Direct modulation of synaptic vesicle priming by GABAB receptor activation at a glutamatergic synapse (original) (raw)
Simon, M. I., Strathmann, M. P. & Gautam, N. Diversity of G proteins in signal transduction. Science252, 802–808 (1991) ArticleADSCAS Google Scholar
Gilman, A. G. G proteins and regulation of adenylyl cyclase. Biosci. Rep.15, 65–97 (1995) ArticleADSCAS Google Scholar
Zucker, R. S. & Regehr, W. G. Short-term synaptic plasticity. Annu. Rev. Physiol.64, 355–405 (2002) ArticleCAS Google Scholar
Nicoll, R. A., Malenka, R. C. & Kauer, J. A. Functional comparison of neurotransmitter receptor subtypes in mammalian central nervous system. Physiol. Rev.70, 513–565 (1990) ArticleCAS Google Scholar
Wu, L. G. & Saggau, P. Presynaptic inhibition of elicited neurotransmitter release. Trends Neurosci.20, 204–212 (1997) ArticleCAS Google Scholar
Kajikawa, Y., Saitoh, N. & Takahashi, T. GTP-binding protein βγ subunits mediate presynaptic calcium current inhibition by GABAB receptor. Proc. Natl Acad. Sci. USA98, 8054–8058 (2001) ArticleADSCAS Google Scholar
Dittman, J. S. & Regehr, W. G. Contributions of calcium-dependent and calcium-independent mechanisms to presynaptic inhibition at a cerebellar synapse. J. Neurosci.16, 1623–1633 (1996) ArticleCAS Google Scholar
Takahashi, T., Kajikawa, Y. & Tsujimoto, T. G-protein-coupled modulation of presynaptic calcium currents and transmitter release by a GABAB receptor. J. Neurosci.18, 3138–3146 (1998) ArticleCAS Google Scholar
Forsythe, I. D. Direct patch recording from identified presynaptic terminals mediating glutamatergic EPSCs in the rat CNS, in vitro. J. Physiol. (Lond.)479, 381–387 (1994) Article Google Scholar
Borst, J. G. G., Helmchen, F. & Sakmann, B. Pre- and postsynaptic whole-cell recordings in the medial nucleus of the trapezoid body of the rat. J. Physiol. (Lond.)489, 825–840 (1995) ArticleCAS Google Scholar
Barnes-Davies, M. B. & Forsythe, I. D. Pre- and postsynaptic glutamate receptors at a giant synapse in rat auditory brainstem slices. J. Physiol. (Lond.)488, 387–406 (1995) ArticleCAS Google Scholar
Isaacson, J. S. GABAB receptor-mediated modulation of presynaptic currents and excitatory transmission at a fast central synapse. J. Neurophysiol.80, 1571–1576 (1998) ArticleCAS Google Scholar
Takahashi, T., Hori, T., Kajikawa, Y. & Tsujimoto, T. The role of GTP-binding protein activity in fast central synaptic transmission. Science289, 460–463 (2000) ArticleADSCAS Google Scholar
Hess, S. D., Doroshenko, P. A. & Augustine, G. J. A functional role for GTP-binding proteins in synaptic vesicle cycling. Science259, 1169–1172 (1993) ArticleADSCAS Google Scholar
Dittman, J. S. & Regehr, W. G. Calcium dependence and recovery kinetics of presynaptic depression at the climbing fiber to Purkinje cell synapse. J. Neurosci.18, 6147–6162 (1998) ArticleCAS Google Scholar
Stevens, C. F. & Wesseling, J. F. Activity-dependent modulation of the rate at which synaptic vesicles become available to undergo exocytosis. Neuron21, 415–424 (1998) ArticleCAS Google Scholar
Wang, L. Y. & Kaczmarek, L. K. High-frequency firing helps replenish the readily releasable pool of synaptic vesicles. Nature394, 384–388 (1998) ArticleADSCAS Google Scholar
Sakaba, T. & Neher, E. Calmodulin mediates rapid recruitment of fast-releasing synaptic vesicles at a calyx-type synapse. Neuron32, 1119–1131 (2001) ArticleCAS Google Scholar
Cuttle, M. F., Tsujimoto, T., Forsythe, I. D. & Takahashi, T. Facilitation of the presynaptic calcium current at an auditory synapse in rat brainstem. J. Physiol. (Lond.)512, 723–729 (1998) ArticleCAS Google Scholar
Seifert, R. & Wenzel-Seifert, K. Constitutive activity of G-protein-coupled receptors: cause of disease and common property of wild-type receptors. Naunyn-Schmiedeberg's Arch. Pharmacol.366, 381–416 (2002) ArticleCAS Google Scholar
Sakaba, T. & Neher, E. Preferential potentiation of fast-releasing synaptic vesicles by cAMP at the calyx of Held. Proc. Natl Acad. Sci. USA98, 331–336 (2001) ArticleADSCAS Google Scholar
Sakaba, T. & Neher, E. Involvement of actin polymerization in vesicle recruitment at the calyx of Held synapse. J. Neurosci.23, 837–846 (2003) ArticleCAS Google Scholar
Enserink, J. M. et al. A novel Epac-specific cAMP analogue demonstrates independent regulation of Rap1 and ERK. Nature Cell Biol.4, 901–906 (2002) ArticleCAS Google Scholar
Ozaki, N. et al. cAMP-GEF II is a direct target of cAMP in regulated exocytosis. Nature Cell Biol.2, 805–811 (2000) ArticleCAS Google Scholar
Betz, A. et al. Functional interaction of the active zone protein Munc13-1 and Rim1 in synaptic vesicle priming. Neuron30, 183–196 (2001) ArticleCAS Google Scholar
Xu, X. Z. S. et al. Retinal targets for calmodulin include proteins implicated in synaptic transmission. J. Biol. Chem.273, 31297–31307 (1998) ArticleCAS Google Scholar
Eliasson, L. et al. SUR1 regulates PKA-independent cAMP-induced granule priming in mouse pancreatic B-cells. J. Gen. Physiol.121, 181–197 (2003) ArticleCAS Google Scholar
Silinsky, E. M. On the mechanism by which adenosine receptor activation inhibits the release of acetylcholine from motor-nerve endings. J. Physiol. (Lond.)346, 243–256 (1984) ArticleCAS Google Scholar
Dale, N. & Kandel, E. R. Facilitatory and inhibitory transmitters modulate spontaneous transmitter release at cultured Aplysia sensorimotor synapses. J. Physiol. (Lond.)421, 203–222 (1990) ArticleCAS Google Scholar
Scanziani, M., Capogna, M., Gahwiler, B. H. & Thompson, S. M. Presynaptic inhibition of miniature excitatory synaptic currents by baclofen and adenosine in the hippocamus. Neuron9, 919–927 (1992) ArticleCAS Google Scholar