大鼠上丘到外膝体P—物质投射的机能

已知大鼠外膝体内有中脑上丘来的含Ｐ－物质的神经末梢,其机能不明,在离体的大鼠外膝体脑片上用单电极电压箝位的方法研究了Ｐ－物质对外膝体神经元电压依赖性离子通道的作用。结果表明,Ｐ－物质可以使静息膜去极化,并降低膜电导。这提示Ｐ－物质抑制了线性钾漏电流。此外,Ｐ－物质还抑制去极化激活的慢失活的钾电流。低阈值钙电流和超极化激活的内向整流（Ｈ或Ｑ）电流。Ｐ－物质还可能抑制早钾（Ａ）电流。因此,Ｐ－物质在外     

二氧化硫衍生物对大鼠背根神经元瞬间外向钾电流和延迟整流钾电流的影响

运用全细胞膜片钳技术研究二氧化硫衍生物对大鼠背根神经元瞬间外向钾电流(IA和ID)和延迟整流钾电流(IK)的影响。结果发现二氧化硫衍生物剂量依赖性地增大钾通道的电导,电压依赖性地增大钾电流的幅度,且这种增大作用部分可逆。二氧化硫非常显著地使延迟整流钾电流的激活过程向超极化方向移动,使瞬间外向钾电流的失活过程向去极化方向移动。10μmol/L二氧化硫衍生物作用前后,延迟整流钾电流的半数激活电压分别是(20.3±2.1)mV和(15.0±1.5)mV;IA和ID的半数失活电压分别朝去极化方向移动了6mV和7.4mV。这些结果表明二氧化硫改变了钾通道的特性,改变了神经元的兴奋性。     

脱氧鬼臼毒素对美洲大蠊背侧不成对中间神经元电压

目的:探讨脱氧鬼臼毒素(DOP)对美洲大蠊背侧不成对中间神经元(DUM)电压依赖性钾电流IK的影响。方法:采用全细胞膜片钳技术研究脱氧鬼臼毒素对美洲大蠊背侧不成对中间神经元电压依赖性钾电流的电流幅度,电流-电压关系以及激活曲线的影响。结果:DOP能够抑制电压依赖性钾通道电流的幅度,而且此抑制作用具有浓度依赖性(5、10、20、40μmol/L)。DOP抑制IK的半数抑制浓度(IC50)值为18.064μmol/L。20μmol/L DOP能使IK的电流-电压关系曲线下移,并能使IK的激活曲线向去极化方向移动。结论:DOP对美洲大蠊背侧不成对中间神经元(DUM)电压依赖性钾电流具有抑制作用,这可能是其杀虫作用的机制之一。     

神经降压素对迷走运动背核神经元兴奋作用的离体研究

用细胞内微电极记录方法在大鼠离体脑片中研究了神经降压素(NT)对迷走运动背核(DMV)神经元的作用机制。滴注或灌流NT使88％DMV神经元产生剂量依赖性去极化反应,并伴有膜阻抗的增加。去极化反应的翻转电位约-82mV,反应幅度受灌流液中钾离子浓度的影响。用高镁无钙液或含河豚毒素的灌流液阻断突触传递后,去极化反应仍然存在。研究结果提示NT通过突触后机制直接兴奋DMV神经元,此去极化兴奋作用可能与钾通道的关闭有关。     

乙酰胆碱减小猫外膝体中继细胞低阈值T—型钙电导

在离体猫丘脑脑片上观察了乙酰胆碱对外膝体中继神经元膜的低阈值Ｔ－型钙电导的影响。电流箝位和电压箝位实验结果都显示：将膜电位箝制到给药前的对照水平,排除了乙酰胆碱的去极化作用后,大多数（８２％）外膝外神经元的低阈值钙电导仍然被乙酰胆碱所抑制。说明这种抑制作用独立于乙酰胆碱引起的膜电位变化,而是对低阈值Ｔ－型钙通道的直接作用。     

P物质对大鼠骶髓后连合核神经元甘氨酸激活的氯电流的调控

采用制霉菌素穿孔膜片箍技术,研究了Ｐ物质对急性分离的大鼠骶髓后的核神经元士的宁敏感性甘氨酸反应的调控作用。在箍制电压为－４０ｍＶ时,ＳＰ时１ｍｍｏｌ／Ｌ－１μｍｏｌ／Ｌ之间呈浓度依赖性地增强３０μｍｏｌ／Ｌ甘氨酸激活的氯电流。ＳＰ既不改变ＩＧｌｙ的翻转电位,也不是影响Ｇｌｙ与其受体的亲和力。Ｓｐａｎｔｉｄｅ和选择性Ｎ中受体拮抗剂,Ｌ－６６８,１６９,可阻断ＳＰ的增强作用,而选择性ＮＫ２受体拮抗剂,     

奥卡西平对偏头痛大鼠三叉神经节神经元钙电流的影响*

目的:研究奥卡西平(Oxcarbazepine,OXC)对大鼠三叉神经节神经元钙电流的调控作用。方法:SD大鼠随机分为3组(n=8):生理盐水组(NS组),致炎剂组(IS组),OXC预防组。应用膜片钳技术,采用全细胞记录方式,观察OXC对偏头痛大鼠急性分离的三叉神经节的高电压激活钙电流(HVA-ICa)的调控作用。结果:OXC能够抑制钙电流,使钙电流的激活曲线向去极化方向移动,使钙电流的失活曲线向超级化方向移动。结论:OXC可能通过抑制钙离子进入细胞膜,来预防偏头痛的发作。同时OXC可能对外周神经系统及伤害感受的传入的兴奋性起到调控作用。     

猫外膝体中继细胞低阈值钙通道的动力学特性

在猫外膝体脑片上用单电极电压钳位的方法研究了低阈值T-型钙离子通道的动力学特性.采用阻断各种钾和钠离子通道、减小钙离子电流和选择适当的维持电位等方法,改善了脑片实验的空间钳位.所得结果与大鼠外膝体急性分离神经元的结果一致.说明猫外膝体神经元T-型钙离子通道的动力学特性与大鼠的相同.     

研究: 外膝状体神经元的亮度反应与感受野ON-OFF反应的关系

外膝体是视觉信息进入新皮层的主要通路,其编码亮度信息的神经机制还不清楚.我们采用随机呈现的连续快速变化(50 Hz)的均匀亮度刺激,显著地提高了猫外膝体神经元对均匀亮度的反应强度,通过反相关算法抽提出神经元的亮度反应函数.约81%的神经元的亮度反应函数为单调性上升或下降,有19%的神经元亮度反应函数为V型.通过分析这些神经元对亮度上升和下降的反应强度与感受野ON和OFF反应强度的关系,表明83%的神经元对亮度的反应模式是由其感受野ON-OFF反应的相对强度决定的,其余17%则与其感受野ON-OFF区的兴奋和抑制的变化相关.这些结果揭示了外膝体神经元编码亮度变化的机制.     

胞外pH降低对肺动脉平滑肌细胞膜上电压门控性钾通道的调节

目的：观察pH对大鼠肺动脉平滑肌细胞（PASMCs）钾电流的调控作用并探讨其机制。方法：用全细胞膜片钳技术记录在正常细胞外液和不同pH的灌流液中,PASMCs膜上电压门控性钾电流大小（Ikv）,并分析了其电生理学特性的改变。结果：①胞外pH降低可快速可逆性抑制Ikv。,与对照相比（pH7.4）,pH值为7.0、6.5、6.0时,＋60mV处的峰电流的抑制率分别为：16.93％±2.47％、33.03％±2.13％、41.59％±6.53％,电流一电压关系曲线右下移。②胞外pH为7.0、6.5、6.0时,使电压依赖性Gk-Em向去极化方向移动。同时使半激活电压增加。结论：在缺氧所致缺氧性肺血管收缩反应（HPV）的发生中,胞外pH的降低可参与对Ikv的调节,从而使细胞膜去极化,Ikv减小电压门控钙通道打开,平滑肌细胞收缩,这可能是缺氧导致HPV的机制之一。     

Enkephalin and substance P effects related to trigeminal pain

Iontophoretic applications of enkephalin (20-150 nA) reduced the spontaneous firing frequency of nociceptive neurons in the trigeminal nucleus caudalis of decerebrated cats. The response evoked by noxious stimulation (tooth pulp) was gradually inhibited during the 1st minute of application of the opioid and generally remained depressed for 5 min after the current was turned off. These effects of enkephalin were blocked by intravenously or iontophoretically administered naloxone. Nonnociceptive neurons or nociceptive neurons responding to nonnoxious inputs were less frequently inhibited by enkephalin. When tested on nonnociceptive cells, similar applications of substance P usually had little effect. Nociceptive neurons, however, were strongly excited by substance P. This action was not constant and was interrupted by periods of inactivation. Both types of peptide action were similar in temporal aspects. The results suggest a functional interrelationship between enkephalin and substance P in a trigeminal system mediating nociception.     

Computation of responses to color and brightness differences of neurons in the rabbit lateral geniculate nucleus

Changes in activity of 51 neurons in the rabbit lateral geniculate nucleus evoked by the replacement of eight color and eight achromatic stimuli in pairs were analyzed. It was found that neurons displayed the earliest phasic (within 50-90 ms after the replacement) and tonic response components. The earliest component strongly correlated with differences between stimuli, whereas the tonic component depended on stimuli intensity. Analysis of phasic component revealed two neuronal populations: the first group of cells was specialized for stimuli differentiation only by their intensities, and, and the second group could measure differences in colors and intensities. Neuronal perceptual spaces were reconstructed using the average of the earliest response component as a measure of differences between stimuli. Spaces of 44 neurons (86%) were two-dimensional with brightness and darkness axes. Such neurons had the same structures of space for color and achromatic stimuli. Spaces of 7 neurons (14%) were four-dimensional with two chromatic and two achromatic axes. The structures of perceptual space reconstructed from neurons in the lateral geniculate nucleus were identical to the spaces calculated from the neurons in the primary visual cortex. The structure of the perceptual space reconstructed from neuronal spikes was also similar to space calculated from the N85 visual evoked potential component recorded under similar conditions and to another space reconstructed on the basis of rabbit's instrumental learning. This fact confirmed the general principle of vector coding in the visual system. The tonic component of the most of neurons in the lateral geniculate nucleus showed a linear correlation with changes in intensities, thereby these neurons could be characterized as pre-detectors for cortical selective detectors.     

Conduction of excitation in the cat visual system

Unit responses in area 17 of the visual cortex to stimulation of the lateral geniculate body and optic tract were studied in experiments on unanesthetized cats immobilized with D-tubocurarine. Of the neurons tested, 53.6% responded to stimulation of the lateral geniculate body. In 92% of these cells the responses were orthodromic with latent periods of between 2 and 12.5 msec. Most cells responded with latent periods of 2.0–2.5, 3.0–3.5, and 4.0–4.5 msec, corresponding to latent periods of the components of the electropositive wave of the primary response. Antidromic responses to stimulation of the lateral geniculate body were given by 8% of neurons. The difference between the latent periods of responses of the same visual cortical neurons to stimulation of the optic tract and lateral geniculate body was 0.1–1.8 msec, but for most neurons (55.8%) it was 0.5–1 msec. The histograms of response latencies of visual cortical neurons to stimulation of the above-mentioned formations were found to be similar. It is concluded that the optic radiation contains three principal groups of fibers with conduction velocities of 28.5–16.6, 11.7–8.9, and 7.4–6.0 m/sec, respectively.A. A. Bogomolets Institute of Physiology, Academy of Sciences of the Ukrainian SSR, Kiev. Translated from Neirofiziologiya, Vol. 7, No. 6, pp. 589–596, November–December, 1975.     

单眼视觉剥夺猫外膝体神经元的双眼反应特性

采用在位（ｉｎ ｖｉｖｏ） 胞内记录技术,研究了单眼视觉剥夺猫外膝体（ＬＧＮ） 神经元的双眼反应特性（ｂｉｎｏｃｕｌａｒｉｔｙ） , 结果发现单眼剥夺猫外膝体几乎所有的双眼反应神经元都对非优势眼的闪烁光斑刺激有不同程度的反应,并且剥夺层和非剥夺层神经元在反应特性上没有明显差异。但是,与非剥夺层神经元相比,几乎没有剥夺层的神经元能对非优势眼的正弦移动光栅刺激起反应,并受其空间频率的调制。结果提示皮层下外膝体水平上这种双眼反应的某些精细反应性质可能与后天视觉经验的修饰有关,并可能受皮层反馈输入的影响。     

Interaction between visceral,somatic, and visual excitation on single neurons of the lateral geniculate body in cats

Acute experiments on cats anesthetized with pentobarbital and immobilized with diplacin or listhenon showed that visceral and somatic excitation may either facilitate or inhibit single unit activity in the lateral geniculate body evoked by photic stimulation. The manifestations of facilitation were: a modulatory type of enhancement of responses of silent neurons and neurons with a low level of spontaneous activity; enhancement of responses accompanied by simultaneous depression of spontaneous activity — a sensory contrast effect; enhancement of long-latency responses; appearance of a short-latency discharge from cells with an inhibitory response to light; the appearance of responses to light in neurons not responding previously or stabilization of responses in neurons responding to light irregularly. The inhibitory effects were manifested as immediate inhibition of responses, usually long-latency, and the filling up of the inhibitory pauses of the response to light with spikes, leading to a decrease in the signal-noise ratio. Somatic stimulation was more effective and more frequently evoked facilitation of responses to light (in 74% of cells). Similar results were obtained by stimulation of the mesencephalic reticular formation. Visceral excitation gave rise to facilitatory and inhibitory effects to an almost equal degree. The results show that excitation arising as the result of visceral and somatic stimulation affects the conduction of visual information in the neuronal system of the lateral geniculate body.Ivano-Frankovsk Medical Institute. Institute of Experimental Medicine, Academy of Medical Sciences of the USSR, Leningrad. Translated from Neirofiziologiya, Vol. 5, No. 6, pp. 636–643, November–December, 1973.     

胎儿视皮质皮质下层含─氧化氮合酶神经元的发育

本文用出生前１７周至３６周胎儿标本１０个,死后４小时内作常规灌注固定,取脑后作视皮质冰冻切片（３０ｕｍ）,用一氧化氮合酶（ＮＯＳ）组织化学法孵育切片２～４小时,在视皮质皮质下层（ＳＰ）可见ＮＯＳ强阳性神经元。这些神经元胞体大小不一、形态各异、突起显示呈高尔基染色外观,部分神经纤维含有膨体和生长锥。２０周以后,从ＳＰ层有ＮＯＳ阳性神经纤维伸入皮质板或白质。随着胎龄增长,ＮＯＳ阳性神经元密度增加,胞体切面积增大,神经元由幼稚趋向成熟。本研究还观察到胎儿ＳＰ内ＮＯＳ阳性神经元可从形态上明显地划分为两个阶段,并推测ＮＯＳ合成的一氧化氮（ＮＯ）在突触建立和修饰、突触间信息传递、传入纤维对靶器官的识别和脑组织局部血流调节等过程中起着重要作用。     

猫外侧膝状体神经元HRP示踪结合生长抑素的免疫组织化学研究

本文采用HRP逆行示踪的方法,在猫视皮质的17区多点微量注射30％HRP,逆行标记外侧膝状体核（LGN）至视皮质的中继神经元,继用免疫金银法作生长抑素（SS）免疫组织化学,试图双标记LGN的中断神经元。结果显示：光镜下HRP标记细胞与SS是性细胞清晰可辨,HRP标记细胞内为较粗的棕色颗粒,分布于胞浆和树突基部;而SS免疫阳性细胞内的颗粒为银染黑色颗粒;HRP和SS双标记神经元内,上述两种颗粒共存,警备LGN的A、A1和C板层均有SS免疫阳性凶的分布;HRP标记细胞分布于A和A1板层;双标记神经元位于A和A1板层;C板层未见。本文结合以前的研究认为,SS在LGN至视皮质传导通路中的作用,可能与视觉信息的传递和调制有关。     

Geniculate relay of interhemispherical transmission of visual information

Electrophysiological experiments were made on conscious cats with different degree of dissection of the classical and commissural optic tracts to the lateral geniculate body. The data obtained indicated that dissection of the direct retinal tracts to the lateral geniculate body (unilateral dissection of the optic tract) leads merely to the reduction in the amplitude of evoked potentials in response to light flashes. However, the latent period of the first component of the response in this structure appeared the same as in intact animals. Comparison of these data with those obtained in analogous experiments made on the visual cortex allows the conclusion that the geniculate body is the main subcortical relay of the visual commissural effects which are transmitted from the retina to the cortical regions of the brain.     

Changes in the evoked potentials in the visual and association cortex of the alert cat after changing the order of stimulation of the lateral geniculate body and superior colliculi

In chronic experiments on alert cats the preceding stimulation of the lateral geniculate body (LGB) facilitates the response in the visual cortex to testing stimulation of the anterior colliculi (AC) at all studied delays between stimuli in contrast to the associative cortex where this response has been depressed in intervals of 10-40 ms. In reverse order of stimulation, facilitation of response to testing LGB stimulation is observed at all studied delays in the associative cortex, while in the visual cortex this response is slightly depressed. The obtained data point to the importance of the information coming in the accessory zones of LGB and AC projections and to different informational value of AC inputs to the associative and visual cortices and reciprocal relations between inputs to these cortical areas from LGB and AC.     

Ageing and monoamine turnover in the lateral geniculate nucleus and visual cortex of the rat

The effects of ageing on the turnover of dopamine, noradrenaline and serotonin in the lateral geniculate nucleus and the visual cortex were evaluated, using high performance liquid chromatography (HPLC) with electrochemical detection. Compared to adult animals, aged rats showed more changes in the visual cortex than in the lateral geniculate nucleus, with dopamine turnover decreased in both structures and noradrenaline turnover unaltered. Changes in serotonin turnover were witnessed only in the visual cortex. A decrease in the monoamine oxidase-A to -B ratio was also observed with increased age for both the lateral geniculate nucleus and visual cortex.