Biophysical and Pharmacological Characterization of Voltage-Dependent Ca2+ Channels in Neurons Isolated From Rat Nucleus Accumbens

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Biophysical and Pharmacological Characterization of Voltage-Dependent Ca²⁺ Channels in Neurons Isolated From Rat Nucleus Accumbens

Dennis Churchill and Brian A. Macvicar

Neuroscience Research Group, Department of Physiology and Biophysics, Faculty of Medicine, University of Calgary, Alberta T2N 4N1, Canada

Churchill, Dennis and Brian A. MacVicar. Biophysical and pharmacological characterization of voltage-dependent Ca²⁺ channels in neurons isolated from rat nucleus accumbens. J. Neurophysiol.79: 635-647, 1998. The nucleus accumbens (NA) has an integrativerole in behavior and may mediate addictive and psychotherapeuticdrug action. Whole cell recording techniques were used to characterizeelectrophysiologically and pharmacologically high- and low-thresholdvoltage-dependent Ca²⁺ currents in isolated NA neurons. High-threshold Ca²⁺ currents, which were found in all neurons studied and includeboth sustained and inactivating components, activated at potentialsgreater than $-$ 50 mV and reached maximal activation at ~0 mV. Incontrast, low-threshold Ca²⁺ currents activated at voltages greater than $-$ 64 mV with maximalactivation occurring at $-$ 30 mV. These were observed in 42% ofacutely isolated neurons. Further pharmacological characterizationof high-threshold Ca²⁺ currents was attempted using nimodipine (Nim), $omega$ -conotoxin-GVIA( $omega$ -CgTx) and $omega$ -agatoxin-IVA ( $omega$ Aga), which are thought to identifythe L, N, and P/Q subtypes of Ca²⁺ currents, respectively. Nim (5-10 µM) blocked 18%, $omega$ CgTx (1-2µM) blocked 25%, and $omega$ Aga (200 nM) blocked 17% of total Ca²⁺ current. Nim primarily blocked a sustained high-threshold Ca²⁺ current in a partially reversible manner. In contrast, $omega$ CgTxirreversibly blocked both sustained and inactivating components. $omega$ Aga irreversibly blocked only a sustained component. In all threeof these Ca²⁺ channel blockers, plus 5 µM $omega$ -conotoxin-MVIIC to eliminate asmall unblocked Q-type Ca²⁺ current (7%), a toxin-resistant high-threshold Ca²⁺ current remained that was 32% of total Ca²⁺ current. This current inactivated much more rapidly than theother high-threshold Ca²⁺ currents, was depressed in 50 µM Ni²⁺ and reached maximal activation 5-10 mV negative to the toxin-sensitivehigh-threshold Ca²⁺ currents. Thus NA neurons have multiple types of high-thresholdCa²⁺ currents with a large component being the toxin-resistant "R"component.

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