mGlu1 Receptor-Induced LTD of NMDA Receptor Transmission Selectively at Schaffer Collateral-CA1 Synapses Mediates Metaplasticity

Hippocampal CA1 pyramidal neurons receive inputs from entorhinal cortex directly via the temporoammonic (TA) pathway and indirectly via the Schaffer collateral (SC) pathway from CA3. NMDARs at synapses of both pathways are critical for the induction of synaptic plasticity, information processing, an...

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Published in	The Journal of neuroscience Vol. 34; no. 36; pp. 12223 - 12229
Main Authors	Bhouri, Mehdi, Farrow, Paul A., Motee, Aneeta, Yan, Xu, Battaglia, Giuseppe, Di Menna, Luisa, Riozzi, Barbara, Nicoletti, Ferdinando, Fitzjohn, Stephen M., Bashir, Zafar I.
Format	Journal Article
Language	English
Published	United States Society for Neuroscience 03.09.2014
Subjects	Animals Brief Communications CA1 Region, Hippocampal - cytology CA1 Region, Hippocampal - metabolism CA1 Region, Hippocampal - physiology Cells, Cultured Excitatory Postsynaptic Potentials Long-Term Potentiation Long-Term Synaptic Depression Male Organ Specificity Pyramidal Cells - metabolism Pyramidal Cells - physiology Rats Rats, Wistar Receptors, AMPA - metabolism Receptors, N-Methyl-D-Aspartate - metabolism Synapses - metabolism Synapses - physiology LTD metaplasticity NMDARs
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ISSN	0270-6474 1529-2401 1529-2401
DOI	10.1523/JNEUROSCI.0753-14.2014

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Abstract	Hippocampal CA1 pyramidal neurons receive inputs from entorhinal cortex directly via the temporoammonic (TA) pathway and indirectly via the Schaffer collateral (SC) pathway from CA3. NMDARs at synapses of both pathways are critical for the induction of synaptic plasticity, information processing, and learning and memory. We now demonstrate that, in the rat hippocampus, activity-dependent mGlu1 receptor-mediated LTD (mGlu1-LTD) of NMDAR-mediated transmission (EPSC NMDA ) at the SC-CA1 input prevents subsequent LTP of AMPAR-mediated transmission. In contrast, there was no activity-dependent mGlu1-LTD of EPSC NMDA at the TA-CA1 pathway, or effects on subsequent plasticity of AMPAR-mediated transmission. Therefore, the two major pathways delivering information to CA1 pyramidal neurons are subject to very different plasticity rules.
AbstractList	Hippocampal CA1 pyramidal neurons receive inputs from entorhinal cortex directly via the temporoammonic (TA) pathway and indirectly via the Schaffer collateral (SC) pathway from CA3. NMDARs at synapses of both pathways are critical for the induction of synaptic plasticity, information processing, and learning and memory. We now demonstrate that, in the rat hippocampus, activity-dependent mGlu1 receptor-mediated LTD (mGlu1-LTD) of NMDAR-mediated transmission (EPSC(NMDA)) at the SC-CA1 input prevents subsequent LTP of AMPAR-mediated transmission. In contrast, there was no activity-dependent mGlu1-LTD of EPSC(NMDA) at the TA-CA1 pathway, or effects on subsequent plasticity of AMPAR-mediated transmission. Therefore, the two major pathways delivering information to CA1 pyramidal neurons are subject to very different plasticity rules. Hippocampal CA1 pyramidal neurons receive inputs from entorhinal cortex directly via the temporoammonic (TA) pathway and indirectly via the Schaffer collateral (SC) pathway from CA3. NMDARs at synapses of both pathways are critical for the induction of synaptic plasticity, information processing, and learning and memory. We now demonstrate that, in the rat hippocampus, activity-dependent mGlu1 receptor-mediated LTD (mGlu1-LTD) of NMDAR-mediated transmission (EPSC NMDA ) at the SC-CA1 input prevents subsequent LTP of AMPAR-mediated transmission. In contrast, there was no activity-dependent mGlu1-LTD of EPSC NMDA at the TA-CA1 pathway, or effects on subsequent plasticity of AMPAR-mediated transmission. Therefore, the two major pathways delivering information to CA1 pyramidal neurons are subject to very different plasticity rules. Hippocampal CA1 pyramidal neurons receive inputs from entorhinal cortex directly via the temporoammonic (TA) pathway and indirectly via the Schaffer collateral (SC) pathway from CA3. NMDARs at synapses of both pathways are critical for the induction of synaptic plasticity, information processing, and learning and memory. We now demonstrate that, in the rat hippocampus, activity-dependent mGlu1 receptor-mediated LTD (mGlu1-LTD) of NMDAR-mediated transmission (EPSC(NMDA)) at the SC-CA1 input prevents subsequent LTP of AMPAR-mediated transmission. In contrast, there was no activity-dependent mGlu1-LTD of EPSC(NMDA) at the TA-CA1 pathway, or effects on subsequent plasticity of AMPAR-mediated transmission. Therefore, the two major pathways delivering information to CA1 pyramidal neurons are subject to very different plasticity rules.Hippocampal CA1 pyramidal neurons receive inputs from entorhinal cortex directly via the temporoammonic (TA) pathway and indirectly via the Schaffer collateral (SC) pathway from CA3. NMDARs at synapses of both pathways are critical for the induction of synaptic plasticity, information processing, and learning and memory. We now demonstrate that, in the rat hippocampus, activity-dependent mGlu1 receptor-mediated LTD (mGlu1-LTD) of NMDAR-mediated transmission (EPSC(NMDA)) at the SC-CA1 input prevents subsequent LTP of AMPAR-mediated transmission. In contrast, there was no activity-dependent mGlu1-LTD of EPSC(NMDA) at the TA-CA1 pathway, or effects on subsequent plasticity of AMPAR-mediated transmission. Therefore, the two major pathways delivering information to CA1 pyramidal neurons are subject to very different plasticity rules.
Author	Farrow, Paul A. Yan, Xu Bhouri, Mehdi Di Menna, Luisa Battaglia, Giuseppe Nicoletti, Ferdinando Bashir, Zafar I. Motee, Aneeta Riozzi, Barbara Fitzjohn, Stephen M.
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Notes	ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 23 P.A. Farrow's current address: Synaptic Signaling and Neurodegeneration, German Cancer Research Centre, Im Neuenheimer Feld, 69120 Heidelberg, Germany. S.M.F. and Z.I.B. contributed equally as joint senior authors. M. Bhouri's current address: School of Medicine, Department of Psychiatry and Behavioural Sciences, Lokey Stem Cell Building, Stanford University, Stanford, CA 94305. X. Yan's current address: Neuroscience Center, PO Box 56 (Viikinkaari 4), FIN-00014 University of Helsinki, Helsinki, Finland. Author contributions: M.B., P.A.F., S.M.F., and Z.I.B. designed research; M.B., P.A.F., A.M., X.Y., G.B., L.D.M., B.R., F.N., S.M.F., and Z.I.B. performed research; M.B., P.A.F., A.M., X.Y., G.B., L.D.M., B.R., F.N., S.M.F., and Z.I.B. analyzed data; F.N., S.M.F., and Z.I.B. wrote the paper. M.B. and P.A.F. contributed equally as joint first authors.
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SubjectTerms	Animals Brief Communications CA1 Region, Hippocampal - cytology CA1 Region, Hippocampal - metabolism CA1 Region, Hippocampal - physiology Cells, Cultured Excitatory Postsynaptic Potentials Long-Term Potentiation Long-Term Synaptic Depression Male Organ Specificity Pyramidal Cells - metabolism Pyramidal Cells - physiology Rats Rats, Wistar Receptors, AMPA - metabolism Receptors, N-Methyl-D-Aspartate - metabolism Synapses - metabolism Synapses - physiology
Title	mGlu1 Receptor-Induced LTD of NMDA Receptor Transmission Selectively at Schaffer Collateral-CA1 Synapses Mediates Metaplasticity
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