L-type calcium channels unmasked by cell-permeant Ca2+ buffer at mouse motor nerve terminals.

The involvement of the different types of voltage-dependent calcium channels (VDCC) in both DM-BAPTA-AM-incubated and EGTA-AM-incubated mature mice levator auris neuromuscular junctions (NMJ) was studied. We evaluated the effects of omega-agatoxin IVA (omega-Aga IVA), nitrendipine and omega-conotoxin GVIA (omega-CgTX) (P/Q-, L- and N-type VDCC blockers, respectively) on perineurial calcium currents (ICa) and nerve-evoked transmitter release. The application of omega-Aga IVA (100 nM) drastically reduced perineurial ICa (>90%) and nerve-evoked transmitter release (>90% of reduction in quantal content, m) at both DM-BAPTA-AM-incubated and EGTA-AM-incubated NMJ. The L-type VDCC antagonist nitrendipine (10 microM) caused a significant reduction (23+/-9%, n=5) of perineurial ICa at DM-BAPTA-AM-incubated NMJ. In addition, after the block of P/Q-type VDCC with omega-Aga IVA (100 nM), nitrendipine reduced (>90%, n=2) the remaining perineurial ICa. Such reduction was not observed at EGTA-AM-incubated NMJ, before or after the total block of P/Q-type VDCC. Moreover, nitrendipine did not significantly reduce the quantal content of DM-BAPTA-AM-incubated NMJ. Finally, the application of omega-CgTX (5 microM) did not significantly affect perineurial ICa or nerve-evoked transmitter release at either DM-BAPTA-AM-incubated or EGTA-AM-incubated NMJ. These results show the existence of a nitrendipine-sensitive, L-type component of perineurial ICa in DM-BAPTA-AM-incubated NMJ of mature mice.