Synaptic Transmission at the Calyx of Held Under In Vivo-Like Activity Levels

doi:10.1152/jn.00355.2007

Synaptic Transmission at the Calyx of Held Under In Vivo–Like Activity Levels

Joachim Hermann¹, Michael Pecka¹, Henrique von Gersdorff¹^,2, Benedikt Grothe¹ and Achim Klug¹

¹Ludwig-Maximilians-University, Munich, Germany; and ²The Vollum Institute, Oregon Health and Science University, Portland, Oregon

Submitted 29 March 2007; accepted in final form 13 May 2007

One of the hallmarks of auditory neurons in vivo is spontaneousactivity that occurs even in the absence of any sensory stimuli.Sound-evoked bursts of discharges are thus embedded within thisbackground of random firing. The calyx of Held synapse in themedial nucleus of the trapezoid body (MNTB) has been characterizedin vitro as a fast relay that reliably fires at high stimulusfrequencies ( $≤$ 800 Hz). However, inherently due to the preparationmethod, spontaneous activity is absent in studies using brainstem slices. Here we first determine in vivo spontaneous firingrates of MNTB principal cells from Mongolian gerbils and thenreintroduce this random firing to in vitro gerbil brain stemsynapses at near-physiological temperature. After conditioningsynapses with afferent fiber stimulation for 2 min at Poissonaveraged rates of 20, 40, and 60 Hz, we observed a number ofdifferences in the properties of synaptic transmission betweenconditioned and unconditioned synapses. Foremost, we observedreduced steady-state EPSC amplitudes that depressed even furtherduring an embedded short-stimulation train of 100, 300, or 600Hz (a protocol that thus simulates in vitro what probably occursat the in vivo MNTB after a short sound stimulus in a silentbackground). Accordingly, current-clamp, dynamic-clamp, andloose-patch recordings revealed a number of action potentialfailures at the postsynaptic cell during high-frequency–stimulationtrains, although the initial onset of evoked activity was stilltransmitted with higher fidelity. We thus propose that somein vivo auditory synapses are in a tonic state of reduced EPSCamplitudes as a consequence of high spontaneous spiking andthis in vivo–like conditioning has important consequencesfor the encoding of signals throughout the auditory pathway.

Address for reprint requests and other correspondence: A. Klug, Neurobiology Group, Dept. Biology II, Grosshaderner Strasse 2, 82152 Martinsried, Germany (E-mail: achim.klug{at}lmu.de)

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