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The Journal of Neuroscience, March 17, 2004, 24(11):2643-2647; doi:10.1523/JNEUROSCI.5144-03.2004

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BRIEF COMMUNICATION
Inhibitory Control at a Synaptic Relay

Gautam B. Awatramani,¹ Rostislav Turecek,² and Laurence O. Trussell¹

¹Oregon Hearing Research Center/Vollum Institute, Oregon Health and Science University, Portland, Oregon 97239, and ²Institute of Experimental Medicine, The Academy of Sciences of the Czech Republic, 117 20 Prague 1, Czech Republic

The mammalian medial nucleus of the trapezoid body (MNTB) harbors one of the most powerful terminals in the CNS, the calyx of Held. The mechanisms known to regulate this synaptic relay are relatively ineffective. Here, we report the presence of a remarkably robust and fast-acting glycinergic inhibitory system capable of suppressing calyceal transmission.

Evoked glycinergic IPSCs were relatively small in 2-week-old rats, an age by which calyceal maturation has reportedly neared completion. However, by postnatal day 25 (P25), glycinergic transmission had undergone a vigorous transformation, resulting in peak synaptic conductances as high as 280 nS. These are comparable with glutamatergic conductances activated by calyceal inputs. Decay kinetics for IPSCs were severalfold faster than for glycinergic synaptic events reported previously. At physiological temperatures in P25 rats, IPSCs decayed in 1 msec and could be elicited at frequencies up to 500 Hz. Moreover, EPSPs triggered by glutamatergic signals derived from the calyx or simulated by conductance clamp were suppressed when preceded by simulated glycinergic IPSPs. The matching of excitatory transmission in the calyx of Held by a powerful, precision inhibitory system suggests that the relay function of the MNTB may be rapidly modified during sound localization.

Key words: auditory; development; GABA; glycine; inhibition; MNTB

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Received Nov 20, 2003; revised January 27, 2004; accepted February 3, 2004.

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