Acute exposure to low-level CW and GSM-modulated 900 MHz radiofrequency does not affect Ba 2+ currents through voltage-gated calcium channels in rat cortical neurons

We have studied the non-thermal effects of radiofrequency (RF) electromagnetic fields (EMFs) on Ba(2+) currents (I Ba 2+) through voltage-gated calcium channels (VGCC), recorded in primary cultures of rat cortical neurons using the patch-clamp technique. To assess whether low-level acute RF field exposure could modify the amplitude and/or the voltage-dependence of I Ba 2+, Petri dishes containing cultured neurons were exposed for 1-3 periods of 90 s to 900 MHz RF-EMF continuous wave (CW) or amplitude-modulated according to global system mobile communication standard (GSM) during whole-cell recording. The specific absorption rates (SARs) were 2 W/kg for CW and 2 W/kg (time average value) for GSM-modulated signals, respectively. The results obtained indicate that single or multiple acute exposures to either CW or GSM-modulated 900 MHz RF-EMFs do not significantly alter the current amplitude or the current-voltage relationship of I Ba 2+, through VGCC.     

Activity-dependent regulation of HCN1 protein in cortical neurons

Homeostasis of neuronal activity is crucial to neuronal physiology. In dendrites, hyperpolarization-activated cyclic nucleotide-gated channel (HCN) 1 is considered to play critical roles in this process. While electrophysiological studies have demonstrated the dynamic modulation of I_h current mediated by HCN1 proteins, little is known about the underlying molecular and cellular mechanisms. In this study, we utilized cortical cultured neurons and biochemical methods to identify molecular and cellular mechanisms that mediate the physiological regulation of HCN1 channel functions in cortical neurons. Pharmacological manipulations of neuronal activity resulted in changes in the expression level of HCN1. In addition, the surface expression of HCN1 was dynamically regulated by neuronal activity. Both of these changes led to functional modulations of HCN1 channels. Our study suggests that coordinated changes in protein expression and surface expression of HCN1 serve as the key regulatory mechanisms controlling the function of endogenous HCN1 protein in cortical neurons.     

下丘脑神经元钙激活钾通道的整流现象

目的研究SD乳鼠下丘脑神经元中钙激活钾通道的整流现象.方法采用膜片钳内面向外式记录方式.结果记录到一种大电导钙激活钾通道(KCa),在对称140mmol/L[K+]时内向电导为(171±12)pS,不随[Ca2+]变化而改变,而外向电导可受[Ca2+]调控,当[Ca2+]为500μmol/L时,外向电导为(76±14)pS.[Ca2+]越大,整流现象越明显,Mg2+对这种KCa的整流作用不明显.结论下丘脑神经元中KCa具有Ca2+依赖性整流现象,它可能与神经元的兴奋性和稳定性有关.     

Role of G‐proteins in the effects of leptin on pedunculopontine nucleus neurons

The pedunculopontine nucleus (PPN), the cholinergic arm of the reticular activating system, regulates waking and rapid eye movement sleep. Here, we demonstrate immunohistochemical labeling of the leptin receptor signaling isoform in PPN neurons, and investigated the effects of G‐protein modulation and the leptin triple antagonist (TA) on the action of leptin in the PPN. Whole‐cell patch clamp recordings were performed in rat brainstem slices from 9 to 17 day old pups. Previous results showed that leptin caused a partial blockade of sodium (I_Na) and h‐current (I_H) in PPN neurons. TA (100 nM) reduced the blockade of I_Na (~ 50% reduction) and I_H (~ 93% reduction) caused by leptin. Intracellular guanosine 5′‐[β‐thio]diphosphate trilithium salt (a G‐protein inhibitor) significantly reduced the effect of leptin on I_Na(~ 60% reduction) but not on I_H (~ 25% reduction). Intracellular GTPγS (a G‐protein activator) reduced the effect of leptin on both I_Na (~ 80% reduction) and I_H (~ 90% reduction). These results suggest that the effects of leptin on the intrinsic properties of PPN neurons are leptin receptor‐ and G‐protein dependent. We also found that leptin enhanced NMDA receptor‐mediated responses in single neurons and in the PPN population as a whole, an effect blocked by TA. These experiments further strengthen the association between leptin dysregulation and sleep disturbances.

     

小剂量芬太尼联合咪达唑仑对大鼠皮质神经元钠离子通道电流的影响

目的：观察小剂量芬太尼联合咪达唑仑对大鼠大脑皮层神经元细胞膜电压门控性钠离子通道电流的影响。方法：用膜片钳全细胞记录方式观察小剂量芬太尼联合咪达唑仑对原代培养的新生SD大鼠大脑皮层神经元钠离子通道电流的影响。实验分为空白组,即未用药组;芬太尼5μg/L（F5）组和芬太尼5μg/L＋咪达唑仑200μg/L（F5＋M200）组。结果：F5＋M200组平均最大电流密度为（-213.98±91.68）pA/pF,明显低于空白组（-267±115.36）pA/pF（n=5,P〈0.05）和F5组（-231.90±97.16）pA/pF（n=5,P〈0.05）。结论：小剂量芬太尼联合咪达唑仑对皮质神经元钠离子通道电流的抑制作用较单一芬太尼组具有增强效应,这可能是临床两种药物合用后镇静镇痛作用增强原因之一。     

Regulation of calcium currents and secretion by magnesium in crustacean peptidergic neurons

The effect of varying the external Mg²⁺ concentration on Ca²⁺ currents through voltage-operated Ca²⁺ channels has been examined with the patch-clamp technique in acutely isolated neuronal somata from the X-organ-sinus gland (XOSG) of the crab,Cardisoma carnifex. Neurons from this neurosecretory system were selected for morphology associated with crustacean hyperglycemic hormone (CHH) content. In parallel, the effects of Mg²⁺ concentration on K⁺-evoked secretion of CHH from isolated, intact XOSGs have been assayed by ELISA. At physiological Ca²⁺ levels the high-voltage-activated Ca²⁺ currents were attenuated with increasing Mg²⁺ concentration, with 50% inhibition at 75 mM. Mg²⁺ block was voltage-dependent, relief from block occurring with increasing depolarization. Thus, in 24 mM Mg²⁺ inhibition of the Ca²⁺ current was 55% at –10 mV and 30% at +20 mV. Secretion of CHH varied almost linearly with the log of Mg²⁺ concentration; in 2.4 mM Mg²⁺ it was double that in 24 mM Mg²⁺ and almost completely inhibited in 100 mM. Thus, Mg²⁺ produces a parallel inhibition of Ca²⁺ currents and CHH secretion and may play a role as a physiological modulator of neuronal activity and secretion in the XOSG of these crabs.     

Nicotinic acetylcholine receptors containing α6 subunits contribute to alcohol reward‐related behaviours

Evidence is emerging that neuronal nicotinic acetylcholine receptors (nAChRs) in the mesolimbic dopamine (DA) system are involved in mediating the reinforcing effects of alcohol. Midbrain DA neurons express high levels of α6 subunit‐containing nAChRs that modulate DA transmission, implicating their involvement in reward‐related behaviours. This study assessed the role of α6‐containing nAChRs in modulating alcohol reward using transgenic mice expressing mutant, hypersensitive α6 nAChR subunits (α6L9′S mice). α6L9′S mice and littermate controls were tested in three well‐established models of alcohol reward: 24‐h two‐bottle choice drinking, drinking in the dark (DID), and conditioned place preference (CPP). Confocal microscopy and patch‐clamp electrophysiology were used to show the localization and function of hypersensitive α6 subunit‐containing nAChRs. Results indicate that female α6L9′S mice showed significantly higher alcohol intake at low concentrations of alcohol (3% and 6%) in the two‐bottle choice procedure. Both male and female α6L9′S mice drank significantly more in the DID procedure and displayed an alcohol‐induced place preference using a low dose of alcohol (0.5 g/kg) that was ineffective in littermate controls. Confocal microscopy showed that α6 subunit‐containing nAChRs are selectively expressed on ventral tegmental area (VTA) DAergic, but not GABAergic neurons. Patch‐clamp electrophysiology showed that VTA DA neurons of α6L9′S mice are hypersensitive to ACh. Collectively, these results suggest that α6L9′S mice are more sensitive to the rewarding effects of alcohol, and suggest that VTA α6 subunit‐containing nAChRs modulate alcohol reward. Thus, α6 subunit‐containing nAChRs may be a promising therapeutic target for treatment of alcohol use disorders .     

甲硫—脑啡肽对大鼠DRG分离神经元ATP—激活内向电流的抑制

本研究探讨了甲硫-脑啡肽(met-Enk)对ATP-激活电流(IATP)的调制作用.实验在大鼠新鲜分离背根神经节(DRG)神经元上进行.应用全细胞膜片钳技术所记录的IATP为内向电流.在被检测的DRG神经元中,90.0%(45/50)的细胞对ATP有反应.在45个对ATP敏感的细胞中对大部分细胞(29/45)施加met-Enk(10-9～10-5mol/L)也引起一内向电流;少部分细胞(9/45)为外向电流;其余的细胞(7/45)未引起可检测的膜反应.预加met-Enk后IATP明显地被抑制,此种抑制作用为剂量依赖性的.在预加10-9、10-8、10-7、10-6、10-5mol/Lmet-Enk后,IATP的抑制分别为13.2±5.4%(n=5)、39.2±8.6%(n=8)、54.1±8.6%(n=8)、43.3±7.9%(n=7);43.1±7.9%(n=7)(mean±SKM).阿片肽拮抗剂纳洛酮能翻转此种抑制效应.IATP的量-效关系表明,预加met-Enk后曲线明显压低,在浓度为10-3mol/L时IATP下降约25%,而Kd值几乎不变.应用二次钳压技术胞内透析H-9(PKA抑制剂)能取消此种抑制作用.上述结果提示met-Enk对IATP的抑制效应为非竞争性抑制作用,可能是由于阿片受体激活后,经相应的胞内信号转导途径使ATP受体磷酸化所致.     

cAMP和cGMP对棉铃虫神经细胞高电压激活钙通道的调节作用

用全细胞膜片钳法研究了cAMP和cGMP对棉铃虫Helicoverpa armigera 3龄幼虫胸腹神经节细胞高电压激活钙通道的调节作用。细胞外液中加入腺苷酸环化酶（AC）激活剂福斯克林（forskolin） 0.1 mmol/L,对于Ba²⁺介导的钙通道电流激活电压、峰电压、峰电流变化以及通道激活和电流达到峰值的时间无影响。电极内液中加入1 mmol/L的cGMP则明显抑制峰电流,且抑制作用呈时间依赖性和浓度依赖性,而对激活电压、峰电压无影响。结果提示,棉铃虫神经细胞高电压激活钙通道的活动可能不受细胞内cAMP水平提高的影响,但被cGMP抑制。     

Early intermediates in the transport cycle of the neuronal excitatory amino acid carrier EAAC1

Electrogenic glutamate transport by the excitatory amino acid carrier 1 (EAAC1) is associated with multiple charge movements across the membrane that take place on time scales ranging from microseconds to milliseconds. The molecular nature of these charge movements is poorly understood at present and, therefore, was studied in this report in detail by using the technique of laser-pulse photolysis of caged glutamate providing a 100-micros time resolution. In the inward transport mode, the deactivation of the transient component of the glutamate-induced coupled transport current exhibits two exponential components. Similar results were obtained when restricting EAAC1 to Na(+) translocation steps by removing potassium, thus, demonstrating (1) that substrate translocation of EAAC1 is coupled to inward movement of positive charge and, therefore, electrogenic; and (2) the existence of at least two distinct intermediates in the Na(+)-binding and glutamate translocation limb of the EAAC1 transport cycle. Together with the determination of the sodium ion concentration and voltage dependence of the two-exponential charge movement and of the steady-state EAAC1 properties, we developed a kinetic model that is based on sequential binding of Na(+) and glutamate to their extracellular binding sites on EAAC1 explaining our results. In this model, at least one Na(+) ion and thereafter glutamate rapidly bind to the transporter initiating a slower, electroneutral structural change that makes EAAC1 competent for further, voltage-dependent binding of additional sodium ion(s). Once the fully loaded EAAC1 complex is formed, it can undergo a much slower, electrogenic translocation reaction to expose the substrate and ion binding sites to the cytoplasm.     

不同信号分子参与M胆碱能受体激动剂对不同胚胎发育阶段小鼠心肌细胞起搏电流的调控

应用全细胞膜片钳技术,研究了M胆碱能对不同孕期的胚胎小鼠心肌细胞的起搏电流(If)的调节。我们发现,在胚胎发育的早期阶段,M胆碱能受体激动剂(muscarinic agonist carbachol,CCh)明显抑制If,但在胚胎发育的晚期阶段,CCh对If的抑制作用消失。腺苷酸环化酶(adeinylate cyclase,AC)激动剂毛喉素Forskolin和非选择性磷酸二酯酶(PDE)抑制剂IBMX均可增强发育早期阶段和晚期阶段的If。但有趣的是,尽管,Forskolin和IBMX可增加基础If,它们对CCh抑制的If的作用却大不相同。在胚胎发育的早期阶段,Forskolin不能拮抗CCh对If的抑制作用,但IBMX可以。在发育的中期阶段Forskolin可以拮抗CCh的抑制作用,但IBMX不可以。因此,我们推断,CCh可能是通过调控细胞内的CAMP水平来调节If的。但是在胚胎发育的早期阶段和中期阶段,CCh可能通过不同的信号转导通路来实现对胞内cAMP的水平调控。在发育的早期阶段,CCh主要是通过增强PDE的活性,加速cAMP的降解而实现对f的调控。而在发育的中期阶段,CCh则主要通过与AC耦联,抑制其活性,通过减慢cAMP的合成而实现对If的调控。     

1-Methyl-4-phenylpridinium (MPP+)-induced functional run-down of GABA(A) receptor-mediated currents in acutely dissociated dopaminergic neurons

We have evaluated GABA(A)receptor function during treatment of 1-methyl-4-phenylpridinium (MPP+) using patch-clamp perforated whole-cell recording techniques in acutely dissociated dopaminergic (DAergic) neurons from rat substantia nigra compacta (SNc). Gamma-aminobutyric acid (GABA), glutamate or glycine induced inward currents (I(GABA), I(Glu), I(Gly)) at a holding potential (VH) of -45 mV. The I(GABA) was reversibly blocked by the GABA(A) receptor antagonist, bicuculline, suggesting that I(GABA) is mediated through the activation of GABA(A) receptors. During extracellular perfusion of MPP+ (1-10 microm), I(GABA) , but neither I(Glu) nor I(Gly), declined (termed run-down) with repetitive agonist applications, indicating that the MPP+-induced I(GABA) run-down occurred earlier than I(Gly) or I(Glu) under our experimental conditions. The MPP+-induced I(GABA) run-down can be prevented by a DA transporter inhibitor, mazindol, and can be mimicked by a metabolic inhibitor, rotenone. Using conventional whole-cell recording with different concentrations of ATP in the pipette solution, I(GABA) run-down can be induced by decreasing intracellular ATP concentrations, or prevented by supplying intracellular ATP, indicating that I(GABA) run-down is dependent on intracellular ATP concentrations. A GABA(A) receptor positive modulator, pentobarbital (PB), potentiated the declined I(GABA) and eliminated I(GABA) run-down. Corresponding to these patch-clamp data, tyrosine hydroxylase (TH) immunohistochemical staining showed that TH-positive cell loss was protected by PB during MPP+ perfusion. It is concluded that extracellular perfusion of MPP+ induces a functional run-down of GABA(A) receptors, which may cause an imbalance of excitation and inhibition of DAergic neurons.     

成年大鼠海马CA1区锥体细胞K_(ATP)通道的特性

为了解成年大鼠海马CA1区锥体细胞KATP 通道的特性 ,实验采用膜片钳技术的内面向外式记录法 ,在急性分离的CA1区锥体神经元上 ,研究了可被胞浆侧ATP所抑制的钾离子单通道的特性。当细胞膜内外两侧的K 浓度均为 14 0mmol/L时 ,通道的电导为 63pS ,翻转电位为 1 71mV ,通道呈弱内向整流性。在负钳制电位时 ,通道开放时常被短时程的关闭所打断 ,而在正钳制电位时 ,这种短时程的关闭状态明显少于负钳制电位时。但通道开放概率未见明显的电压依赖性。ATP对通道活动的抑制作用呈浓度依赖性 ,抑制通道活动 5 0 %的ATP浓度为 0 1mmol/L。KATP 通道的特异性阻断剂tolbutamide (甲糖宁 ,1mmol/L)可完全阻断通道的活动 ,而KATP 通道开放剂diazoxide (二氮嗪 ,1mmol/L)则不增强通道的活动。     

Double-gating mechanism and diversity of an adenosine triphosphate (ATP)-sensitive K~ channel in neurons acutely dissociated from rat neocortex

Classically, ion channels are classified into 2 groups: chemical-sensitive (ligand-gated) and voltage-sensitive channels. Single ATP-sensitive K (K-ATP) channel currents were recorded in acutely dissociated rat neo-cortical neurons using patch clamp technique. A type of K-ATP channel has been found to be gated not only by intra-cellular ATP, but also by membrane potential ( Vm) , and proved to be a novel mechanism underlying the gating of ion channels, namely bi-gating mechanism. The results also show that the K-ATP channels possess heterogeneity and di-versity. These types of K-ATP channels have been identified in 40.12% of all patches, which are different in activa-tion-threshold and voltage-sensitivity. The present experiment studied the type-3 K-ATP channel with a unitary con-ductance of about 80 pS in detail ( n = 15). Taking account of all the available data, a variety of K-ATP channels are suggested to exist in body, and one type of them is bi-gated by both chemical substances and membrane poten     

苦参碱对棉铃虫幼虫神经细胞钠通道的影响

用全细胞膜片钳技术研究了生物碱类植物杀虫剂苦参碱对棉铃虫Helicoverpa armigera幼虫离体培养中枢神经细胞钠离子通道门控过程的影响。结果表明： 苦参碱对棉铃虫幼虫神经细胞所表达的TTX （tetradotoxin, 河豚毒素)敏感钠通道具有浓度依赖性阻滞作用,1,10和100 μmol/L的苦参碱作用5 min后,分别使钠电流峰值较给药前下降（12.49±1.67）%、（18.79±2.16）%和（43.15±8.17）% (n=8, P<0.05)。苦参碱使钠电流的电流 电压关系曲线上移,但并不改变其激活电压、峰电压和电流电压关系曲线的形状。苦参碱对钠通道的阻滞作用可能是其具有某些毒理效应的离子基础。     

Effects of cyhalothrin on the transient outward potassium current in central neurons of Helicoverpa armigera

The effects of cyhalothrin on the transient outward potassium current in central neurons of Helicoverpa armigera were studied by using the patch clamp techniques. The results showed that before using cyhalothrin （10.5 mmol/L）, activation potential was approximately -40 mV, after application of the drug, the activation potential shifted roughly 10 mV to the negative potential direction, so channels can be activated more easily. Before and after cyhalothrin application, the change of current amplitude was insignificant. The value of V1/2 and k of activation curves did not change significantly, however, the V1/2 of the inactivation curves changed significantly. Inactivation curves significantly shifted to a negative direction, so that inactivation of the channels was hastened. It is indicated that there may exit a primary way in which cyhalothrin provides neurotoxicity to the nervous system through the regulation of activation potentials and inactivation state of IA channels.     

大鼠三叉神经节神经元膜P2X嘌呤受体的特征

采用全细胞膜片钳技术研究了大鼠三叉神经节（trigeminal ganglion,TG）神经元膜P2X嘌呤受体的特征。结果发现：大部分受检细胞（78．9％,142／180）对ATP敏感,ATP．激活电流有明显的浓度依赖性。少数细胞无反应（21．1％,38／180）。在对ATP敏感的142个细胞中,绝大部分引起一内向电流（95．1％,135／142）,少数为外向电流（2．1％,3／142）,另有部分细胞出现双相电流（2．8％,4／142）。引起的内向电流在小直径细胞（〈30μm）上多表现为快去敏感电流,对vanilloid高度敏感;在中等大小的细胞（30～40μm）上多表现为慢去敏感电流,对vanilloid不敏感：绝大多数大细胞（〉40μm）对ATP和vanilloid均不敏感。此外,电流的波形与细胞直径密切相关。无论小细胞还是中等细胞其I-V曲线均表现出明显的内向整流趋势。我们还研究了ATP-激活电流的动力学特征,并观察了P2嘌呤受体激动剂、拮抗剂的效应。结果提示：不同类型的ATP受体．离子通道在不同类型的TG神经元上的表达具有不同的特点。     

尿素对小鼠体表心电图和心室肌细胞钠离子通道电流的影响

目的：观察尿素对小鼠体表心电图和心室肌细胞钠离子通道电流的影响。方法：使用常规的心电图记录方法和膜片钳实验技术,分别记录小鼠体表心电图和心室肌细胞钠离子通道电流。结果：尿素可以使小鼠心率明显减慢（P〈0．01）,呈浓度依赖性,低、中、高三个剂量组的心率分别由给药前的（612±27、615±23、619±26）b·min^-1下降到给药后的（556±29、469±37、378±48）b·min^-1,并且中、高剂量组发生了不同程度的传导阻滞性心律失常;尿素对小鼠心室肌细胞钠电流有明显的抑制作用（P〈0．05）,钠电流分别由给药前的（8．76±0．91、8．87±1．01、8．77±0．96）nA降低到给药后的（7．32±0．68、5．69±0．64、4．58±0．57）nA,呈浓度依赖性。结论：尿素可以通过抑制心室肌细胞钠电流使小鼠发生传导阻滞性心律失常。     

慢性低氧对豚鼠右室心肌细胞钙、钾电流的影响

采用全细胞膜片箝技术,分别记录并比较正常对照组与慢性低氧组豚鼠单个右室心肌细胞的膜电容、L型钙电流和延迟整流钾电流峰值和电流-电压关系曲线,以探讨慢性低氧对豚鼠右室心肌细胞L型钙电流和延迟整流钾电流的影响。结果表明,上述两组细胞膜电容分别为（155±13．2）pF、（179±14,8）pF,低氧组显著大于正常对照组（P＜0．01）;L型钙电流峰值分别为（1．07±0．21）nA和（0．99±0．17）nA,两组之间无显著差异;在-20mV至＋20mV,慢性低氧组L型钙电流密度较正常对照组显著下降（P＜0．05）。在＋月mV至＋60mV之间,慢性低氧组豚鼠右室心肌细胞延迟整流钾电流幅度均小于正常对照组;在-20mV至＋60mV之间,慢性低氧组豚鼠右室心肌细胞延迟整流钾电流密度明显低于正常对照组。可见慢性低氧能使豚鼠右室心肌细胞膜电容增加,L型钙电流幅度不变,但L型钙电流密度下降;同时慢性低氧降低豚鼠右室心肌细胞延迟整流钾电流幅度和密度。