Lew W Y, Hryshko L V, Bers D M
Department of Biomedical Sciences, University of California, Riverside.
Circ Res. 1991 Oct;69(4):1139-45. doi: 10.1161/01.res.69.4.1139.
We measured [3H]PN200-110 binding and patch-clamp currents in rabbit ventricular myocytes to determine if there is a disparity between the density of dihydropyridine-specific receptors and functional L-type calcium channels, as has been reported for skeletal muscle. The dihydropyridine receptor density was 74.7 +/- 4.2 fmol/mg protein (mean +/- SEM, Kd = 1.73 +/- 0.29 nM, n = 6) in ventricular homogenates and 147 +/- 6 fmol/mg protein (Kd = 1.15 +/- 0.16 nM, n = 4) in myocytes. Ventricular homogenates contained 121 +/- 9 mg protein/g wet wt (n = 7). These values were used to calculate a dihydropyridine receptor density of 12.9 dihydropyridine sites/micron2 for ventricular homogenates and 14.8 dihydropyridine sites/micron2 for myocytes. The number of functional L-type calcium channels (N) was calculated from measurements of whole-cell current (I), single-channel current (i), and open probability (po), where N = I/(i x po). We measured sodium current through calcium channels (I(ns)) to avoid calcium-induced inactivation. Whole-cell (I(ns)) and single-channel (i(ns) and po) measurements were obtained under similar ionic conditions at a test potential of -20 mV. In six cells, the peak I(ns) was approximately 105 pA/pF. The single-channel conductance was 40.8 +/- 2.6 pS (n = 12), and i(ns) at -20 mV was 1.96 pA. The mean po at -20 mV was 0.030 +/- 0.002 in 16 patches in which only a single channel was evident. The calculated density of functional L-type calcium channels was approximately 18 channels/micron2.(ABSTRACT TRUNCATED AT 250 WORDS)
我们测量了兔心室肌细胞中[3H]PN200 - 110的结合以及膜片钳电流,以确定二氢吡啶特异性受体密度与功能性L型钙通道之间是否存在差异,正如在骨骼肌中所报道的那样。心室匀浆中二氢吡啶受体密度为74.7±4.2 fmol/mg蛋白(平均值±标准误,Kd = 1.73±0.29 nM,n = 6),心肌细胞中为147±6 fmol/mg蛋白(Kd = 1.15±0.16 nM,n = 4)。心室匀浆中每克湿重含有121±9 mg蛋白(n = 7)。这些值用于计算心室匀浆中二氢吡啶受体密度为12.9个二氢吡啶位点/μm²,心肌细胞中为14.8个二氢吡啶位点/μm²。功能性L型钙通道的数量(N)通过测量全细胞电流(I)、单通道电流(i)和开放概率(po)来计算,其中N = I/(i×po)。我们测量通过钙通道的钠电流(I(ns))以避免钙诱导的失活。在 - 20 mV的测试电位下,在相似离子条件下获得全细胞(I(ns))和单通道(i(ns)和po)测量值。在六个细胞中,I(ns)峰值约为105 pA/pF。单通道电导为40.8±2.6 pS(n = 12),在 - 20 mV时i(ns)为1.96 pA。在16个仅可见单个通道的膜片中, - 20 mV时的平均po为0.030±0.002。计算得出的功能性L型钙通道密度约为18个通道/μm²。(摘要截断于250字)
