Gabapentin and pregabalin are anticonvulsant drugs that are extensively used for the treatment of several neurological and psychiatric disorders. Gabapentinoids (GBPs) are known to have a high affinity binding to α2δ-1 and α2δ-2 auxiliary subunit of specific voltage-gated calcium channels. Despite the confusing effects reported on Ca (2+) currents, most of the studies showed that GBPs reduced release of various neurotransmitters from synapses in several neuronal tissues. We showed that acute in vitro application of pregabalin can reduce in a dose dependent manner synaptic transmission in both neuromuscular junctions and calyx of Held-MNTB excitatory synapses. Furthermore presynaptic Ca (2+) currents treated with pregabalin are reduced in amplitude, do not show inactivation at a clinically relevant low concentration of 100 μM and activate and deactivate faster. These results suggest novel modulatory role of acute pregabalin that might contribute to better understanding its anticonvulsant/analgesic clinical effects.
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