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本文引用的文献

1
A low voltage-activated calcium conductance in embryonic chick sensory neurons.胚胎期鸡感觉神经元中的低电压激活钙电导。
Biophys J. 1984 Sep;46(3):413-8. doi: 10.1016/S0006-3495(84)84037-0.
2
Mechanism of ion permeation through calcium channels.离子通过钙通道的渗透机制。
Nature. 1984;309(5967):453-6. doi: 10.1038/309453a0.
3
Calcium currents of isolated bovine ventricular myocytes are fast and of large amplitude.分离的牛心室肌细胞的钙电流快速且幅度大。
Pflugers Arch. 1982 Oct;395(1):30-41. doi: 10.1007/BF00584965.
4
Calcium and potassium currents in muscle fibres of an insect (Carausius morosus).一种昆虫(桑天牛)肌肉纤维中的钙电流和钾电流。
J Physiol. 1982 Feb;323:93-115. doi: 10.1113/jphysiol.1982.sp014063.
5
Improved patch-clamp techniques for high-resolution current recording from cells and cell-free membrane patches.用于从细胞和无细胞膜片进行高分辨率电流记录的改进膜片钳技术。
Pflugers Arch. 1981 Aug;391(2):85-100. doi: 10.1007/BF00656997.
6
Fluctuations of barrier structure in ionic channels.离子通道中屏障结构的波动。
Biochim Biophys Acta. 1980 Oct 16;602(1):167-80. doi: 10.1016/0005-2736(80)90299-0.
7
Isolation of calcium current and its sensitivity to monovalent cations in dialysed ventricular cells of guinea-pig.豚鼠心室透析细胞中钙电流的分离及其对单价阳离子的敏感性
J Physiol. 1984 Dec;357:553-73. doi: 10.1113/jphysiol.1984.sp015517.
8
High selectivity of calcium channels in single dialysed heart cells of the guinea-pig.豚鼠单个透析心脏细胞中钙通道的高选择性
J Physiol. 1984 Sep;354:253-72. doi: 10.1113/jphysiol.1984.sp015374.
9
Non-selective conductance in calcium channels of frog muscle: calcium selectivity in a single-file pore.蛙肌钙通道的非选择性电导:单排孔道中的钙选择性
J Physiol. 1984 Aug;353:585-608. doi: 10.1113/jphysiol.1984.sp015352.
10
A non-selective cation conductance in frog muscle membrane blocked by micromolar external calcium ions.蛙肌膜中的一种非选择性阳离子电导被微摩尔浓度的细胞外钙离子所阻断。
J Physiol. 1984 Aug;353:565-83. doi: 10.1113/jphysiol.1984.sp015351.

鸡感觉神经元低电压激活钙通道的钠离子电流:被细胞外钙和镁阻断

Na+ currents through low-voltage-activated Ca2+ channels of chick sensory neurones: block by external Ca2+ and Mg2+.

作者信息

Lux H D, Carbone E, Zucker H

机构信息

Department of Neurophysiology, Max-Planck-Institute for Psychiatry, Planegg, FRG.

出版信息

J Physiol. 1990 Nov;430:159-88. doi: 10.1113/jphysiol.1990.sp018287.

DOI:10.1113/jphysiol.1990.sp018287
PMID:1964965
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1181733/
Abstract
  1. Whole-cell currents through low-voltage-activated (LVA) Ca2+ channels carried by monovalent cations were studied in chick dorsal root ganglion (DRG) cells. 2. With 120 mM [Na+] on both sides of the membrane and [Ca2+]o less than or equal to 100 microM, the currents reversed at 0 mV. Their half-times of activation and inactivation were strictly voltage-dependent and decreased to near-constant values of 0.6-0.85 and 40 ms, respectively, at positive membrane potentials. The longer activation times were observed with [Ca2+]o greater than or equal to 50 microM. 3. The selectivity of the Ca2+ channel for monovalent ions with reference to internal Na+ was evaluated from the reversal potential. The Li+ and Na+ permeabilities were similar. The permeability ratios of K+ and Rb+ were 0.45, and 0.33 for Cs+. 4. Micromolar increases in [Ca2+]o produced small voltage shifts of half-times of activation (less than or equal to +3 mV at 10 microM and +10 mV at 500 microM), but strongly depressed the Na+ current. The Ca2(+)-induced block of Na+ current satisfied a 1:1 stoichiometry with an apparent KD of 1.8 microM at -20 mV. The block was, however, relieved with more positive and negative potentials, with KDs of 55 and 8.5 microM at +90 and -110 mV, respectively. 5. Relaxation time constants of block and unblock of Na+ currents through the LVA Ca2+ channel were measured on step changes to and from membrane potentials at which pronounced Ca2(+)-induced block occurred. 6. At -20 mV, the time constants of block decreased with micromolar increase in [Ca2+]o in line with a blocking rate coefficient of 1.9 x 10(8) M-1 s-1, but settled to values of 0.18 ms at [Ca2+]o beyond 50 microM. The Na+ currents were unblocked with time constant (tau u) of around 0.25 ms at strongly positive and negative membrane potentials at 22 degrees C. 7. Tau u failed to show any obvious dependence on [Ca2+]o up to the millimolar range. This finding contradicts suggestions that removal of the block occurs in a [Ca2+]o-dependent manner as a result of an increased probability of Ca2+ ion mobilization by repulsive forces with increased Ca2+ occupation of the channel. 8. The time course of unblock of Na+ currents was strongly temperature-dependent showing a Q10 of 2.5 for tau u. 9. The voltage dependence of the Na+ current block by Ca2+ ions is best accounted for by a single, centrally located Ca2+ binding site.(ABSTRACT TRUNCATED AT 400 WORDS)
摘要
  1. 研究了鸡背根神经节(DRG)细胞中由单价阳离子携带的通过低电压激活(LVA)Ca2+通道的全细胞电流。2. 当膜两侧[Na+]均为120 mM且[Ca2+]o小于或等于100 μM时,电流在0 mV处反转。它们的激活和失活半衰期严格依赖电压,在正膜电位下分别降至0.6 - 0.85和40 ms的近乎恒定值。当[Ca2+]o大于或等于50 μM时观察到更长的激活时间。3. 根据反转电位评估了Ca2+通道对相对于内部Na+的单价离子的选择性。Li+和Na+的通透性相似。K+和Rb+的通透率分别为0.45,Cs+为0.33。4. [Ca2+]o微摩尔级的增加会使激活半衰期产生小的电压偏移(在10 μM时小于或等于 +3 mV,在500 μM时为 +10 mV),但会强烈抑制Na+电流。Ca2+诱导的Na+电流阻断满足1:1化学计量关系,在 -20 mV时表观解离常数(KD)为1.8 μM。然而,在更正和更负的电位下阻断会解除,在 +90和 -110 mV时KD分别为55和8.5 μM。5. 通过LVA Ca2+通道的Na+电流的阻断和解除的弛豫时间常数是在膜电位阶跃变化时测量的,此时会发生明显的Ca2+诱导阻断。6. 在 -20 mV时,阻断时间常数随着[Ca2+]o微摩尔级的增加而减小,阻断速率系数为1.9×10(8) M-1 s-1,但在[Ca2+]o超过50 μM时稳定在0.18 ms的值。在22℃时,在强正膜电位和强负膜电位下,Na+电流以约0.25 ms的时间常数(tau u)解除阻断。7. 直到毫摩尔范围,tau u均未显示出对[Ca2+]o的任何明显依赖性。这一发现与以下观点相矛盾,即由于通道中Ca2+占据增加时排斥力导致Ca离子动员概率增加,阻断的解除以[Ca2+]o依赖的方式发生。8. Na+电流解除阻断的时间进程强烈依赖温度,tau u的温度系数Q10为2.