金属硫蛋白对大鼠红细胞膜受羟自由基损伤保护作用的自旋标记—ESR研究

用自旋标记物5NS,16NS及MSL分别插入红细胞膜脂及标记膜蛋白,发现金属硫蛋白(10~(-5)mol/L)对羟自由基引起的膜运动性减弱和膜蛋白构象改变有明显抑制作用,说明金属硫蛋白对大鼠红细胞膜的羟自由基损伤有保护作用,并且,对于低剂量的羟自由基损伤,保护作用更为明显。     

金属硫蛋白抗自由基损伤研究

采用电子自旋共振技术(ESR),以马来酰亚胺自旋标记完整血红细胞和细胞膜,监测氧自由基引起的ESR波谱的变化,研究了不同亚型、不同结合金属的兔肝金属硫蛋白(MT)清除·OH和其对辐射损伤的防护作用。首次观察到四种MT清除·OH及抗辐射的能力与其亚型和结合金属种类有以下顺序的关系:ZnMT_2>ZnMT_1>CdMT_2>CdMT_1。而且还观察到MT对自由基损伤具有修复作用,其作用的强弱和清除·OH的能力大小顺序一致。对实验结果的分子机制进行了某些探讨。     

大脑皮层中的多肽及其相应神经元

大脑皮层的多肽在神经信息传导中起重要作用.文章对皮层各种神经元类型简要地作了描述.重点介绍了皮层中存在的主要多肽类的生理功能、氨基酸序列及其相应神经元类型和分布.     

大脑皮层神经元NMDA受全的单通道特性

本文和膜片箝技术对机械分离培养的大鼠大脑皮层神经元胞ＮＭＤＡ受体的单通道特性进行了研究,实验用细胞贴附和内面向外两种形式记录单离子通道的活动。电极液内含有ＮＭＤＡ或Ｌ－门冬氨酸时,在皮层神经元上常见电导为３５ｐＳ的离子通道。通道对Ｎａ＾＋,Ｋ＾＋非选择必通透,对Ｃｌ＾－不通透,其平均开放时间和开放概率随超极化程度增大而降低。开放、关闭时间及ｂｕｒｓｔ时程的分布直方图均需双指数拟合。Ｍｇ＾２＋以电压     

大脑皮层神经元NMDA受体的单通道特性

本文用膜片箝技术对机械分离培养的大鼠大脑皮层神经元胞体上的ＮＭＤＡ受体的单通道特性进行了研究,实验用细胞贴附和内面向外两种形式记录单离子通道的活动。电极液内含有ＮＭＤＡ或Ｌ－门冬氨酸时,在皮层神经元上常见电导为３５ｐＳ的离子通道。通道对Ｎａ＋,Ｋ＋非选择性通透,对Ｃｌ－不通透,其平均开放时间和开放概率随超极化程度增大而降低。开放、关闭时间及ｂｕｒｓｔ时程的分布直方图均需双指数拟合。Ｍｇ２＋以电压和浓度依赖性的方式减小通道开放时间,ＡＰＶ能阻断通道活动,温度降低使通道开放时间延长及电流幅度减小。本文结果表明大脑皮层神经元上ＮＭＤＡ受体通道活动自身具有电压依赖性,因此提示ＮＭＤＡ受体通道的正常功能活动可能依赖于某些细胞内调控过程的存在。     

超氧化物歧化酶的自旋标记研究

本文应用对-SH基特异性结合的自旋标记物对Cu_2Zn_2-SOD进行自旋标记研究,进一步观察了电离辐射对-SH基部位的影响,实验结果:(1)自旋标记后的Cu_2Zn_2-SOD表现出典型的弱固定化的ESR波谱信号特征。标记对Cu_2Zn_2-SOD的UV谱无明显影响。这表明该游离-SH基是位于酶蛋白分子的相对表层而不是包埋在疏水内部。(2)标记保温后立即取样及保温后17小时取样测酶活力,发现与未标记酶的活力相同。这表明该-SH基与酶的催化活性无直接关系。(3)在10—100Krad γ-射线照射下,酶活性及ESR信号幅度均随照射剂量增加而下降,两者之间有一定的相关性。     

锌_7-与镉_7-金属硫蛋白对羟自由基损伤大鼠红细胞膜保护作用的比较

用电子自旋共振自旋标记物氮氧自由基硬脂酸和马来酰亚胺标记大鼠红细胞膜脂和膜蛋白,测定膜脂流动性和膜蛋白构象改变,以硫代巴比妥酸法测定脂质过氧化产物丙二醛含量．结果表明,锌7-与镉7-金属硫蛋白对羟自由基引起的膜脂流动性减低、脂质过氧化反应增强双膜蛋白构象改变有明显抑制作用,而且,前者的作用明显强于后者．     

γ射线辐照嘧啶核苷水溶液的电子自旋共振（ESR）研究

亚硝基特丁烷（ＭＮＲ）为捕集剂,利用自旋捕集技术,对γ射线辐照嘧啶苷水溶液进行了ＥＳＲ研究,确定了胸苷、尿苷和胞苷可产生的自肇捕集自由基的类别,并讨论了自由基形成的机制。     

新生大鼠大脑皮层神经元胞体ATP激活的离子通道及其特性

用膜片箝技术的细胞贴附式和内面向外式,在机械分离的新生ＳＤ大鼠的大脑皮层神经元上,记录到ＡＴＰ激活的离子通道。此通道的电导为３２ｐＳ,对Ｎａ~＋,Ｋ~＋和Ｃｓ~＋无选择性通透,而对Ｃｌ~－不通透。通道开放时间分布直方图多数需用双指数拟合,少数可用单指数拟合;通道关闭时间分布直方图均需用双指数拟合。通道的平均开放时间和开放概率均不依赖于膜电位;但通道的开放概率随着激动剂ＡＴＰ浓度的增加而增大。当电极内液无ＡＴＰ时,无通道电流。六烃季胶和美加明不能阻断此通道。上述结果表明,新生大鼠的大脑皮层神经元胞体可能存在ＡＴＰ激活的离子通道。     

皮层SI区伤害感受神经元膜电生理特性研究

用细胞内记录技术, 在16只成年健康猫, 研究了皮层第一躯体感觉区(primary somatosensory cortex area,SI区)伤害感受神经元的电生理特性.SI区伤害感受神经元自发放电频率差异大,放电形式多样.极化电流绝对值≤1.0 nA时,伤害感受神经元I-V极相关(r=0.96),整流作用不明显;极化电流绝对值＞1.0 nA时,在两个方向上发生整流,I-V(电流-电压)曲线表现为“S”型, 其中伤害感受神经元整流作用较非伤害感受神经元明显.伤害感受神经元R_m、τ、C_m明显大于非伤害感受神经元(P＜0.01或P＜0.05).结果提示SI区伤害感受神经元与非伤害感受神经元可能在细胞膜结构、细胞大小等方面存在有意义的差别,从而反映其不同的生理功能.此电学参数特点也可为痛觉的特异性学说提供实验资料.     

大鼠老化过程大脑皮层及小脑神经元染色质构象分析

 本文在前文~[2]的基础上进一步以MCN和DNaseⅠ为探针研究大鼠脑神经元终末分化后不同生理时期染色质构象,结果表明:MCN酶解DNA产物PAGE显示脑老化过程大脑皮层及小脑神经元染色质核小体单体DNA分别保持在176bp和215bp水平,核小体连接DNA长度存在组织差异,但不受老化影响;<2>DNaseⅠ酶解DNA产物PAGE显示各年龄组大脑皮层及小脑神经元染色质DNA存在10bp间隔重复结构和相同的泳动区带分布特征,提示脑老化中染色质具有稳定的B型双螺旋结构和一致的螺线管卷曲形式。染色质DNaseⅠ降解率随年龄增加而降低,提示老化导致活性染色质区域减少,老化过程脑神经元染色质构象改变成为其转录功能减退的结构基础。     

当归对宫内缺氧新生大鼠大脑皮质神经元与VEGF mRNA表达的影响

目的 探讨宫内缺氧对新生大鼠大脑皮质神经元与VEGF mRNA表达的影响以及当归的调控作用.方法 孕14 d健康SD雌性大鼠15只,随机分为对照组、缺氧组和当归组各5只,于孕14 d开始将当归组与缺氧组孕鼠置于低张氧浓度三气培养箱中,制作胎鼠宫内缺氧模型,此前一小时按8 mL/kg分别给予当归和生理盐水尾静脉注射,对照组不缺氧,余同缺氧组.三组孕鼠分娩当日每窝随机选取新生鼠4只,取脑组织多聚甲醛固定,石蜡包埋切片、NSE mRNA、VEGF mRNA原位杂交,400倍拍照、IPP6.0软件图像分析.结果 缺氧组新生大鼠大脑皮质NSE mRNA阳性细胞数较对照组减少,积分光密度值(IOD)降低(P＜0.05),VEGF mRNA阳性细胞IOD值升高(P＜0.05);当归组新生大鼠大脑皮质NSE mRNA阳性细胞数较缺氧组增多、IOD值增高(P＜0.05),VEGF mRNA阳性细胞IOD值增高(P＜0.05).结论 宫内缺氧可致新生大鼠大脑皮质神经元受损,当归注射液对此损伤有一定保护作用,其机制可能是通过上调大脑皮质VEGF mRNA的表达而使缺氧环境改善.     

Synaptic Membrane Antigens in Developing Rat Brain Cerebral Cortex and Cerebellum

Abstract: The contents of five synaptic membrane antigens (56K, 58K, 62K, 63K, and 64K) were determined in rat cerebral cortex and cerebellum at eight developmental time points: E9, E14, P < 1, P5, P14, P28, P60, and P180 (E, embryonic; P, postnatal). In cerebral cortex, the five antigens showed five different developmental patterns with respect both to specific content (i.e., quantity per unit of membrane) and total content (i.e., quantity per cortex). The 56K, 58K, and 62K polypeptides were first detected at E14, increased slightly to P5, then increased rapidly from P5 to P28 by 14-, 11-, and 18-fold, respectively. From P28 to PI80, the patterns of these antigens showed very large differences. The 63K and 64K antigens were first detected at P14 and P28, respectively. The specific content of 63K antigen continued to increase steadily throughout adult life; in contrast, the specific content of the 64K antigen did not change appreciably. In cerebellum only three antigens (56K, 58K, and 62K) were detected. These three antigens showed different developmental patterns. The 56K polypeptide was first detected at E14; its specific content increased very rapidly to a maximum at P < 1; it then decreased, first slowly, and then more rapidly, disappearing at P60. The 58K polypeptide also was detectable at E14 and increased very rapidly to a maximum at P < 1. It then decreased markedly to P5, followed by an increase, returning almost to its maximum level at P14. It then slowly decreased disappearing at P180. The 62K antigen was first detected at P14 and then it slowly decreased with disappearance at P60. The patterns with respect to total contents per cerebellum were similar for the three antigens, with a maximum at P28. We conclude that the highest increase in the contents of these antigens roughly corresponds to the period of maximal synaptogenesis (P9 to P28) in both regions. Differences among developmental patterns probably reflect changing molecular machinery required for development and functional differentiation of synapses in different brain regions. The fine structure of these patterns suggests that the quantitative measurement of synaptic membrane antigens will be useful for delineating complex processes occurring during synaptogenesis.     

Receptive Fields of Visually Sensitive Neurons of the Extrastriate Associative Area 21b of the Cat Cerebral Cortex

Organization of the receptive fields (RFs) of neurons of the extrastriate associative region 21b of the cerebral cortex was studied in cats. Most neurons under study (63%) were “monocular,” while 37% of the cells were “binocular” units. Among 178 neurons examined in detail, heterogeneous RF functional organization was typical of about 76% of the units; point-to-point testing of the entire RF area by stationary stimuli resulted in the generation of various types of responses (on, off, or on-off). The rest of the neurons (24%) generated homogeneous responses. The dimension, form, and functional organization of RFs of the neurons under study depended to a certain extent on the parameters of visual stimuli used for the measurements. Examination of the influence of the visual space, which surrounded the RF, on responses of the neurons evoked by stimulation of the RF per se showed that darkening of the visual space adjacent to the RF inhibited neuronal responses to moving stimuli; in some cases the responses were totally suppressed. Analysis of spatial overlapping of the RF sequentially recorded in the course of each insertion of the electrode showed that the density of distribution of the overlapping RF areas of neighboring neurons with the RF of the examined neuron is irregular, and that the RF is of a mosaic nature. We hypothesize that the visual space surrounding the RF plays a significant role in the formation of responses of visually sensitive neurons to presentation of moving stimuli. Neirofiziologiya/Neurophysiology, Vol. 37, No. 3, pp. 223–234, May–June, 2005.     

Reducing Ability of the Striatum and Cerebral Cortex in Rats following Acute Administration of Risperidone or Haloperidol: An Estimation by in Vivo Electron Paramagnetic Resonance Imaging

In vivo temporal electron paramagnetic resonance (EPR) imaging of the blood-brain barrier-permeable nitroxide radical, 3-methoxycarbonyl-2,2,5,5-tetramethylpyrrolidin-1-yloxy (PCAM), in the brain of rats was conducted following acute administration of risperidone (RSP) or haloperidol (HPD). The half-life of the signal intensity of PCAM was obtained from a selected area in the temporal EPR images. The half-lives in the striatum and cerebral cortex for the RSP- or HPD-treated rats were significantly longer than for the control rats (p < 0.01). This finding indicates that the reducing abilities of the striatum and cerebral cortex decreased in the rats to which either RSP or HPD had been acutely administrated because the half-life of PCAM in the selected region of the brain reflects its reducing ability.     

Structural alterations in synaptosomal membrane-associated proteins and lipids by transient middle cerebral artery occlusion in the cat

We have previously reported that ischemia reperfusion injury results from free radical generation following transient global ischemia, and that this radical induced damage is evident in the synaptosomal membrane of the gerbil. [Hall et al, (1995) Neuroscience 64: 81–89] In the present study we have extended these observations to transient focal ischemia in the cat. We prepared synaptosomal membranes from frontal, parietal-temporal, and occipital regions of the cat cerebral cortex with reperfusion times of 1 and 3 hours following 1 hour right middle cerebral artery occlusion. The membranes were selectively labeled with protein and lipid specific paramagnetic spin labels and analyzed using electron paramagnetic resonance spectrometry. There were significant motional changes of both the protein and lipid specific spin labels in the parietal-temporal and occipital regions with 1 hour reperfusion; but, both parameters returned to control values by 3 hours reperfusion. No significant changes were observed in the normally perfused frontal pole at either reperfusion time. These results support the argument that free radicals play a critical role in cell damage at early reperfusion times following ischemia.     

碱中毒对小鼠皮质GABA能神经元特性和编码能力的影响

目的:研究碱中毒对小鼠皮质GABA能神经元内在特性和编码能力的影响,探讨碱中毒引起大脑功能障碍的机制。方法:选择17-22天FVB-Tg小鼠行脑片体外培养,实验对象分为碱中毒组和对照组。DIC光学显微镜下选择皮层II-III层GABA神经元,运用Axo Patch 200 B放大器全细胞模式,记录并分析神经元内在特性(包括阈电位、绝对不应期)的改变;记录与去极化脉冲相对应的峰值,分析GABA能神经元的编码能力。结果:1.阈电位峰值在对照组分别是24.58±0.68,25.44±0.82,27.02±0.78,27.55±0.74和28.66±0.79毫伏,碱中毒组分别是28.32±0.78,30.10±0.91,32.22±0.80,32.88±0.76和33.54±0.74毫伏,碱中毒组阈电位升高;绝对不应期在对照组和碱中毒组分别是4.15±0.06和5.09±0.08毫秒,碱中毒绝对不应期延长。2.两组在相同去极化刺激下诱发的连续峰值波形发生明显改变,碱中毒组产生峰值的能力下降。结论:1、碱中毒使皮质GABA能神经元动阈电位升高和绝对不应期延长;2、碱中毒降低皮质GABA能神经元编码峰值能力。     

新生SD大鼠皮质神经元的体外培养和鉴定

目的：建立高纯度的新生SD大鼠皮质神经元原代培养方法。方法：取24h内的新生SD大鼠皮质,用木瓜酶和DNaseⅠ共同消化,5％胎牛血清终止消化,吹打分离组织获得单细胞悬液,进行细胞计数,用无血清DMEM／F12种植培养,4h后换成用无血清Neurobasal配制的维持培养液继续培养,尼氏小体染色和免疫荧光法鉴定神经元的纯度。结果：培养第10d,神经元胞体饱满,结构清晰完整,光晕明显,折光性强,可见粗长的树突和轴突,相邻细胞形成紧密网状联系,神经元纯度达到96％以上。结论：经改良和优化,无须添加阿糖胞苷抑制胶质细胞的生长即能够获得生长状态良好、高纯度的神经元。     

金黄地鼠视皮层17、18区乙酰胆碱阳性神经元

利用乙酰胆碱( acetylcholine,Ach)自身抗体对金黄地鼠视皮层17、18区乙酰胆碱阳性神经元及其分布进行免疫学显示并进行量化分析.实验发现,Ach阳性细胞大部分为非锥体神经元,也有少量锥体神经元.Ach阳性神经元在视皮层的Ⅱ～Ⅵ层,主要分布在Ⅱ～Ⅳ层.在不同层次中其阳性神经元类型存在某些差异,Ⅱ～Ⅳ中双极细胞居多,其他层次中多极细胞占优势.17区的这类神经元数量较多且集中成垂直于皮层表面的细胞带,18区的神经元数量相对较少且多呈分散状态.