Tu Q, Velez P, Cortes-Gutierrez M, Fill M
Department of Physiology and Biophysics, University of Texas Medical Branch, Galveston 77555-0641.
J Gen Physiol. 1994 May;103(5):853-67. doi: 10.1085/jgp.103.5.853.
Single channel currents through cardiac sarcoplasmic reticulum (SR) Ca2+ release channels were measured in very low levels of current carrier (e.g., 1 mM Ba2+). The hypothesis that surface charge contributes to these anomalously large single channel currents was tested by changing ionic strength and surface charge density. Channel identity and sidedness was pharmacologically determined. At low ionic strength (20 mM Cs+), Cs+ conduction in the lumen-->myoplasm (L-->M) direction was significantly greater than in the reverse direction (301.7 +/- 92.5 vs 59.8 +/- 38 pS, P < 0.001; mean +/- SD, t test). The Cs+ concentration at which conduction reached half saturation was asymmetric (32 vs 222 mM) and voltage independent. At high ionic strength (400 mM Cs+), conduction in both direction saturated at 550 +/- 32 pS. Further, neutralization of carboxyl groups on the lumenal side of the channel significantly reduced conduction (333.0 +/- 22.5 vs 216.2 +/- 24.4 pS, P < 0.002). These results indicate that negative surface charge exists near the lumenal mouth of the channel but outside the electric field of the membrane. In vivo, this surface charge may potentiate conduction by increasing the local Ca2+ concentration and thus act as a preselection filter for this poorly selective channel.
在极低浓度的载流子(如1 mM Ba2+)条件下,测量了通过心肌肌浆网(SR)Ca2+释放通道的单通道电流。通过改变离子强度和表面电荷密度,对表面电荷导致这些异常大的单通道电流这一假说进行了验证。通过药理学方法确定了通道的特性和方向。在低离子强度(20 mM Cs+)时,Cs+在管腔→肌质(L→M)方向的传导显著大于反向传导(301.7±92.5对59.8±38 pS,P<0.001;平均值±标准差,t检验)。传导达到半饱和时的Cs+浓度不对称(32对222 mM)且与电压无关。在高离子强度(400 mM Cs+)时,两个方向的传导在550±32 pS时达到饱和。此外,通道管腔侧羧基的中和显著降低了传导(333.0±22.5对216.2±24.4 pS,P<0.002)。这些结果表明,通道管腔口附近但在膜电场之外存在负表面电荷。在体内,这种表面电荷可能通过增加局部Ca2+浓度来增强传导,从而作为这个选择性较差的通道的预选过滤器。
