Activation of central muscarinic receptors inhibit Ca 2+/Mg 2+ ATPase and ATP-dependent Ca 2+ transport in synaptic membranes

Abstract

Preparations of lysed synaptosomes exhibit a high affinity Ca 2+/Mg 2+ ATPase and ATP-dependent Ca 2+ accumulation activity, with a K m forCa 2+ ⋍ 0.5 μM, close to the cytosolic concentration of Ca 2+. When these membrane suspensions were incubated with cholinergic agonists muscarine or oxotremorine (1–20 μM), both Ca 2+/Mg 2+ ATPase and ATP-dependent Ca 2+ uptake were inhibited in a concentration-dependent fashion. Atropine alone (0.5–1.0 μM) had no effect on either enzyme or uptake activity, but significantly inhibited the actions of both muscarine and oxotremorine. No significant effects by cholinergic agonists or antagonists were seen on fast or slow phase voltage-dependent Ca 2+ channels or Na +-Ca 2+ exchange. These results suggest that activation of presynaptic muscarinic receptors produce inhibition of two processes required for the buffering of optimal free Ca 2+ by the nerve terminal. Activation of presynaptic muscarinic receptors have been reported to reduce the release of ACh from nerve terminals. Alterations in intracellular free Ca 2+ may contribute to a reduction in transmitter (ACh) release seen following activation of cholinergic receptors.