Presynaptic Ca _V 2.1 calcium dependent facilitation is essential for faithful auditory information transfer

Activity-dependent modulation of presynaptic voltage-gated Ca ²⁺ channels (Ca _V 2) regulates Ca ²⁺ influx to control neuronal circuit output. Although Ca _V 2.1 can undergo robust Ca ²⁺ dependent facilitation (CDF), whether it occurs in native central nervous system neuronal circuits is disputed. Accurate auditory information processing requires precise and reliable synaptic transmission at high activity rates in the auditory brainstem. To determine if Ca _V 2.1 CDF is a key regulator of high-fidelity synaptic transmission, we expressed Ca _V 2.1 splice variants capable (Ca _V 2.1 37a) or incapable (Ca _V 2.1 37b) of CDF at the calyx of Held presynaptic terminal in the auditory brainstem. We found no difference in basal Ca _V 2.1 currents or synaptic transmission. However, Ca _V 2.1 37b terminals lacked CDF, synaptic facilitation and had a decreased reliability and precision of postsynaptic action-potential firing. Additionally, the Wave III amplitude of the auditory brainstem responses was reduced. We propose that Ca _V 2.1 CDF is essential for accurate auditory information processing.