川楝素对K+、Ca2+通道活动及细胞内Ca2+浓度的调控

川楝素是我国学者从驱蛔中药中分离、鉴定的一个三萜化合物，已证明具选择地影响神经递质释放，有效地对抗肉毒中毒，促进细胞分化、凋亡，抑制肿瘤增殖，抑制昆虫发育和取食，影响K⁺、Ca²⁺通道活动等多种生物效应. 综述了证明川楝素抑制多种K⁺通道，选择地易化L型Ca²⁺通道和进而升高胞内Ca⁺浓度的研究资料，并对川楝素产生这些生物效应的机制进行了讨论.     

pH改变对心肌细胞内Ca~(2 )浓度和细胞长度的影响

目的 :探讨细胞内 pH(pHi)改变对心肌细胞内Ca2 浓度 ([Ca2 ]i)和细胞长度的影响。方法 :心肌细胞内分别灌注 2 0mmol/L丙酸钠和 15mmol/LNH4Cl,建立细胞内酸碱中毒模型。荧光指示剂indo 1和SNARF 1载入大鼠心肌细胞内 ,用荧光显微镜同时测定心肌 [Ca2 ]i、pHi 和细胞长度。结果 :细胞内酸中毒早期 ,收缩期和舒张期[Ca2 ]i 轻度增加 ,细胞缩短 (CS)降低 ,细胞长度增加 ,心肌纤维对Ca2 的敏感性和CS/ [Ca2 ]i 降低 (P <0 .0 1) ;碱中毒时 ,收缩期和舒张期 [Ca2 ]i 均较对照组降低 ,CS增加 ,细胞长度变短 ,心肌纤维对Ca2 的敏感性和CS/[Ca2 ]i 增加 (P <0 .0 1)。结论 :酸中毒早期 [Ca2 ]i 和细胞长度增加 ,碱中毒时 [Ca2 ]i和细胞长度降低。酸、碱中毒对Ca2 敏感性的影响并非线性关系 ,即单位 pHi变化时酸中毒对敏感性的影响较碱中毒小     

血管钠肽对大鼠肠系膜动脉平滑肌细胞Ca2+激活K+通道的作用

目的研究血管钠肽(VNP)对大鼠肠系膜动脉血管平滑肌细胞(VSMCs)Ca2+激活K+通道(Kca)的作用及其机制.方法采用全细胞膜片钳技术观察VNP对Kca的影响,以及HS-142-1、8-Br-cGMP和美蓝(MB)在这一过程中的作用.结果①VNP(10-6 mol/L)显著增强Kca(P＜0.05,n=5).②8-Br-CGMP(10-3mol/L)模拟VNP增强Kca的作用(P＜0.05,n=6).③HS-142-1(2×10-5mol/L)或MB(10-5mol/L)完全阻断VNP增加Kca电流密度的作用.结论VNP通过作用于VSMCs的钠尿肽GC耦联受体,升高细胞内的cGMP水平,激活Kca.     

Ca2+对骨骼肌钙释放通道的调节

钙释放通道（calcium release channel）又称Ryanodine受体（RyR）,是细胞内质网膜上介导细胞内钙信号转导的离子通道。RyR1在骨骼肌细胞的兴奋-收缩偶联过程中起重要作用,是肌质网快速释放Ca^2＋的通道。许多调节因素,如一些内源性蛋白（FK结合蛋白、钙调素、钙结合蛋白）和一些离子（Ca^2＋、Mg^2＋）,通过不同的作用位点与RyR1结合,调控RyR1的结构与功能。研究表明,Ca^2＋是众多调节RyR1因素中的核心成分和前提条件,其对RyR1的结构与功能有重要的调控作用。     

驱蛔中药的活性成分川楝素的生物效应

利用楝属植物皮和种子治疗消化道寄生虫病和防治农业虫害,早在两千年前的中国古代已有记载。川楝素（toosendanin,C30H38O11,FW=574）是我国科学家在上世纪五十年代从川楝皮提取、分离的一个用以代替进口驱蛔药山道年的三萜化合物。研究已证明川楝素具多种独特的生物效应和在科学研究、临床医学及农业上的应用价值。第一,川楝素以先易化后抑制的双相作用干扰神经递质释放,阻遏神经肌肉接头和中枢神经突触的突触传递。此作用可能是川楝素改变递质释放装置的Ca^2＋敏感性和使之最终完全消失的结果。第二,尽管川楝素与肉毒神经毒素阻遏神经肌肉接头传递的作用有许多相似,川楝素在离体和在体实验中均显示出极有效的抗肉毒神经毒素作用：川楝素可治愈致死量肉毒中毒的小鼠和猴;经川楝素孵育的离体神经肌肉标本,或由经一次川楝素注射的动物取出的神经肌肉标本具抵抗肉毒神经毒素作用的能力。已有证据表明抗肉毒神经毒素作用是通过川楝素阻隔肉毒神经毒素与其酶解底物SNARE蛋白的接近而实现的。第三,近年观察到川楝素还引发细胞分化和凋亡,抑制人的多种肿瘤细胞增殖。该作用是Ca^2＋依赖性的,有线粒体依赖的凋亡通路参与。第四,川楝素抑制多种K^＋通道,选择性地易化通过L型Ca^2＋通道的Ca^2＋流,并由此导致细胞内Ca^2＋浓度（[Ca^2＋]i）持续升高。川楝素对K^＋通道的抑制,对L型Ca^2＋通道的易化和由之引起的[Ca^]．升高和超载,是川楝素引发细胞分化和凋亡、抑制细胞增殖,以及川楝素产生神经递质双相变化和阻遏突触传递的机制。     

T型Ca2+通道在心脏中的表达

电生理学研究表明心脏组织细胞主要存在L型和T型两种不同的Ca2 通道,其中T型Ca2 通道主要存在于正常成熟心脏的浦肯野纤维和起搏点细胞以及胚胎心室肌细胞,而正常成熟心肌细胞中存在很少,但在心脏肥大和心衰等心脏疾病的心肌细胞中表达明显增加,提示T型Ca2 通道与心脏正常节律的形成和心脏发育以及一些心脏疾病的发生与发展密切相关.     

微动脉平滑肌细胞K+通道的研究进展

K+通道维持着血管平滑肌细胞的静息膜电位.目前发现血管微动脉平滑肌细胞上主要表达内向整流型K+通道、ATP敏感型K+通道、电压依赖型K+通道和大电导钙激活型K+通道等四种K+通道.本文对微动脉平滑肌细胞K+通道最新进展做一综述.     

Bay K8644及nifedipine对大鼠下丘脑神经元L-型Ca~(2 )通道特性的影响

采用神经元急性分离和膜片箝技术以及细胞贴附式方式记录通道活动 ,探讨DHP类Ca2 通道激动剂BayK8644及拮抗剂nifedipine对下丘脑神经元L 型Ca2 通道的影响。结果显示 ,在BayK8644作用下 ,通道开放形式发生变化 ,明显可见多级开放 ;通道平均开放时间、平均开放概率显著增加 ,但单通道电导无明显变化。nifedipine的作用与BayK8644相反。结果提示 ,BayK8644对下丘脑神经元L 型Ca2 通道有明显激动作用 ,nifedip ine有显著抑制作用     

超氧阴离子通过提高[Ca2+]cyt调节保卫细胞K+通道和气孔运动

氧化信号参与了许多生理过程的调控。用膜片钳和激光共聚焦显微镜,采用可以产生O2^ 的甲基紫精处理蚕豆(Vicia faba L)保卫细胞,测定了O2^ 对气孔运动调节过程中胞质Ca^2 离子浓度和细胞质膜K^ 通道活性的变化,结果表明甲基紫精可以促进气孔的关闭,乙二醇四乙酸酯(Ethylene glycol bis(2-aminoethyl)tetra-acetic acid,EGTA)、抗坏血酸(Ascorbic acid,AsA)和过氧化物酶(Catalase,CAT)可以消除小于10^-5mol／L甲基紫精对气孔运动的影响;10^-2和10^-5mol/L的甲基紫精可使保卫细胞胞质Ca^2 浓度有不同程度提高,并伴随有钙震荡。蚕豆气孔保卫细胞质膜内向K^ 通道可被咆外甲基紫精抑制,而这种抑制和[Ca^2 ]cyt有关。推测甲基紫精产生的O2^-对蚕豆气孔运动的调节,主要是通过O2^ 诱导的胞内游离Ca^2 浓度的升高,从而抑制了通过保卫细胞质膜K^ 内向电流。     

Ca2+对钠通道作用新发现

钠通道是参与心肌兴奋传导和维持心脏节律的重要物质。ca2+在心肌细胞的兴奋-收缩偶联中起重要     

钙激活钾通道在黎芦碱致神经细胞损伤中的作用

目的:观察新生SD大鼠原代培养皮层神经元的钙激活钾通道(Kca)在黎芦碱致神经元损伤模型上的激活、抑制效应.方法:采用细胞贴附和内面向外两种膜片钳单通道记录方法记录新生SD大鼠原代培养皮层神经元的Kca电生理活动.结果:黎芦碱在胞外可激活Kca.在有钙浴液内,细胞贴附式,钳制膜电位 30 mV,加入不同浓度黎芦碱(μmol/L:15、25、50、75),通道开放概率由0.005分别增加为0.014±0.003、0.085±0.010、0.132±0.016、0.059±0.006(P＜0.01),在50μmol/L以内表现出浓度依赖性.无钙浴液内,细胞贴附式膜片上,钳制膜电位 50 mV,随药物浓度(μmol/L)增加为15、40、60、100时,通道开放概率由0.005分别增加为0.014±0.010、0.113±0.006、0.141±0.004、0 295±0.009(P＜0.05).6例内面向外式膜片上,钳制膜电位 40 mV,分别加入黎芦碱25 μmol/L、50μmol/L 3 min后,通道开放概率由0.011±0.008分别增加为0.010±0.010、0.012±0.007(P＞0.05).黎芦碱在胞内Kca开放概率,平均开放/关闭时间,电流幅值均无明显变化.结论:黎芦碱通过影响胞内游离钙水平间接调节Kca,在缺血缺氧早期,胞内游离钙增高激活Kca开放.     

Na+和Ca2+对拟南芥根原生质体质膜内向K+通道电流的影响

以拟南芥(Arabidopsis thaliana Columbia)根为材料,利用膜片钳技术测定其根细胞原生质体质膜内向K^ 电流,并对Na^ 对其K^ 电流的影响进行了初步研究,发现Na^2 可明显抑制拟南芥根细胞原生质体的内向K^ 电流,外施Ca^2 可缓解Na^ 对内向K^ 电流的抑制．说明Ca^2 参与了质膜上K^ 通道对K^ ／Na^ 的选择性吸收的调节,从而使植物适应盐胁迫．     

Intracellular localization and physiological function of a rice Ca2+-permeable channel OsTPC1

Two-pore channels (TPCs) are cation channels with a voltage-sensor domain conserved in plants and animals. Rice OsTPC1 is predominantly localized to the plasma membrane (PM), and assumed to play an important role as a Ca²⁺-permeable cation channel in the regulation of cytosolic Ca²⁺ rise and innate immune responses including hypersensitive cell death and phytoalexin biosynthesis in cultured rice cells triggered by a fungal elicitor, xylanase from Trichoderma viride. In contrast, Arabidopsis AtTPC1 is localized to the vacuolar membrane (VM). To gain further insights into the intracellular localization of OsTPC1, we stably expressed OsTPC1-GFP in tobacco BY-2 cells. Confocal imaging and membrane fractionation revealed that, unlike in rice cells, the majority of OsTPC1-GFP fusion protein was targeted to the VM in tobacco BY-2 cells. Intracellular localization and functions of the plant TPC family is discussed.     

Participation of Intracellular Ca2+ Stores in Ca2+ Signalling in Neurons of the Thalamic Laterodorsal Nucleus of Rats

Experiments were carried out on isolated neurons of the thalamic nucleus lateralis dorsalis (LD) from 12-day-old rats. According to the morphological characteristics, LD neurons were classified as relay thalamo-cortical units and interneurons. The concentration of free Ca²⁺ ions in the cytoplasm ([Ca²⁺] _i ) was measured by a fluorescent calcium indicator, fura-2AM. Application of 30 mM caffeine caused a transient change in the [Ca²⁺] _i in 8 of 15 and in 6 of 11 of the thalamo-cortical units and interneurons under study, respectively. After stimulation of a cell with application of 50 mM KCl, a caffeine-induced increase in the [Ca²⁺] _i was observed in all tested neurons. To study the contribution of Ca²⁺-induced Ca²⁺ release (CICR) to the calcium transient evoked by depolarization of the neuronal membrane, caffeine in a subthreshold concentration was pre-applied. After 50 mM KCl had been added to the medium following pre-application of 0.5 mM caffeine, the calcium transient amplitude in thalamo-cortical neurons increased by 51 ± 7% (n = 16). In interneurons this effect was not observed (n = 11). The data obtained allow us to hypothesize that CICR contributes to the depolarization-evoked calcium transient only in the relay (thalamo-cortical) neurons. Differences in the pattern of calcium signalling, which were detected in two types of neurons of the thalamic LD, can be a factor determining distinctions in the physiological characteristics of these neurons.     

Oscillations of cytoplasmic concentrations of Ca2+ and K+ in fused L cells

Summary Using Ca²⁺- and K⁺-selective microelectrodes, the cytosolic free Ca²⁺ and K⁺ concentrations were measured in mouse fibroblastic L cells. When the extracellular Ca²⁺ concentration exceeded several micromoles, spontaneous oscillations of the intracellular free Ca²⁺ concentration were observed in the submicromolar ranges. During the Ca²⁺ oscillations, the membrane potential was found to oscillate concomitantly. The peak of cyclic increases in the free Ca²⁺ level coincided in time with the peak of periodic hyperpolarizations. Both oscillations were abolished by reducing the extracellular Ca²⁺ concentration down to 10^–7 m or by applying a Ca²⁺ channel blocker, nifedipine (50 m). In the presence of 0.5mm quinine, an inhibitor of Ca²⁺-activated K⁺ channel, sizable Ca²⁺ oscillations still persisted, while the potential oscillations were markedly suppressed. Oscillations of the intracellular K⁺ concentration between about 145 and 140mm were often associated with the potential oscillations. The minimum phase of the K⁺ concentration was always 5 to 6 sec behind the peak hyperpolarization. Thus, it is concluded that the oscillation of membrane potential results from oscillatory increases in the intracellular Ca²⁺ level, which, in turn, periodically stimulate Ca²⁺-activated K⁺ channels.     

ACTH4-9类似物对小鼠海马突触体Ca2+水平的调节作用

本工作观察了Ｏｒｇ２７６６（ＡＣＴＨ４－９的类似物）对海马突触体内游离Ｃａ＾２＋水平及对＾４５Ｃａ＾２＋摄取的影响。采用细胞内钙离子荧光探针Ｆｕｒａ－２,通过Ｓｐｅｘ－阳离子测定系统检测突触体内［Ｃａ＾２＋］ｉ的动态变化,并用液闪光谱仪测定突触体对＾４５Ｃａ＾２＋的摄取。结果表明：较低剂量的ＯＲＧ２７６６对突触体内［Ｃａ＾２＋］ｉ的影响不明显,却显著降低突触体对＾４５Ｃａ＾２＋的摄取;高剂量的Ｏｒ     

H2O2-Induced Platelet Aggregation and Increase in Intracellular Ca2+ Concentration Are Blocked by Inhibitors of Intracellular Signaling

Inhibitors of signaling enzymes such as guanosine-5-O-2-thiodiphosphate, aristolochic acid, aspirin, indomethacin, and trifluoperazine block H₂O₂-induced platelet aggregation and H₂O₂-induced increase in the intracellular concentration of Ca²⁺. These findings suggest that the effect of H₂O₂ on platelets is associated with activation of signal pathways responsible for increase in the concentration of intracellular Ca²⁺. On H₂O₂-induced platelet aggregation, the concentration of cAMP in the cytoplasm decreases and that of cGMP increases.     

大鼠结肠平滑肌细胞的钙库操纵性通道

目的:探讨大鼠结肠平滑肌细胞是否存在钙库操纵性通道(SOC)。方法:荧光探针Fura-2/AM标记细胞内游离Ca2+后,用荧光分光光度计检测毒胡萝卜素(thapsigargin)和咖啡因(caffeine)耗竭胞内钙库后激活的SOC通道对酶解分离的大鼠结肠平滑肌细胞[Ca2+]i的影响。结果:在无Ca2+缓冲液中,thapsigargin(1μmol/L)以及caf-feine(10 mmol/L)分别使[Ca2+]i由静息时(68.32±3.43)nmol/L升高至(240.85±12.65)nmol/L(、481.25±34.77)nmol/L,继之,向细胞外液中引入两种浓度的Ca2+(1.5 mmol/L和3.0 mmol/L),导致[Ca2+]i进一步升高,分别为(457.55±19.80)nmol/L、(1005.93±54.62)nmol/L;(643.88±34.65)nmol/L、(920.16±43.25)nmol/L。且上述升高效应对维拉帕米(verapamil,5μmol/L)以及KCl引起的细胞膜去极化不敏感,但可被La3+(1 mmol/L)抑制。结论:在酶解分离的大鼠结肠平滑肌细胞上,存在胞内钙库耗竭激活的SOC通道,为支持在电兴奋性细胞上存在库容性Ca2+内流提供了实验和理论依据。