Multiple actions of cadmium on transmitter release at the mouse neuromuscular junction.

The action of cadmium ions on transmitter release was studied at the neuromuscular junction in mouse diaphragm. In the presence of raised K+, Cd2+ caused a parallel shift to the right of the graph of transmitter release rate (frequency of miniature end-plate potentials, fmepp) versus log [Ca2+], with no change in maximum or slope, indicating a competitive mode of action of Cd2+. The apparent dissociation constant for Cd2+ was 3 microM. In calcium-free solutions containing 15 mM K+, Cd2+ caused a rise in the fmepp, which subsequently slowly declined despite the continued presence of Cd2+. The rise in fmepp caused by Cd2+ could be interrupted, but not reversed, by washing out the Cd2+ with EDTA. Exposure of the preparation to 100 microM Cd2+ for 15 min or more resulted in a raised fmepp that persisted despite the removal of Cd2+ and exposure to 200 microM EDTA. Following such treatment, the graph of fmepp versus log [Ca2+] continued to be shifted to the right. The interaction of Ca2+ with the residual effect of Cd2+ indicates that Cd2+, in addition to its action to block Ca2+ entry into the terminal, may act as a competitor and perhaps as a partial agonist at intracellular sites that normally bind Ca2+ and govern transmitter release. If this is the case, then it must be supposed that, in raised K+, quantal release of transmitter represents intermittent intense activation of release sites with local high levels of Ca2+ rather than continuous low level activation.