced in TG rats. The changes in their enzyme's activities in TG rats were completely abolished in the presence of anti-regucalcin monoclonal antibody (100 ng/ml) in the enzyme reaction mixture. Moreover, the body weight of TG female rats was significantly lowered as compared with that of wt rats. Serum inorganic phosphorus concentration was significantly increased in TG male and female rats, while serum calcium, glucose, triglyceride, free cholesterol, albumin, and urea nitrogen concentrations were not significantly altered in TG rats. Regucalcin TG rats should be a useful model to define a regulatory role of endogenous regucalcin in the tissues in vivo.     

Calpain对细胞骨架蛋白tau降解作用的研究(英文)

Calpain是钙依赖性中性蛋白酶 ,根据其对钙敏感性的不同 ,可分为m 和 μ calpain两型 .分别用不同浓度CaCl2 溶液孵育Wistar大鼠脑皮质匀浆液 ,并用蛋白质印迹和定量图像分析技术检测不同亚型calpain对tau蛋白的降解作用 .研究发现 :在 3 7℃用 1mmol/LCa2 孵育底物 15min ,可见tau蛋白明显降解 ,并在分子质量为 2 9ku处出现tau蛋白降解片段 ;当Ca2 浓度为 5mmol/L时 ,tau蛋白几乎全部被降解 ;这种tau蛋白降解可被calpain特异性抑制剂完全逆转 .进一步的研究发现 ,分别用 μ calpain抑制剂 (0 0 5μmol/Lcalpastatin) ,m calpain抑制剂 (10 0 μmol/LcalpaininhibitorⅣ )或总calpain抑制剂 (552 μmol/Lcalpeptin)与 1mmol/LCa2 共同孵育Wistar大鼠脑皮质匀浆液 ,Ca2 激活的tau蛋白降解分别被抑制8 6% ,92 5%和 97 8% .结果表明一定浓度的Ca2 可同时激活 μ calpain和m calpain ,这两种亚型calpain均参与降解tau蛋白 ,但m calpain的作用比 μ calpain更强     

Phorbol Myristate Acetate Inhibition of Phospholipase C Activation by Carbachol in Slices of Rat Brain Cortex Is a Delayed and Indirect Effect

We examined the effect of phorbol esters on phospholipase C activation in rat brain cortical slices and membranes. There was little effect of concurrent addition of phorbol 12-myristate 13-acetate (PMA) with carbachol on phosphoinositide breakdown due to carbachol over a 1-h incubation of brain slices. However, if slices were preincubated for 3 h with 1 microM PMA or 200 microM sphingosine before addition of carbachol, there was a 35-50% inhibition of phosphoinositide breakdown. There was also a marked loss of protein kinase C (PKC) activity from both cytosol and membranes after a 3-h exposure to PMA. The loss in responsiveness to the muscarinic agonists in slices was not reflected in carbachol-stimulated phospholipase C activation using isolated membranes. However, the decrease in carbachol-induced phosphoinositide breakdown seen in slices after a 3-h exposure to PMA was abolished if the extracellular K+ concentration was elevated from 5.9 to 55mM. Because elevation of the K+ level induces depolarization and increases Ca2+ entry, we examined the effect of ionomycin, a Ca2+ ionophore. Ionomycin potentiated the effects of carbachol on phosphoinositide breakdown but was unable to reverse the effects of a 3-h incubation with PMA. Because apamin, an inhibitor of Ca2(+)-dependent K+ channels, mimicked the effects of exposure to PMA for 3 h, it is possible that these channels are involved in muscarinic cholinergic regulation of phosphoinositide breakdown in rat brain slices. These results support the hypothesis that prolonged PMA treatment in rat brain cortex has no direct effect on phospholipase C activation by muscarinic cholinergic stimulation.     

Brain synaptosomal Ca2+ uptake: comparison of Sprague-Dawley, Wistar-Kyoto and spontaneously hypertensive rats

1. K(+)-stimulated 45Ca2+ uptake by synaptosomes was measured with respect to the strain differences between Sprague-Dawley (SD), Wistar-Kyoto (WKY) and spontaneously hypertensive rats (SHR). 2. 45Ca2+ uptake by synaptosomes isolated from cerebral cortex of SD, WKY and SHR was measured at 15, 30, 60, 120 and 240 sec time periods. 3. The sequence of both the magnitude and rate of resting and depolarization-dependent 45Ca2+ uptake was SHR greater than WKY greater than SD. 4. The fastest rates of resting and depolarization-dependent 45Ca2+ uptake occurred in each rat during the first 15 sec and uptake rates dropped off quickly in both resting and depolarization states. 5. At 15 sec, there were significant differences between SHR and WKY, while there were no significant differences between WKY and SD. 6. The results suggest that an important alteration in Ca2+ channel characteristics may occur in SHR brain synaptosomes.     

Calmodulin plays a dominant role in determining neurotransmitter regulation of neuronal adenylate cyclase

Ca2+, through the mediation of calmodulin, stimulates the activity of brain adenylate cyclase. The growing awareness that fluctuating Ca2+ concentrations play a major role in intracellular signalling prompted the present study, which aimed to investigate the implications for neurotransmitter (receptor) regulation of enzymatic activity of this calmodulin regulation. The role of Ca2+/calmodulin in regulating neurotransmitter-mediated inhibition and stimulation was assessed in a number of rat brain areas. Ca2+/calmodulin stimulated adenylate cyclase activity in EGTA-washed plasma preparations from each region studied--from 1.3-fold (in striatum) to 3.4-fold (in cerebral cortex). The fold-stimulation produced by Ca2+/calmodulin was decreased in the presence of GTP, forskolin, or Mn2+. In EGTA-washed membranes, receptor-mediated inhibition of adenylate cyclase was strictly dependent upon Ca2+/calmodulin stimulation in all regions, except striatum. A requirement for Mg2+ in combination with Ca2+/calmodulin to observe neurotransmitter-mediated inhibition was also observed. In contrast, receptor-mediated stimulation of activity was much greater in the absence of Ca2+/calmodulin. The findings demonstrate that ambient Ca2+ concentrations, in concert with endogenous calmodulin, may play a central role in dictating whether inhibition or stimulation of adenylate cyclase by neurotransmitters may proceed.