Liu B, Arlock P, Wohlfart B, Johansson B W
Department of Zoophysiology, University of Lund, Sweden.
Cryobiology. 1991 Feb;28(1):96-104. doi: 10.1016/0011-2240(91)90011-c.
Cardiac transmembrane potentials and Na and Ca currents were recorded at different temperatures in rat and hedgehog ventricular muscle. At 35 degrees C in both species resting potential was about -80 mV and upstroke velocity (Vmax) of the action potential above 100 V/s. The shape of the action potential in hedgehog ventricular cells at 35 degrees C was similar to that in the rat showing a fast repolarization phase. When temperature was decreased, the membrane resting potential depolarized and action potential amplitude and Vmax declined. In rat ventricular cells at 10 degrees C, the resting potential was about -40 to -50 mV and Vmax was reduced to about 5 V/s. In hedgehog ventricular cells, however, the transmembrane potentials and Vmax were better maintained at low temperature. Phase 3 of the action potential was markedly prolonged below 20 degrees C in hedgehog but not in rat ventricular cells. When temperature was decreased to 10 degrees C the availability curve of the Na current shifted toward more negative potentials and ICa.peak declined in rat ventricular cells. In hedgehog cardiac preparations, the Na current was less influenced by the cooling and ICa.peak did not change very much at low temperatures. A transient inward current usually considered to induce cardiac arrhythmias could be recorded in rat ventricular cells below 20 degrees C but not in hedgehog preparations. These features of hedgehog cardiac membranes may contribute to the cold tolerance and the resistance to ventricular fibrillation during the hypothermia in mammalian hibernators.
在大鼠和刺猬的心室肌中,于不同温度下记录了心脏跨膜电位以及钠电流和钙电流。在两种动物中,35℃时静息电位约为 -80mV,动作电位的上升速度(Vmax)超过100V/s。35℃时刺猬心室细胞的动作电位形状与大鼠的相似,呈现快速复极化阶段。当温度降低时,膜静息电位去极化,动作电位幅度和Vmax下降。在10℃的大鼠心室细胞中,静息电位约为 -40至 -50mV,Vmax降至约5V/s。然而,在刺猬心室细胞中,跨膜电位和Vmax在低温下能得到更好的维持。刺猬心室细胞中动作电位的第3期在20℃以下明显延长,而大鼠心室细胞则不然。当温度降至10℃时,大鼠心室细胞中钠电流的可用性曲线向更负的电位移动,ICa.peak下降。在刺猬心脏标本中,钠电流受冷却的影响较小,低温下ICa.peak变化不大。在20℃以下的大鼠心室细胞中可记录到通常被认为会诱发心律失常的短暂内向电流,而在刺猬标本中则未记录到。刺猬心脏膜的这些特性可能有助于哺乳动物冬眠动物在体温过低期间的耐寒性和抗心室颤动能力。
