Biphasic Response to Noradrenaline in the Guinea Pig Liver Cells

Abstract

Effects of noradrenaline (norepinephrine NA) on the membrane potential and the membrane resistance were studied in guinea pig liver slices. The slices (2 .times. 2 .times. 6 mm) were prepared from the left lobe of the liver and superfused with Krebs solution. The mean membrane potential was -53.1 mV. Electrotonic potentials were recorded in an extrapolar region of liver cells when current pulses were applied between 2 extracellular electrodes. A liver slice had cable-like properties. The space constant was estimated to be 0.38 mm and the time constant 5.2 ms. NA administration (10-5 M) caused initial depolarization followed by hyperpolarization and reduction in the size of the electrotonic potentials, suggesting a reduction in the membrane resistance. The response to NA depended on the membrane potential, i.e., the depolarizing component of the biphasic response was larger with higher membrane potential, while the hyperpolarizing component was larger with lower membrane potential. Both components of the response were blocked by an .alpha.-blocker, phentolamine (1.5 .times. 10-5 M), but not by a .beta.-blocker, propranolol. The depolarizing component became smaller in a Na+-deficient and in a Cl--deficient solution and was abolished in a solution lacking both Na+ and Cl-. Increases in Na+ and Cl- conductances may be responsible for the depolarizing component. The hyperpolarizing component was increased when the external K+ concentration was reduced, and the change in the peak potential with the external K+ concentration was larger in the presence of NA. The dependence of the response on the membrane potential and the reduction of the membrane resistance may suggest that the hyperpolarizing component of NA response is produced mainly by an increase in K+ conductance.