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本工作用全细胞膜片箝方法,观察了氟啶醇(haloperidol以下简称HALO)和R(-)-Propylnorapomorphine(以下简称NPA)对C6神经胶质瘤细胞(C6gliomacells)的电压依赖性钾电流的作用,并初步分析了它们的作用机制。结果表明,HALO和NPA都能抑制C6细胞的K^+J电流中的慢成分,而对快成分的作用有所不同。它们的抑制作用不是由多巴胺D2受体介导的,也不是通过 相似文献
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氧化修饰使HDL促动脉平滑肌细胞胆固醇流出减少 总被引:6,自引:0,他引:6
为了研究氧化修饰对高密度脂蛋白(HDL)转运细胞胆固醇地^3H-胆固醇负荷的培养人动脉平滑肌细胞(SMC)分别与天然HDL及Cu^2+akg HOCl氧化修饰的HDL在37℃温育不同时间后,分别测定细胞^3H-胆固醇清除率。结果发现,温育24h后,经Cu^2+或HOLl氧修饰后的HDL其细胞胆因醇清除率分别较天然HDL下降了30.0%和43.1%(p〈0.01)。结果还发现,Cu^2+或HOCl氧 相似文献
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本文对正常孕妇、妊娠高血压综合征(PIH)患者和经青心酮(DHAP)治疗的PIH患者等共24例,应用组织化学分析方法观察胎盘血管内皮细胞(VEC)和平滑肌细胞(VSMC)内一氧化氮合酶(NOS)活性的变化。结果表明:正常孕妇胎盘VEC和VSMC内NOS活性较高;PIH胎盘VEC和VSMC内NOS活性明显减弱,并伴有组织和细胞的形态学损伤;经DHAP治疗后的PIH胎盘VEC和VSMC细胞NOS活性较未经DHAP治疗者明显增加,其组织和细胞损伤也减轻。本研究结果提示胎盘内VEC和VSMC细胞的NOS减少可能与PIH的发生和/或发展有关,青心酮治疗PIH的作用可能与DHAP促进胎盘VEC和VSMC内一氧化氮(NO)合成有关。 相似文献
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用共聚焦显微镜观察ACh及ATP对豚鼠耳蜗外毛细胞Ca^2+的调控 总被引:4,自引:0,他引:4
用激光扫描共聚焦显微镜研究了一般公认的耳蜗传出神经递质乙酰胆碱(ACh)和三磷酸腺苷(ATP)对豚鼠耳蜗外毛细胞(OHCs)胞内游离Ca^2+浓度(Ca^2+)的作用,OHCs用Ca^2+敏感荧光染料Fluo-3着色,胞内Ca^2+的分布以细胞底部稍强。ACh在OHC底部引起Ca^2+的缓慢上长并维持在一个较高水平。ATP在整个OHC引起一个急剧的Ca^2+升高,升高幅度在OHC顶部最大。随着AT 相似文献
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神经元缺氧复氧损伤时氧自由基的毒性作用及其机制* 总被引:2,自引:0,他引:2
在原代分离培养Wistar乳鼠大脑皮质神经元上研究了缺氧复氧损伤(H/R)对神经细胞乳酸脱氢酶(LDH),漏出率,死亡率和脂质过氧化物含量的影响,并选用一氧化氮(NO)合酶抑制剂L-NG-硝基-精氨酸(L-NNA)巯基供体N-乙酰半胱氨酸(NAC)和超氧化物歧化酶(Cu,Zn-SOD)三种自由基清除剂进行预保护等方法来探讨机制。结果表明 H/R损伤引起LDH漏出率,细胞死亡率和脂过氧化物含量极显著 相似文献
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为探讨雄激素对人前列腺中鸟氨酸脱羧酶( O D C)基因表达的调节作用,以研究雄激素诱导前列腺良性增生的分子机理,分离培养了人胎儿前列腺间质细胞,以 M T T 法测定不同浓度 D H T对细胞的促增殖作用;以最适浓度的 D H T(1 000 μg/ L)刺激该细胞,分别于 0,3,6,12,24,30 h 提取总 R N A,用斑点杂交及 Northern blot 法分析测定各组细胞中 O D C m R N A 的丰度,并对杂交膜进行薄层扫描定量.结果显示:(1) D H T 对前列腺间质细胞的增殖呈双相调节作用,即在低浓度时随着 D H T 浓度的增加,对该细胞的促增殖作用增强,1 000 μg/ L时刺激活性最强,高浓度 D H T 对该细胞的刺激作用降低.(2)斑点杂交显示,在 1 000 μg/ L D H T 刺激细胞后 6 h 时, O D C m R N A开始明显升高,24 h 达高峰(约为 0 h 的 48 倍),至 30 h 有所降低.(3) Northern blot 结果显示,人胎儿前列腺间质细胞中有两种 O D C m R N A,分别为 20 kb 和 26 kb,经扫描定量结果显示:1 000μg/ L D H T 对两种 O D C m R N A 相似文献
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短距乌头根的两个新二萜生物碱 总被引:2,自引:0,他引:2
从短距乌头(Aconitum brevicalcaratum Diels)的根分离到两个新的二萜生物碱:短距乌碱丁(acobretine D, Ⅰ)和短距乌碱戊(acobretine E, Ⅱ),通过光谱技术(IR, MS, 1H 和13C-NMR)和化学方法确定了它们的结构。短距乌碱丁最初以盐酸盐的形式分得,利用1H-1HCOSY 和13C-1H COSY 归属了其盐的各碳和氢的化学位移值 相似文献
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G. Reuter M. Kössl W. Hemmert S. Preyer U. Zimmermann H. -P. Zenner 《Journal of comparative physiology. A, Neuroethology, sensory, neural, and behavioral physiology》1994,175(4):449-455
Isolated outer hair cells (OHCs) and explants ot the organ of Corti were obtained from the cochlea of the echolocating bat, Carollia perspicillata, whose hearing range extends up to about 100 kHz. The OHCs were about 10–30 m long and produced resting potentials between-30 to -69 mV. During stimulation with a sinusoidal extracellular voltage field (voltage gradient of 2 mV/m) cyclic length changes were observed in isolated OHCs. The displacements were most prominent at the level of the cell nucleus and the cuticular plate. In the organ of Corti explants, the extracellular electric field induced a radial movement of the cuticular plate which was observed using video subtraction and photodiode techniques. Maximum displacements of about 0.3–0.8 m were elicited by stimulus frequencies below 100 Hz. The displacement amplitude decreased towards the noise level of about 10–30 nm for stimulus frequencies between 100–500 Hz, both in apical and basal explants. This compares well with data from the guinea pig, where OHC motility induced by extracellular electrical stimulation exhibits a low pass characteristic with a corner frequency below 1 kHz. The data indicate that fast OHC movements presumably are quite small at ultrasonic frequencies and it remains to be solved how they participate in amplifying and sharpening cochlear responses in vivo.Abbreviations BM
basilar membrane
- FFT
fast Fourier Transfer
- IHC
inner hair cell
- OHC
outer hair cell 相似文献
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Effect of diamide on force generation and axial stiffness of the cochlear outer hair cell. 总被引:1,自引:0,他引:1 
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下载免费PDF全文 We found that diamide, which affects spectrin, reduces the axial stiffness of the cochlear outer hair cell, the cylindrically shaped mechanoreceptor cell with a unique voltage-sensitive motility. This effect thus provides a means of examining the relationship between the stiffness and the motility of the cell. For measuring axial stiffness and force production, we used an experimental configuration in which an elastic probe was attached to the cell near the cuticular plate and the other end of the cell was held with a patch pipette in the whole-cell recording mode. Diamide at concentrations of up to 5 mM reduced the axial stiffness in a dose-dependent manner to 165 nN per unit strain from 502 nN for untreated cells. The isometric force elicited by voltage pulses under whole-cell voltage clamp was also reduced to 35 pN/mV from 105 pN/mV for untreated cells. Thus the isometric force was approximately proportional to the axial stiffness. Our observations suggest a series connection between the motor and cytoskeletal elements and can be explained by the area motor model previously proposed for the outer hair cell. 相似文献
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Rachel Einarsson Marshall Haden Gabrielle DiCiolli Andrea Lim Kolina Mah-Ginn Kathleen Aguilar Lucy Yazejian Bruce Yazejian 《Journal of visualized experiments : JoVE》2012,(68)
Patch clamp analyses of the voltage-gated channels in sensory hair cells isolated from a variety of species have been described previously1-4 but this video represents the first application of those techniques to hair cells from zebrafish. Here we demonstrate a method to isolate healthy, intact hair cells from all of the inner ear end-organs: saccule, lagena, utricle and semicircular canals. Further, we demonstrate the diversity in hair cell size and morphology and give an example of the kinds of patch clamp recordings that can be obtained. The advantage of the use of this zebrafish model system over others stems from the availability of zebrafish mutants that affect both hearing and balance. In combination with the use of transgenic lines and other techniques that utilize genetic analysis and manipulation, the cell isolation and electrophysiological methods introduced here should facilitate greater insight into the roles hair cells play in mediating these sensory modalities. 相似文献
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The voltage-dependent activity of prestin, the outer hair cell (OHC) motor protein essential for its electromotility, enhances the mammalian inner ear's auditory sensitivity. We investigated the effect of prestin's activity on the plasma membrane's (PM) susceptibility to electroporation (EP) via cell-attached patch-clamping. Guinea pig OHCs, TSA201 cells, and prestin-transfected TSA cells were subjected to incremental 50 mus and/or 50 ms voltage pulse trains, or ramps, at rates from 10 V/s to 1 kV/s, to a maximum transmembrane potential of +/-1000 mV. EP was determined by an increase in capacitance to whole-cell levels. OHCs were probed at the prestin-rich lateral PM or prestin-devoid basal portion; TSA cells were patched at random points. OHCs were consistently electroporated with 50 ms pulses, with significant resistance to depolarizing pulses. Although EP rarely occurred with 50 mus pulses, prior stimulation with this protocol had a significant effect on the sensitivity to EP with 50 ms pulses, regardless of polarity or PM domain. Consistent with these results, resistance to EP with depolarizing 10-V/s ramps was also found. Our findings with TSA cells were comparable, showing resistance to EP with both depolarizing 50-ms pulses and 10 V/s ramps. We conclude prestin significantly affects susceptibility to EP, possibly via known biophysical influences on specific membrane capacitance and/or membrane stiffness. 相似文献
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将免疫荧光及传统全细胞膜片钳技术应用于新鲜分离的小鼠胃Cajal 间质细胞样细胞上,探讨了小鼠胃Cajal 间质细胞样细胞形态和电生理学特性。经胶原酶消化得到的Cajal间质细胞样细胞胞体呈短梭形,且自胞体发出多个较短的毛刺状突起。免疫细胞化学结果表明,Cajal 间质细胞样细胞胞体和突起酪氨酸激酶受体c-kit表达呈阳性。在传统全细胞记录模式、膜电位钳制在-60 mV 的条件下,可以记录到自发、节律性内向电流,即起搏电流。钙调蛋白抑制剂W-7 (50µmol/L)明显增强了起搏电流幅度并引发明显的内向钳制电流。当电极内液中EGTA 的浓度由0.1 mmol/L增加到10 mmol/L时,也明显增强了起搏电流幅度并引发明显的内向钳制电流。实验结果提示,新鲜分离的小鼠胃Cajal 间质细胞样细胞可以产生自发、自律性内向电流,而这种电流对胞内低钙或钙调蛋白抑制剂敏感。这种具有自发性电活动的Cajal 间质细胞样细胞可能就是胃Cajal 间质细胞。 相似文献
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The whole-cell patch electrode voltage clamp technique was used to study the inactivation properties of the delayed rectifying potassium current of single cultured embryonic chick hepatocytes at 20 degrees C. The potassium current activates maximally within 250-500 ms of membrane depolarization, after which it decays with a monoexponential time course. Both steady-state activation and inactivation are voltage dependent. Steady-state inactivation declines from 100% at -5 mV to 0 near -70 mV. with half inactivation at -41 mV. At the resting potential (EM) of these cells (-21.5 +/- 6.0 mV, n = 36) 6-18% of the IK channels are not inactivated and less than 5% are open. Development and removal of inactivation follow single exponential time courses. The inactivation time constant attains a maximum of around 30 s at -35 mV and is sharply voltage dependent at the EM of these cells. Measurement of EM under current clamp shows random oscillations of 5-10 mV amplitude. We suggest that the voltage- and time-dependent properties of IK, in tandem with a time- and voltage-independent, non-selective current also seen here, would provide the mechanism for a fluctuating EM. 相似文献
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Membrane tension directly shifts voltage dependence of outer hair cell motility and associated gating charge. 总被引:15,自引:4,他引:11 下载免费PDF全文
下载免费PDF全文 The unique electromotility of the outer hair cell (OHC) is believed to promote sharpening of the passive mechanical vibration of the mammalian basilar membrane. The cell also presents a voltage-dependent capacitance, or equivalently, a nonlinear gating current, which correlates well with its mechanical activity, suggesting that membrane-bound voltage sensor-motor elements control OHC length. We report that the voltage dependence of the gating charge and motility are directly related to membrane stress induced by intracellular pressure. A tracking procedure was devised to continuously monitor the voltage at peak capacitance (VpkCm) after obtaining whole cell voltage clamp configuration. In addition, nonlinear capacitance was more fully evaluated with a stair step voltage protocol. Upon whole cell configuration, VpkCm was typically near -20 mV. Negative patch pipette pressure caused a negative shift in VpkCm, which obtained a limiting value near the normal resting potential of the OHC (approximately -70 mV) at the point of cell collapse. Positive pressure in the pipette caused a positive shift that could reach values greater than 0 mV. Measures of the mechanical activity of the OHC mirrored those of charge movement. Similar membrane-tension dependent peak shifts were observed after the cortical cytoskeletal network was disrupted by intracellular dialysis of trypsin from the patch pipette. We conclude that unlike stretch receptors, which may sense tension through elastic cytoskeletal elements, the OHC motor senses tension directly. Furthermore, since the voltage dependence of the OHC nonlinear capacitance and motility is directly regulated by intracellular turgor pressure, we speculate that modification of intracellular pressure in vivo provides a mechanism for controlling the gain of the mammalian "cochlear amplifier". 相似文献
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Sripriya Ramamoorthy Teresa?M. Wilson Tao Wu Alfred?L. Nuttall 《Biophysical journal》2013,105(12):2666-2675
Intracochlear electric fields arising out of sound-induced receptor currents, silent currents, or electrical current injected into the cochlea induce transmembrane potential along the outer hair cell (OHC) but its distribution along the cells is unknown. In this study, we investigated the distribution of OHC transmembrane potential induced along the cell perimeter and its sensitivity to the direction of the extracellular electric field (EEF) on isolated OHCs at a low frequency using the fast voltage-sensitive dye ANNINE-6plus. We calibrated the potentiometric sensitivity of the dye by applying known voltage steps to cells by simultaneous whole-cell voltage clamp. The OHC transmembrane potential induced by the EEF is shown to be highly nonuniform along the cell perimeter and strongly dependent on the direction of the electrical field. Unlike in many other cells, the EEF induces a field-direction-dependent intracellular potential in the cylindrical OHC. We predict that without this induced intracellular potential, EEF would not generate somatic electromotility in OHCs. In conjunction with the known heterogeneity of OHC membrane microdomains, voltage-gated ion channels, charge, and capacitance, the EEF-induced nonuniform transmembrane potential measured in this study suggests that the EEF would impact the cochlear amplification and electropermeability of molecules across the cell. 相似文献
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Intracochlear electric fields arising out of sound-induced receptor currents, silent currents, or electrical current injected into the cochlea induce transmembrane potential along the outer hair cell (OHC) but its distribution along the cells is unknown. In this study, we investigated the distribution of OHC transmembrane potential induced along the cell perimeter and its sensitivity to the direction of the extracellular electric field (EEF) on isolated OHCs at a low frequency using the fast voltage-sensitive dye ANNINE-6plus. We calibrated the potentiometric sensitivity of the dye by applying known voltage steps to cells by simultaneous whole-cell voltage clamp. The OHC transmembrane potential induced by the EEF is shown to be highly nonuniform along the cell perimeter and strongly dependent on the direction of the electrical field. Unlike in many other cells, the EEF induces a field-direction-dependent intracellular potential in the cylindrical OHC. We predict that without this induced intracellular potential, EEF would not generate somatic electromotility in OHCs. In conjunction with the known heterogeneity of OHC membrane microdomains, voltage-gated ion channels, charge, and capacitance, the EEF-induced nonuniform transmembrane potential measured in this study suggests that the EEF would impact the cochlear amplification and electropermeability of molecules across the cell. 相似文献