Whole cell currents were recorded in cultured rat hippocampal neurons using the patch-clamp method. When the cells were held near the resting membrane potential (-60 mV) the application of adenosine (1 μM) the adenosine analogues 2CA (100 nM) and R-PIA (40 nM) induced a steady-state inward current. This response was unchanged when extra- and intracellular media were used, in which Na+ and K+ were substituted by impermeable ions in equimolar concentrations. In contrast the current was affected by lowering the extracellular Cl- concentration and thus Cl- was considered to be the ionic carrier. Additionally an almost complete block of the current was observed after application of DIDS (50 μM), a putative Cl- channel blocker. The modulated current was voltage-dependent and was slowly activated by hyperpolarizing voltage steps. The adenosine action was theophylline- and pertussis toxin-sensitive indicating that the modulatory effect is mediated via an A1 receptor coupled to a G protein of the Gi or Go class. © 1990.
Mager R., Ferroni S., Schubert P. (1990). Adenosine modulates a voltage-dependent chloride conductance in cultured hippocampal neurons. BRAIN RESEARCH, 532(1-2), 58-62 [10.1016/0006-8993(90)91741-X].
Adenosine modulates a voltage-dependent chloride conductance in cultured hippocampal neurons
Ferroni S.;
1990
Abstract
Whole cell currents were recorded in cultured rat hippocampal neurons using the patch-clamp method. When the cells were held near the resting membrane potential (-60 mV) the application of adenosine (1 μM) the adenosine analogues 2CA (100 nM) and R-PIA (40 nM) induced a steady-state inward current. This response was unchanged when extra- and intracellular media were used, in which Na+ and K+ were substituted by impermeable ions in equimolar concentrations. In contrast the current was affected by lowering the extracellular Cl- concentration and thus Cl- was considered to be the ionic carrier. Additionally an almost complete block of the current was observed after application of DIDS (50 μM), a putative Cl- channel blocker. The modulated current was voltage-dependent and was slowly activated by hyperpolarizing voltage steps. The adenosine action was theophylline- and pertussis toxin-sensitive indicating that the modulatory effect is mediated via an A1 receptor coupled to a G protein of the Gi or Go class. © 1990.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.