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The Journal of Neuroscience, April 20, 2005, 25(16):4031-4039; doi:10.1523/JNEUROSCI.4969-04.2005

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Cellular/Molecular
Presynaptically Silent GABA Synapses in Hippocampus

John M. Bekkers

Division of Neuroscience, The John Curtin School of Medical Research, The Australian National University, Canberra, Australian Capital Territory 0200, Australia

Mammalian central synapses commonly specialize in one fast neurotransmitter, matching the content of their presynaptic vesicles with the appropriate receptors in their postsynaptic membrane. Here, I show that hippocampal cultures contain autaptic glutamatergic synapses that contravene this rule: in addition to postsynaptic glutamate receptors, they also express clusters of functional postsynaptic GABA_A receptors yet lack presynaptic GABA. Hence, these synapses are presynaptically silent with respect to GABA. They can be unsilenced by loading GABA into presynaptic vesicles by endocytosis, after which a postload IPSC appears. This IPSC is similar to native IPSCs recorded from GABAergic interneurons in the same cultures. Thus, these "mistargeted" GABA_A receptors, which apparently lack a signal that confers synaptic specificity, function almost normally. After GABA loading, glutamatergic miniature postsynaptic currents acquire a slow tail that is mediated by GABA_A receptors, showing that synaptic vesicles can accommodate both the usual concentration of native glutamate and a saturating concentration of loaded GABA. After brief Ca²⁺-dependent exocytosis, endocytosis of GABA can proceed in low-Ca²⁺ external solution. The amplitude of the postload IPSC declines exponentially with repetitive stimulation as the endocytosed GABA passes through the presynaptic vesicle cycle and is depleted. Hence, by using GABA as an exogenous but physiological tracer, the properties of these presynaptically silent synapses can provide novel insights into the content and cycling of vesicles in presynaptic terminals.

Key words: autapse; culture; endocytosis; EPSC; IPSC; synaptic vesicle

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Received Dec 6, 2004; revised March 7, 2005; accepted March 7, 2005.

This article has been cited by other articles:

				P. Aracri, S. Consonni, R. Morini, M. Perrella, S. Rodighiero, A. Amadeo, and A. Becchetti Tonic Modulation of GABA Release by Nicotinic Acetylcholine Receptors in Layer V of the Murine Prefrontal Cortex Cereb Cortex, October 7, 2009; (2009) bhp214v1. [Abstract] [Full Text] [PDF]

				K. Ikeda and J. M. Bekkers Counting the number of releasable synaptic vesicles in a presynaptic terminal PNAS, February 24, 2009; 106(8): 2945 - 2950. [Abstract] [Full Text] [PDF]

				K. Ikeda, Y. Yanagawa, and J. M. Bekkers Distinctive Quantal Properties of Neurotransmission at Excitatory and Inhibitory Autapses Revealed Using Variance-Mean Analysis J. Neurosci., December 10, 2008; 28(50): 13563 - 13573. [Abstract] [Full Text] [PDF]

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