Kainate receptor‐mediated depression of glutamatergic transmission involving protein kinase A in the lateral amygdala

Negrete-Díaz, José Vicente; Duque-Feria, Paloma; Andrade-Talavera, Yuniesky; Carrión, Miriam; Flores, Gonzalo; Rodríguez‐Moreno, Antonio

doi:10.1111/j.1471-4159.2012.07665.x

Cited by 19 publications

(27 citation statements)

References 41 publications

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“…Biophysical studies with single-channel recording have shown GluK1 activity [85], suggesting these KARs are Ca 2+ permeable. A biphasic action of KARs, activated by the agonist domoate, has been shown previously at PF-PuC synapse, with low agonist concentrations, facilitating synaptic transmission and higher concentrations depressing synaptic transmission [86] in agreement with what has been found in the hippocampus [87][88][89], cortex [90], amygdala [91], and the thalamus [92]. EPSC trial-to-trial fluctuation analysis, failure rates, as well as paired-pulse ratios have shown that these facilitatory and depressive actions of KARs in the cerebellum are mediated by presynaptic KARs [80].…”

Section: Kars Modulating Glutamate Release In the Cerebellum: A Biphasupporting

confidence: 86%

“…Kainate Receptors Modulating Glutamate Release in the Cerebellum DOI: http://dx.doi.org /10.5772/intechopen.87984 was observed as reported for other different brain areas including thalamus, cortex, hippocampus, and amygdala [89][90][91][92]. This depression of glutamate release was prevented in the presence of cAMP-RP (which inhibits the activation of PKA), but was not affected by any other experimental modification discussed above with respect to the facilitation of glutamate release.…”

Section: Action Mechanism For Kars-mediated Depression Of Glutamate Rsupporting

confidence: 72%

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Kainate Receptors Modulating Glutamate Release in the Cerebellum

Losada-Ruiz¹,

Falcón-Moya²,

Rodríguez‐Moreno³

2019

Biogenic Amines in Neurotransmission and Human Disease

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Glutamate receptors of the kainate type (Kainate receptors, KARs), are mediators of ionotropic postsynaptic synaptic transmission, as well as presynaptic modulators of neurotransmitter release where they show both ionotropic and metabotropic actions regulating glutamate and γ-aminobutiric acid (GABA) release. The mechanisms underlying these modulatory roles are starting to be understood at some brain regions. Here we review the KARs roles and mechanisms involved in the modulation of glutamate release in the cerebellum at parallel fibers (PF)-Purkinje Cells (PuC) synapses. KARs activation mediate a biphasic effect on glutamate release at this synapse, with low kainate (KA) concentrations mediating a facilitation of glutamate release and higher KA concentrations mediating a depression of glutamate release. KA-mediated facilitation is prevented by antagonizing KARs, by inhibition of PKA or stimulation of adenylyl cyclase (AC), by blocking Ca 2+ permeant KARs, by depleting intracellular Ca 2+ stores and by blocking calmodulin. Thus, at cerebellar parallel fiber-Purkinje cell synapses, presynaptic KARs mediate glutamate release facilitation through Ca 2+-calmodulin dependent activation of adenylyl cyclase/cAMP/protein kinase A signaling. KAR-mediated depression of glutamate release involves the AC/cAMP/PKA pathway as for facilitation but not Ca 2+-calmodulin, being in this case AC activated by a Gi/o protein to mediate a depression of glutamate release.

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Section: Kars Modulating Glutamate Release In the Cerebellum: A Biphasupporting

confidence: 86%

Section: Action Mechanism For Kars-mediated Depression Of Glutamate Rsupporting

confidence: 72%

Kainate Receptors Modulating Glutamate Release in the Cerebellum

Losada-Ruiz¹,

Falcón-Moya²,

Rodríguez‐Moreno³

2019

Biogenic Amines in Neurotransmission and Human Disease

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“…As in the hippocampus, facilitatory (Shin et al, 2010 ) and inhibitory (Negrete-Díaz et al, 2012 ) effects on glutamate release mediated by KAR activation have been described. A presynaptic AC/cAMP/PKA cascade mediating the depression of glutamate release through activation of presynaptic KARs has been shown at medial geniculate nucleus (MGN)-amygdala nucleus (LA) synapses (Negrete-Díaz et al, 2012 ). The effect was prevented by block of cAMP/PKA signaling by both Rp-Br-cAMP and H-89, but not by calphostin C inhibition of PKC.…”

Section: Amygdalamentioning

confidence: 99%

“…Similarly, biphasic modulation is also evident in the modulation of glutamate release by KARs. Thus, KARs invoke both inhibitory effects (Vignes et al, 1998 ; Contractor et al, 2000 , 2003 ; Kamiya and Ozawa, 2000 ; Schmitz et al, 2000 ; Negrete-Díaz et al, 2006 , 2007 , 2012 ; Lyon et al, 2011 ), and facilitatory modulation of glutamate release (Bortolotto et al, 1999 ; Contractor et al, 2001 , 2003 ; Lauri et al, 2001a , b ; Breustedt and Schmitz, 2004 ; Rodríguez-Moreno and Sihra, 2004 , 2013 ; Pinheiro et al, 2007 ; Scott et al, 2008 ; Fernandes et al, 2009 ; Andrade-Talavera et al, 2012 , 2013 ).…”

Section: Introductionmentioning

confidence: 99%

Non-canonical Mechanisms of Presynaptic Kainate Receptors Controlling Glutamate Release

Negrete-Díaz

Sihra

Flores

et al. 2018

Front. Mol. Neurosci.

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A metabotropic modus operandi for kainate receptors (KARs) was first discovered in 1998 modulating GABA release. These receptors have been also found to modulate glutamate release at different synapses in several brain regions. Mechanistically, a general biphasic mechanism for modulating glutamate release by presynaptic KARs with metabotropic actions has emerged, with low KA concentrations invoking an increase in glutamate release, whereas higher concentrations of KA mediate a decrease in the release of this neurotransmitter. The molecular mechanisms underpinning the opposite modulation of glutamate release are distinct, with a G-protein-independent, adenylate cyclase (AC)- and protein kinase A (PKA)-dependent mechanism mediating the facilitation of glutamate release, while a G-protein dependent mechanism (with or without protein kinase recruitment) is involved in the decrease of neurotransmitter release. In the present review, we revisit the mechanisms underlying the non-canonical modus operandi of KARs effecting the bimodal control of glutamatergic transmission in different brain regions, and address the possible functions that this modulation may support.

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“…In vitro slice recording showed that GluK1 is selectively expressed in interneurons, and its activation could largely depolarize those interneurons and increase synaptic GABA release as well as GABA tonic currents. More importantly, the GluK1 activation in the basolateral amygdala reduced the output to the central amygdala, which may explain the increased anxiety phenotype in the GluK1 knockout mice [6] In addition, the regulation of excitatory glutamate transmission by KA receptors have been also reported in the amygdala [30, 31], and such regulation is also mixed (inhibition and facilitation).…”

Section: Ka Receptor and Synaptic Regulationmentioning

confidence: 99%

Cortical kainate receptors and behavioral anxiety

Zhuo

2017

Mol Brain

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The study of glutamatergic synapses mainly focuses on the memory-related hippocampus. Recent studies in the cortical areas such as the anterior cingulate cortex (ACC) show that excitatory synapses can undergo long-term plastic changes in adult animals. Long-term potentiation (LTP) of cortical synapses may play important roles in chronic pain and anxiety. In addition to NMDA and AMPA receptors, kainate (KA) receptors have been found to play roles in synaptic transmission, regulation and presynaptic forms of LTP. In this brief review, I will summarize the new progress made on KA receptors, and propose that ACC synapses may provide a good synaptic model for understanding cortical mechanism for behavioral anxiety, and its related emotional disorders.

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Kainate receptor‐mediated depression of glutamatergic transmission involving protein kinase A in the lateral amygdala

Cited by 19 publications

References 41 publications

Kainate Receptors Modulating Glutamate Release in the Cerebellum

Kainate Receptors Modulating Glutamate Release in the Cerebellum

Non-canonical Mechanisms of Presynaptic Kainate Receptors Controlling Glutamate Release

Cortical kainate receptors and behavioral anxiety

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