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Caffeine response in pyramidal neurons freshly dissociated from rat hippocampus.从大鼠海马体中新鲜分离出的锥体神经元的咖啡因反应。
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Regulation of gene expression in hippocampal neurons by distinct calcium signaling pathways.不同钙信号通路对海马神经元基因表达的调控
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Hyperpolarizing muscarinic responses of freshly dissociated rat hippocampal CA1 neurones.新鲜分离的大鼠海马CA1神经元的超极化毒蕈碱反应
J Physiol. 1993 Apr;463:585-604. doi: 10.1113/jphysiol.1993.sp019612.
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Muscarinic suppression of a novel voltage-sensitive K+ current in a vertebrate neurone.毒蕈碱对脊椎动物神经元中一种新型电压敏感性钾电流的抑制作用。
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Regulatory peptides as a source of new drugs--the clinical prospects for analogues of TRH which are resistant to metabolic degradation.作为新药来源的调节肽——耐代谢降解的促甲状腺激素释放激素类似物的临床前景。
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Thyrotropin-releasing hormone effects in the central nervous system: dependence on arousal state.
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Antiepileptic effects of thyrotropin-releasing hormone and its new derivative, DN-1417, examined in feline amygdaloid kindling preparation.促甲状腺激素释放激素及其新衍生物DN - 1417对猫杏仁核点燃模型抗癫痫作用的研究。
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The coexistence in rat muscle cells of two distinct classes of Ca2+-dependent K+ channels with different pharmacological properties and different physiological functions.在大鼠肌肉细胞中,两类具有不同药理特性和不同生理功能的钙依赖性钾通道共存。
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促甲状腺激素释放激素对大鼠海马离体CA1锥体神经元钾电流的调控作用

Potassium currents operated by thyrotrophin-releasing hormone in dissociated CA1 pyramidal neurones of rat hippocampus.

作者信息

Ebihara S, Akaike N

机构信息

Department of Neurophysiology, Tohoku University School of Medicine, Sendai, Japan.

出版信息

J Physiol. 1993 Dec;472:689-710. doi: 10.1113/jphysiol.1993.sp019967.

DOI:10.1113/jphysiol.1993.sp019967
PMID:8145166
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1160507/
Abstract
  1. Membrane currents activated by thyrotrophin-releasing hormone (TRH) were investigated in the dissociated rat hippocampal CA1 pyramidal neurone using the nystatin perforated patch recording configuration. 2. Under current-clamp condition, TRH caused a transient hyperpolarization accompanied by a decrease of firing activity and a successive long-lasting depolarization. The latter induced a blockade of firing. 3. When neurones were held at a holding potential (VH) of -40 mV under voltage clamp, TRH elicited a transient outward current with an increase in the membrane conductance, which was followed by a sustained inward current with a decrease in membrane conductance. The inactive TRH metabolite, TRH free acid, did not induce any currents. 4. The reversal potential of TRH-induced outward current (ETRH) was close to the K+ equilibrium potential (EK). The change in ETRH for a 10-fold change in extracellular K+ concentration was 56.4 mV, indicating that the membrane behaves like a K+ electrode in the presence of TRH. On the other hand, the TRH-induced inward current was due to suppression of a slow inward current relaxation during hyperpolarizing voltage commands to -50 mV from a VH of -40 mV, indicating the suppression of the voltage- and time-dependent component of the K+ current (M-current). 5. The TRH-induced outward current (ITRH) increased in a concentration-dependent manner over the concentration range 10(-8)-10(-6) M. The half-maximum concentration was 7.4 x 10(-8) M and the Hill coefficient was 1.5. 6. The TRH-induced outward current (ITRH) was antagonized by K+ channel blockers such as tetraethylammonium (TEA), 4-aminopyridine (4-AP) and Ba2+ in a concentration-dependent manner. ITRH was insensitive to both apamin and iberiotoxin. 7. The first application of TRH to neurones perfused with Ca(2+)-free external solution containing 2 mM EGTA could induce ITRH but the TRH response diminished dramatically with successive applications. Intracellular perfusion with a Ca2+ chelator, 1,2-bis(O-aminophenoxy)ethane-N,N,N',N'-tetraacetic acid (BAPTA), also diminished the TRH response. 8. The depletion of Ca2+ from the intracellular Ca2+ store by thapsigargin blocked the TRH response without affecting the caffeine response. Pretreatment with Li+ significantly enhanced ITRH, suggesting that ITRH is involved in the elevation of intracellular free Ca2+ released from the inositol 1,4,5-trisphosphate (IP3)-sensitive Ca2+ store site but not from the caffeine-sensitive one. 9. Staurosporine, a protein kinase C (PKC) inhibitor, suppressed ITRH in a concentration-dependent manner (the half-maximum inhibitory concentration (IC50), was 2.45 x 10(-8) M).(ABSTRACT TRUNCATED AT 400 WORDS)
摘要
  1. 采用制霉菌素穿孔膜片钳记录模式,在离体大鼠海马CA1锥体神经元中研究促甲状腺激素释放激素(TRH)激活的膜电流。2. 在电流钳条件下,TRH引起短暂的超极化,伴有放电活动减少,随后是持续的长时程去极化。后者导致放电阻滞。3. 当神经元在电压钳下保持在-40 mV的钳制电位(VH)时,TRH引发短暂的外向电流,膜电导增加,随后是持续的内向电流,膜电导降低。无活性的TRH代谢产物TRH游离酸不诱导任何电流。4. TRH诱导的外向电流(ETRH)的反转电位接近K+平衡电位(EK)。细胞外K+浓度变化10倍时,ETRH的变化为56.4 mV,表明在TRH存在下膜的行为类似于K+电极。另一方面,TRH诱导的内向电流是由于在从-40 mV的VH超极化电压指令至-50 mV期间,慢内向电流松弛受到抑制,表明K+电流(M电流)的电压和时间依赖性成分受到抑制。5. 在10(-8)-10(-6) M的浓度范围内,TRH诱导的外向电流(ITRH)以浓度依赖性方式增加。半数最大浓度为7.4×10(-8) M,希尔系数为1.5。6. TRH诱导的外向电流(ITRH)受到K+通道阻滞剂如四乙铵(TEA)、4-氨基吡啶(4-AP)和Ba2+的浓度依赖性拮抗。ITRH对蜂毒明肽和埃博毒素均不敏感。7. 首次将TRH应用于灌注含2 mM EGTA的无钙细胞外溶液的神经元可诱导ITRH,但随着连续应用,TRH反应显著减弱。用Ca2+螯合剂1,2-双(O-氨基苯氧基)乙烷-N,N,N',N'-四乙酸(BAPTA)进行细胞内灌注也可减弱TRH反应。8. 毒胡萝卜素使细胞内Ca2+储存库中的Ca2+耗竭,阻断了TRH反应,而不影响咖啡因反应。Li+预处理显著增强ITRH,提示ITRH参与从肌醇1,4,5-三磷酸(IP3)敏感的Ca2+储存位点释放的细胞内游离Ca2+升高,但不参与从咖啡因敏感位点释放的细胞内游离Ca2+升高。9.蛋白激酶C(PKC)抑制剂星形孢菌素以浓度依赖性方式抑制ITRH(半数最大抑制浓度(IC50)为2.45×10(-8) M)。(摘要截断于400字)