Enhancement by calcitonin gene-related peptide of non-contractile Ca2+-induced nicotinic receptor desensitization at the mouse neuromuscular junction

Abstract

1 Nicotinic acetylcholine receptor (AChR)-operated non-contractile Ca²⁺ mobilization (unaccompanied by muscle contraction) depressed contractile Ca²⁺ mobilization (accompanied by muscle contraction) in mouse diaphragm muscles. In the process of nicotinic AChR desensitization, the enhancing role of calcitonin gene-related peptide (CGRP) on the non-contractile Ca²⁺-induced depression of contractile Ca²⁺ mobilization was investigated by measurement of Ca²⁺-aequorin luminescence in the presence of neostigmine (0.1 μm). 2 When the phrenic nerve was stimulated with paired pulses at intervals of 150, 300, 600, 1000 and 2000 ms, contractile Ca²⁺ transients were elicited during the generation of non-contractile Ca²⁺ mobilization. The amplitude of the contractile Ca²⁺ transients elicited by the second pulse (S₂) was depressed at the shorter pulse intervals, but not at the longer pulse intervals. 3 The extent of depression of S₂ was enhanced when the duration of non-contractile Ca²⁺ mobilization was prolonged by CGRP (10 nM). However, CGRP failed to enhance the depression of S₂ when non-contractile Ca²⁺ mobilization was not observed at the low external Ca²⁺ concentration (1.3 mM). 4 The enhancing effect by CGRP on the depression of S₂ was counteracted by staurosporine (3 nM), a protein kinase-C inhibitor, despite prolongation of the duration of non-contractile Ca²⁺ mobilization. 5 When H-89 (1 μm), a protein kinase-A inhibitor, completely blocked non-contractile Ca²⁺ mobilization, the depression of S₂ was diminished. The prolongation of the duration of non-contractile Ca²⁺ mobilization by AA373 (300 μm), a protein kinase-A activator, enhanced the depression of S₂. The enhancing effect was observed neither with CGRP nor with AA373, in the presence of H-89 (0.1 μm). 6 These findings suggest that the CGRP mobilizes non-contractile Ca²⁺ through activation of protein kinase-A, which in turn may activate protein kinase-C, then enhance the desensitization of postsynaptic nicotinic AChRs at the neuromuscular junction.