Verheugen J A, Vijverberg H P, Oortgiesen M, Cahalan M D
Research Institute of Toxicology, Utrecht University, The Netherlands.
J Gen Physiol. 1995 Jun;105(6):765-94. doi: 10.1085/jgp.105.6.765.
Voltage-gated n-type K(V) and Ca(2+)-activated K+ [K(Ca)] channels were studied in cell-attached patches of activated human T lymphocytes. The single-channel conductance of the K(V) channel near the resting membrane potential (Vm) was 10 pS with low K+ solution in the pipette, and 33 pS with high K+ solution in the pipette. With high K+ pipette solution, the channel showed inward rectification at positive potentials. K(V) channels in cell-attached patches of T lymphocytes inactivated more slowly than K(V) channels in the whole-cell configuration. In intact cells, steady state inactivation at the resting membrane potential was incomplete, and the threshold for activation was close to Vm. This indicates that the K(V) channel is active in the physiological Vm range. An accurate, quantitative measure for Vm was obtained from the reversal potential of the K(V) current evoked by ramp stimulation in cell-attached patches, with high K+ solution in the pipette. This method yielded an average resting Vm for activated human T lymphocytes of -59 mV. Fluctuations in Vm were detected from changes in the reversal potential. Ionomycin activates K(Ca) channels and hyperpolarizes Vm to the Nernst potential for K+. Elevating intracellular Ca2+ concentration ([Ca2+]i) by ionomycin opened a 33-50-pS channel, identified kinetically as the CTX-sensitive IK-type K(Ca) channel. The Ca2+ sensitivity of the K(Ca) channel in intact cells was determined by measuring [Ca2+]i and the activity of single K(Ca) channels simultaneously. The threshold for activation was between 100 and 200 nM; half-maximal activation occurred at 450 nM. At concentrations > 1 microM, channel activity decreased. Stimulation of the T-cell receptor/CD3 complex using the mitogenic lectin, PHA, increased [Ca2+]i, and increased channel activity and current amplitude resulting from membrane hyperpolarization.
在活化的人T淋巴细胞的细胞贴附膜片上研究了电压门控的n型K(V)通道和钙激活钾通道[K(Ca)]。当移液管内为低钾溶液时,K(V)通道在静息膜电位(Vm)附近的单通道电导为10 pS;当移液管内为高钾溶液时,单通道电导为33 pS。使用高钾移液管溶液时,该通道在正电位下表现出内向整流。T淋巴细胞细胞贴附膜片中的K(V)通道比全细胞模式下的K(V)通道失活更慢。在完整细胞中,静息膜电位下的稳态失活不完全,激活阈值接近Vm。这表明K(V)通道在生理Vm范围内是活跃的。通过在细胞贴附膜片中用高钾溶液进行斜坡刺激诱发的K(V)电流的反转电位,获得了Vm的准确、定量测量值。该方法得出活化的人T淋巴细胞的平均静息Vm为-59 mV。通过反转电位的变化检测到Vm的波动。离子霉素激活K(Ca)通道并使Vm超极化至K+的能斯特电位。通过离子霉素升高细胞内Ca2+浓度([Ca2+]i)会打开一个33 - 50 pS的通道,从动力学上鉴定为CTX敏感的IK型K(Ca)通道。通过同时测量[Ca2+]i和单个K(Ca)通道的活性来确定完整细胞中K(Ca)通道的Ca2+敏感性。激活阈值在100至200 nM之间;半数最大激活发生在450 nM。当浓度>1 μM时,通道活性下降。使用促有丝分裂凝集素PHA刺激T细胞受体/CD3复合物会增加[Ca2+]i,并增加由膜超极化导致的通道活性和电流幅度。