Retrieval-specific endocytosis of GluA2-AMPARs underlies adaptive reconsolidation of contextual fear (original) (raw)
McGaugh, J.L. Memory–a century of consolidation. Science287, 248–251 (2000). ArticleCAS Google Scholar
Frankland, P.W. et al. Stability of recent and remote contextual fear memory. Learn. Mem.13, 451–457 (2006). Article Google Scholar
Lee, J.L., Milton, A.L. & Everitt, B.J. Reconsolidation and extinction of conditioned fear: inhibition and potentiation. J. Neurosci.26, 10051–10056 (2006). ArticleCAS Google Scholar
Mamiya, N. et al. Brain region-specific gene expression activation required for reconsolidation and extinction of contextual fear memory. J. Neurosci.29, 402–413 (2009). ArticleCAS Google Scholar
Nader, K., Schafe, G.E. & Le Doux, J.E. Fear memories require protein synthesis in the amygdala for reconsolidation after retrieval. Nature406, 722–726 (2000). ArticleCAS Google Scholar
Przybyslawski, J., Roullet, P. & Sara, S.J. Attenuation of emotional and nonemotional memories after their reactivation: role of beta adrenergic receptors. J. Neurosci.19, 6623–6628 (1999). ArticleCAS Google Scholar
Suzuki, A. et al. Memory reconsolidation and extinction have distinct temporal and biochemical signatures. J. Neurosci.24, 4787–4795 (2004). ArticleCAS Google Scholar
Nader, K. & Hardt, O. A single standard for memory: the case for reconsolidation. Nat. Rev. Neurosci.10, 224–234 (2009). ArticleCAS Google Scholar
Kindt, M., Soeter, M. & Vervliet, B. Beyond extinction: erasing human fear responses and preventing the return of fear. Nat. Neurosci.12, 256–258 (2009). ArticleCAS Google Scholar
Misanin, J.R., Miller, R.R. & Lewis, D.J. Retrograde amnesia produced by electroconvulsive shock after reactivation of a consolidated memory trace. Science160, 554–555 (1968). ArticleCAS Google Scholar
Lee, J.L. Memory reconsolidation mediates the strengthening of memories by additional learning. Nat. Neurosci.11, 1264–1266 (2008). ArticleCAS Google Scholar
Tronson, N.C., Wiseman, S.L., Olausson, P. & Taylor, J.R. Bidirectional behavioral plasticity of memory reconsolidation depends on amygdalar protein kinase A. Nat. Neurosci.9, 167–169 (2006). ArticleCAS Google Scholar
Gordon, W.C. & Spear, N.E. The effects of strychnine on recently acquired and reactivated passive avoidance memories. Physiol. Behav.10, 1071–1075 (1973). ArticleCAS Google Scholar
Lee, J.L. Memory reconsolidation mediates the updating of hippocampal memory content. Front. Behav. Neurosci.4, 168 (2010). Article Google Scholar
Monfils, M.H., Cowansage, K.K., Klann, E. & LeDoux, J.E. Extinction-reconsolidation boundaries: key to persistent attenuation of fear memories. Science324, 951–955 (2009). ArticleCAS Google Scholar
Tronson, N.C. & Taylor, J.R. Molecular mechanisms of memory reconsolidation. Nat. Rev. Neurosci.8, 262–275 (2007). ArticleCAS Google Scholar
Schiller, D. et al. Preventing the return of fear in humans using reconsolidation update mechanisms. Nature463, 49–53 (2010). ArticleCAS Google Scholar
Matsuo, N., Reijmers, L. & Mayford, M. Spine-type-specific recruitment of newly synthesized AMPA receptors with learning. Science319, 1104–1107 (2008). ArticleCAS Google Scholar
Rumpel, S., LeDoux, J., Zador, A. & Malinow, R. Postsynaptic receptor trafficking underlying a form of associative learning. Science308, 83–88 (2005). ArticleCAS Google Scholar
Schafe, G.E., Nader, K., Blair, H.T. & LeDoux, J.E. Memory consolidation of Pavlovian fear conditioning: a cellular and molecular perspective. Trends Neurosci.24, 540–546 (2001). ArticleCAS Google Scholar
Alberini, C.M. Mechanisms of memory stabilization: are consolidation and reconsolidation similar or distinct processes? Trends Neurosci.28, 51–56 (2005). ArticleCAS Google Scholar
Kida, S. et al. CREB required for the stability of new and reactivated fear memories. Nat. Neurosci.5, 348–355 (2002). ArticleCAS Google Scholar
Lee, J.L., Everitt, B.J. & Thomas, K.L. Independent cellular processes for hippocampal memory consolidation and reconsolidation. Science304, 839–843 (2004). ArticleCAS Google Scholar
Lee, S.H. et al. Synaptic protein degradation underlies destabilization of retrieved fear memory. Science319, 1253–1256 (2008). ArticleCAS Google Scholar
Van den Oever, M.C. et al. Prefrontal cortex AMPA receptor plasticity is crucial for cue-induced relapse to heroin-seeking. Nat. Neurosci.11, 1053–1058 (2008). ArticleCAS Google Scholar
Counotte, D.S. et al. Lasting synaptic changes underlie attention deficits caused by nicotine exposure during adolescence. Nat. Neurosci.14, 417–419 (2011). ArticleCAS Google Scholar
Carroll, R.C., Lissin, D.V., von Zastrow, M., Nicoll, R.A. & Malenka, R.C. Rapid redistribution of glutamate receptors contributes to long-term depression in hippocampal cultures. Nat. Neurosci.2, 454–460 (1999). ArticleCAS Google Scholar
Malenka, R.C. Synaptic plasticity and AMPA receptor trafficking. Ann. NY Acad. Sci.1003, 1–11 (2003). ArticleCAS Google Scholar
Fanselow, M.S. Associative vs topographical accounts of the immediate shock-freezing deficit in rats: Implications for the response selection rules governing species-specific defensive reactions. Learn. Motiv.17, 16–39 (1986). Article Google Scholar
Robertson, S.D. et al. Insulin reveals Akt signaling as a novel regulator of norepinephrine transporter trafficking and norepinephrine homeostasis. J. Neurosci.30, 11305–11316 (2010). ArticleCAS Google Scholar
Qiu, S., Zhao, L.F., Korwek, K.M. & Weeber, E.J. Differential reelin-induced enhancement of NMDA and AMPA receptor activity in the adult hippocampus. J. Neurosci.26, 12943–12955 (2006). ArticleCAS Google Scholar
Malenka, R.C. Synaptic plasticity in the hippocampus: LTP and LTD. Cell78, 535–538 (1994). ArticleCAS Google Scholar
Lee, S.H., Liu, L., Wang, Y.T. & Sheng, M. Clathrin adaptor AP2 and NSF interact with overlapping sites of GluR2 and play distinct roles in AMPA receptor trafficking and hippocampal LTD. Neuron36, 661–674 (2002). ArticleCAS Google Scholar
Man, H.Y. et al. Regulation of AMPA receptor-mediated synaptic transmission by clathrin-dependent receptor internalization. Neuron25, 649–662 (2000). ArticleCAS Google Scholar
Brebner, K. et al. Nucleus accumbens long-term depression and the expression of behavioral sensitization. Science310, 1340–1343 (2005). ArticleCAS Google Scholar
Plant, K. et al. Transient incorporation of native GluR2-lacking AMPA receptors during hippocampal long-term potentiation. Nat. Neurosci.9, 602–604 (2006). ArticleCAS Google Scholar
Kessels, H.W. & Malinow, R. Synaptic AMPA receptor plasticity and behavior. Neuron61, 340–350 (2009). ArticleCAS Google Scholar
Jonas, P. The time course of signaling at central glutamatergic synapses. News Physiol. Sci.15, 83–89 (2000). CAS Google Scholar
Lu, W. et al. Subunit composition of synaptic AMPA receptors revealed by a single-cell genetic approach. Neuron62, 254–268 (2009). ArticleCAS Google Scholar
Clem, R.L. & Huganir, R.L. Calcium-permeable AMPA receptor dynamics mediate fear memory erasure. Science330, 1108–1112 (2010). ArticleCAS Google Scholar
Migues, P.V. et al. PKMζ maintains memories by regulating GluR2-dependent AMPA receptor trafficking. Nat. Neurosci.13, 630–634 (2010). ArticleCAS Google Scholar
Serrano, P. et al. PKMζ maintains spatial, instrumental, and classically conditioned long-term memories. PLoS Biol.6, 2698–2706 (2008). ArticleCAS Google Scholar
Wang, S.H., de Oliveira Alvares, L. & Nader, K. Cellular and systems mechanisms of memory strength as a constraint on auditory fear reconsolidation. Nat. Neurosci.12, 905–912 (2009). ArticleCAS Google Scholar
Chan, W.Y., Leung, H.T., Westbrook, R.F. & McNally, G.P. Effects of recent exposure to a conditioned stimulus on extinction of Pavlovian fear conditioning. Learn. Mem.17, 512–521 (2010). Article Google Scholar
Maren, S. Seeking a spotless mind: extinction, deconsolidation, and erasure of fear memory. Neuron70, 830–845 (2011). ArticleCAS Google Scholar
Han, J.H. et al. Selective erasure of a fear memory. Science323, 1492–1496 (2009). ArticleCAS Google Scholar