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  • Title: Contributions of voltage- and Ca2+-activated conductances to GABA-induced depolarization in spider mechanosensory neurons.
    Author: Panek I, Höger U, French AS, Torkkeli PH.
    Journal: J Neurophysiol; 2008 Apr; 99(4):1596-606. PubMed ID: 18216223.
    Abstract:
    Activation of ionotropic gamma-aminobutyric acid type A (GABA(A)) receptors depolarizes neurons that have high intracellular [Cl(-)], causing inhibition or excitation in different cell types. The depolarization often leads to inactivation of voltage-gated Na channels, but additional ionic mechanisms may also be affected. Previously, a simulated model of spider VS-3 mechanosensory neurons suggested that although voltage-activated Na(+) current is partially inactivated during GABA-induced depolarization, a slowly activating and inactivating component remains and may contribute to the depolarization. Here, we confirmed experimentally, by blocking Na channels prior to GABA application, that Na(+) current contributes to GABA-induced depolarization in VS-3 neurons. Ratiometric Ca(2+) imaging experiments combined with intracellular recordings revealed a significant increase in intracellular [Ca(2+)] when GABA(A) receptors were activated, synchronous with the depolarization and probably due to Ca(2+) influx via low-voltage-activated (LVA) Ca channels. In contrast, GABA(B)-receptor activation in these neurons was previously shown to inhibit LVA current. Blockade of voltage-gated K channels delayed membrane repolarization, extending GABA-induced depolarization. However, inhibition of Ca channels significantly increased the amplitude of GABA-induced depolarization, indicating that Ca(2+)-activated K(+) current has an even stronger repolarizing effect. Regulation of intracellular [Ca(2+)] is important for many cellular processes and Ca(2+) control of K(+) currents may be particularly important for some functions of mechanosensory neurons, such as frequency tuning. These data show that GABA(A)-receptor activation participates in this regulation.
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