Muscarine inhibits high-threshold calcium currents with two distinct modes in rat embryonic hippocampal neurons.

AUTOR(ES)

Toselli, M

RESUMO

1. Ca2+ channel modulation by muscarine was investigated in primary cultured embryonic rat hippocampal neurons using the whole-cell variant of the patch-clamp technique. 2. Muscarine produced a reversible and concentration-dependent decrease in the Ba2+ current amplitude. In 65% of neurons sensitive to the agonist, current inhibition was time and voltage dependent, being maximal between -20 and 0 mV and decreasing at depolarizing potentials. In the remaining 35% of neurons, the effects of muscarine were voltage independent, inhibition being constant in a wide potential range between -20 and +80 mV. 3. Different receptors might be involved in the two modes of modulation. Muscarine-induced voltage-dependent inhibition of Ba2+ current was best suppressed by the muscarinic receptor antagonist 4-diphenylacetoxy-N-methyl-piperidine methiodide (81% suppression), while voltage-independent inhibition was best suppressed by AFDX116 (75% suppression). 4. In cells treated with omega-conotoxin (omega-CgTX), the voltage-independent mode of inhibition was strongly prevented, suggesting that the two modulatory mechanisms (voltage dependent and voltage independent) operate on separate classes of high-voltage-activated (HVA) Ca2+ channels. 5. A pertussis toxin-sensitive G-protein is involved in both modes of action of muscarine, since both modes were prevented by pretreatment of the cells with 50 ng ml-1 pertussis toxin. 6. Both modes of modulation were mimicked in different cells by intracellular application of GTP-gamma-S. However, the onset of voltage-independent inhibition was about 5 times slower than that of voltage-dependent inhibition, suggesting involvement of a more complex metabolic pathway for the former mode of channel modulation. 7. Relief of the voltage-dependent inhibition was obtained by depolarizing voltage prepulses and occurred with kinetics that depended on agonist concentration. 8. The voltage-dependent inhibition could be simulated by a kinetic model in which the time course of Ca2+ entry was assumed to be regulated by both the concentration of muscarine and membrane potential.

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