On the functions of astrocyte-mediated neuronal slow inward currents

Slow inward currents are known as neuronal excitatory currents mediated by glutamate release and activation of neuronal extra synaptic N-met hyl-D-aspartate receptors with the contribution of astrocytes.These events are significantly slower than the excitatory postsynaptic currents.Parameters of slow inward currents are determined by seve ral factors including the mechanisms of astrocytic activation and glutamate release,as well as the diffusion pathways from the release site towards the extra synaptic recepto rs.Astrocytes are stimulated by neuronal network activity,which in turn excite neurons,forming an astrocyte-neuron feedback loop.Mostly as a consequence of brain edema,astrocytic swelling can also induce slow inward currents under pathological conditions.There is a growing body of evidence on the roles of slow inward currents on a single neuron or local network level.These events often occur in synchro ny on neurons located in the same astrocytic domain.Besides synchronization of neuronal excitability,slow inward currents also set synaptic strength via eliciting timing-dependent synaptic plasticity.In addition,slow inward currents are also subject to non-synaptic plasticity triggered by long-la sting stimulation of the excitatory inputs.Of note,there might be important regionspecific differences in the roles and actions triggering slow inward currents.In greater networks,the pathophysiological roles of slow inward currents can be better understood than physiological ones.Slow inward currents are identified in the pathophysiological background of autism,as slow inward currents drive early hypersynchrony of the neural networks.Slow inward currents are significant contributors to paroxysmal depolarizational shifts/interictal spikes.These events are related to epilepsy,but also found in Alzheimer's disease,Parkinson's disease,and stroke,leading to the decline of cognitive functions.Events with features overlapping with slow inward currents(excitatory,N-methyl-Daspartate-receptor mediated currents with astrocytic contribution) as ischemic currents and spreading depolarization also have a well-known pathophysiological role in worsening consequences of stroke,traumatic brain injury,or epilepsy.One might assume that slow inward currents occurring with low frequency under physiological conditions might contribute to synaptic plasticity and memory formation.However,to state this,more experimental evidence from greater neuronal networks or the level of the individual is needed.In this review,I aimed to summarize findings on slow inward currents and to speculate on the potential functions of it.

莲心碱对心肌慢反应动作电位及慢内向电流的影响

莲心碱(Lien)10～100μmol/L可浓度依赖性地降低离体兔窦房结(SAN)起搏细胞慢反应动作电位幅度(APA)及零相最大上升速率((?)_(max)),延长窦性周长(SCL),并可明显拮抗Bay K 8644增大SAN起搏细胞及高K^-诱发的豚鼠乳头肌慢反应动作电位的APA和((?)_(max))作用。Lien 1～100 μmol/L还可浓度依赖性地抑制犬浦氏纤维慢内向电流(I_(si)),3和100μmol/L分别使I_(si)峰值下降14和88%。结果表明Lien具有抗钙作用。

洛土辛对心肌动作电位及犬浦肯野纤维慢内电流的影响

目的 探讨洛土辛（Ｌｏｔ）对心肌动作电位（ＡＰ）及犬浦肯野纤维（ＰＦ）慢内向电流（Ｉｓｉ）的影响和其在正性肌力效应中所起的作用。方法 采用标准微电极及双微电极电压钳技术。结果 Ｌｏｔ１～１００μｍｏｌ·Ｌ－１可剂量依赖性地延长豚鼠乳头肌状快反应ＡＰ的ＡＰＤ２０和ＡＰＤ９０，增加收缩力（Ｆｃ）；在利血平化豚鼠乳头状肌，Ｌｏｔ对ＡＰＤ２０和Ｆｃ的影响较未经Ｒｅｓ化组减弱。在豚鼠左房肌，Ｌｏｔ３０μｍｏｌ·Ｌ－１可明显地削弱Ａｃｈ缩短ＡＰＤ５０和降低Ｆｃ的作用。Ｌｏｔ３～１００μｍｏｌ·Ｌ－１可剂量依赖性地增加高Ｋ＋去极化诱发的豚鼠乳头状肌及兔窦房结慢反应ＡＰ的ＡＰＡ、Ｖｍａｘ；对兔ＡＰＤ５０和窦房结周长（Ｓｉｎｕｓｃｙｃｌｅｌｅｎｇｔｈ，ＳＣＬ）却无明显影响。在犬ＰＦ，Ｌｏｔ３０μｍｏｌ·Ｌ－１时间依赖性及剂量依赖性地（３～１００μｍｏｌ·Ｌ－１）增加Ｉｓｉ。结论 Ｌｏｔ有延长ＡＰＤ和促钙内流作用，且在其正性肌力效应的产生中起着重要作用，而这些作用的产生与其抑制ＰＤＥⅢ有关。

关附甲素对心肌慢反应动作电位的影响

关附甲素（ＧＰＡ）８．６μｍｏｌ／Ｌ使缺Ｏ＿２、高Ｋ￣＋和酸中毒的豚鼠乳头肌动作电位幅值（ＡＰＡ）和最大除极速率（Ｖ＿（ｍａｘ））下降，ＡＰＤ＿９０显著缩短，ＥＲＰ／ＡＰＤ＿９０比值增大，ＧＦＡ２６μｍｏｌ／Ｌ可使高Ｋ￣＋除极所致的慢反应ＡＰＡ和Ｖ＿（ｍａｘ）降低，ＧＦＡ５０μｍｏｌ／Ｌ时使兔窦房结动作电位０相去极化速率（ＭＲＤ）、舒张期去极化速率（ＲＤＰ）和平均复极化速率（ＭＲＲ）降低，自发活动频率（ＳＦＦ）减慢，并使舒张期去极化时间（ＤＤＴ）及动作电位时程（ＡＰＤ）延长。

N-甲基小檗胺对豚鼠单一心肌细胞慢内向离子电流的作用

N-甲基小檗胺（N-methyl berbamine,NMB）是从陕西省凤县产小檗属植物中提取的一种双苄基异喹啉生物碱,结构与小檗胺（berbamine）相似,为黄连素的同系物,动物实验表明,黄连素及小檗胺具有抗心律失常作用,大剂量可抑制心肌收缩,本文用膜片钳术（patch clamp technique）全细胞记录（whole cell recording）方法,观察了NMB对豚鼠单一心肌细胞慢内向离子电流(Ⅰsi的影响,从离子通道水平对NMB的抗心律失常作用机理进行了初步探讨。

7-溴化乙氧苯四氢巴马汀抗心律失常作用的机理

7-溴化乙氧苯四氢巴马汀(7-bromoethoxybenzene-tetrahydropalmatine,EBP)10及30μmol/L均能明显延长豚鼠乳头状肌动作电位时程(APD),但对动作电位幅度(APA),静息电位(RP),超射(OS),零期最大上升速率(V_(max))无显著影响。EBP能按剂量抑制犬浦氏纤维慢内向电流(I_(si))及钾外向电流(I_x)的峰值。

三七中人参三醇甙对羊心浦氏纤维内向电流的影响

用双微电极电压钳制技术,观察三七中人参三醇甙(PTS)对离体羊心浦氏纤维快内向电流(I_(Nt))及慢内向电流(I_(si))的影响。PTS对I_(Na)无明显影响,但可抑制I_(si)使其峰电流显著减小,PTS的此种效应呈时间和剂量依赖性。结果提示,PTS可以阻滞慢钙通道,从而产生钙拮抗效应。

应用电压钳制技术探讨丹参注射液的抗心律失常作用机制

利用双微电极电压钳制技术研究丹参注射液(以下简称丹参)对离体家兔浦肯野纤维慢内向电流(Isi)的电生理作用。结果表明,丹参在浓度为1.0mg/ml 和2.0mg/ml,灌流20min 时,能明显抑制 Isi 峰值,由给药前的(76.25±20.83)nA 降至(53.13±18.70)nA 和(36.00±10.84)nA(P<0.05,P<0.01),对 Isi 峰值抑制率分别为31％和53％,呈浓度依赖性抑制作用;在浓度为0.5mg/ml,刺激频率为1.0Hz,丹参在开始抑制 Isi 的峰值不明显,随着刺激数目增加,以后抑制逐渐加强,直至稳态,呈使用依赖性阻滞作用。以上表明丹参具有钙拮抗剂作用。

碘杂环化合物IHC-72阻滞兔心浦氏纤维慢钙通道的时间依赖性

采用双微电极电压钳制术研究3，6－（二甲氨基）-二苯骈碘杂环依地酸盐（IHC-72）对家兔浦肯野纤维慢钙通道的影响。当维持电位为-40mV，刺激频率为0．2Hz，钳制时间为500ms，除极到15mV时，101．6μmol/LIHC-72对慢内向电流（Isi）的抑制效应在5、10、15、20、25min时分别为（％）：20．5、41、51.8、59．8和60．1（P皆＜0．01），但灌流20min与25min时效应无明显差别，冲洗20min不能完全洗脱。结果表明：IHC-72在20min内对Isi的抑制呈时间依赖性，且是通过细胞膜内侧的慢钙通道位点而起作用。

磷酸羟基喹呱对豚鼠心室肌和家兔窦房结细胞慢反应...

为进一步研究HPQP抗心律失常的机理,本实验采用细胞内固定微电极技术,观察到该药在30μmol/L可降低高钾除极化心肌动作电位APA和V_(max);对V_(max)呈频率依赖性抑制作用;抑制钡诱发的心室肌自发电活动;对家兔窦房结优势起搏细胞的V_(max)和APA均有抑制,延长APD_(50)和APD_(100),降低四相除极斜率。以上结果均表明该药对钙通道有阻滞作用。

视顶盖神经元的两种振荡模式(英文)

本文旨在应用离体全细胞膜片钳技术,记录和分析爪蟾视顶盖神经元阈下振荡活动。长时程的去极化电流可以诱发两种模式的阈下振荡,一种振荡是叠加在慢内向电流(slow inward current,SIC)之上的,另一种振荡则不伴有SIC。在本实验中,去极化能诱发阈下振荡的细胞占所记录神经元的48%。振荡活动和SIC都是河豚毒素耐受的,而在无钙溶液中浸泡的脑片未记录到振荡和SIC。振荡活动的诱发依赖膜电位初始水平和变化幅度,只有当神经元的钳制电压从-40mV、-50mV或更低的初始水平去极化10mV时,才能诱发阈下振荡。SIC的幅度和时程依赖于膜电位的初始水平。本文报导的阈下振荡可能在蛙的生理和行为功能(如模式辨认,猎物识别和逃避行为等)方面起重要作用,进而也有可能在哺乳类和非哺乳类脊椎动物的神经活动整合中发挥作用。