Spatial Rule Learning and Corresponding CA1 Place Cell Reorientation Depend on Local Dopamine Release

[1]  E. Tolman Cognitive maps in rats and men. , 1948, Psychological review.

[2]  L. Nadel,et al.  The Hippocampus as a Cognitive Map , 1978 .

[3]  R. Passingham The hippocampus as a cognitive map J. O'Keefe & L. Nadel, Oxford University Press, Oxford (1978). 570 pp., £25.00 , 1979, Neuroscience.

[4]  J. B. Ranck,et al.  Spatial firing patterns of hippocampal complex-spike cells in a fixed environment , 1987, The Journal of neuroscience : the official journal of the Society for Neuroscience.

[5]  R. Muller,et al.  The effects of changes in the environment on the spatial firing of hippocampal complex-spike cells , 1987, The Journal of neuroscience : the official journal of the Society for Neuroscience.

[6]  R. Muller,et al.  The firing of hippocampal place cells predicts the future position of freely moving rats , 1989, The Journal of neuroscience : the official journal of the Society for Neuroscience.

[7]  U. Frey,et al.  The effect of dopaminergic D1 receptor blockade during tetanization on the expression of long-term potentiation in the rat CA1 region in vitro , 1991, Neuroscience Letters.

[8]  Bruce L. McNaughton,et al.  An Information-Theoretic Approach to Deciphering the Hippocampal Code , 1992, NIPS.

[9]  J. Lisman,et al.  D1/D5 Dopamine Receptor Activation Increases the Magnitude of Early Long-Term Potentiation at CA1 Hippocampal Synapses , 1996, The Journal of Neuroscience.

[10]  J. O’Keefe,et al.  Geometric determinants of the place fields of hippocampal neurons , 1996, Nature.

[11]  B. McNaughton,et al.  Theta phase precession in hippocampal neuronal populations and the compression of temporal sequences , 1996, Hippocampus.

[12]  Peter Dayan,et al.  A Neural Substrate of Prediction and Reward , 1997, Science.

[13]  Mark G. Packard,et al.  The dopaminergic mesencephalic projections to the hippocampal formation in the rat , 1997, Progress in Neuro-Psychopharmacology and Biological Psychiatry.

[14]  M. Shapiro,et al.  Hippocampal place fields are altered by the removal of single visual cues in a distance-dependent manner. , 1997, Behavioral neuroscience.

[15]  B. McNaughton,et al.  Interactions between idiothetic cues and external landmarks in the control of place cells and head direction cells. , 1998, Journal of neurophysiology.

[16]  J. Csicsvari,et al.  Oscillatory Coupling of Hippocampal Pyramidal Cells and Interneurons in the Behaving Rat , 1999, The Journal of Neuroscience.

[17]  E. Kandel,et al.  Age-related defects in spatial memory are correlated with defects in the late phase of hippocampal long-term potentiation in vitro and are attenuated by drugs that enhance the cAMP signaling pathway. , 1999, Proceedings of the National Academy of Sciences of the United States of America.

[18]  M. Fanselow Contextual fear, gestalt memories, and the hippocampus , 2000, Behavioural Brain Research.

[19]  Bruno Poucet,et al.  Involvement of the hippocampus and associative parietal cortex in the use of proximal and distal landmarks for navigation , 2000, Behavioural Brain Research.

[20]  M. Moser,et al.  Impaired Recognition of the Goal Location during Spatial Navigation in Rats with Hippocampal Lesions , 2001, The Journal of Neuroscience.

[21]  Joel E. Brown,et al.  Concordant and discordant coding of spatial location in populations of hippocampal CA1 pyramidal cells. , 2002, Journal of neurophysiology.

[22]  Bruno Poucet,et al.  Relationships between Place Cell Firing Fields and Navigational Decisions by Rats , 2002, The Journal of Neuroscience.

[23]  Kathryn J Jeffery,et al.  Heterogeneous Modulation of Place Cell Firing by Changes in Context , 2003, The Journal of Neuroscience.

[24]  B. McNaughton,et al.  Hippocampal map realignment and spatial learning , 2003, Nature Neuroscience.

[25]  K. Jeffery,et al.  Preserved performance in a hippocampal‐dependent spatial task despite complete place cell remapping , 2003, Hippocampus.

[26]  E. Kandel,et al.  Increased Attention to Spatial Context Increases Both Place Field Stability and Spatial Memory , 2004, Neuron.

[27]  Bruce L. McNaughton,et al.  Progressive Transformation of Hippocampal Neuronal Representations in “Morphed” Environments , 2005, Neuron.

[28]  Richard G M Morris,et al.  Dopaminergic modulation of the persistence of one-trial hippocampus-dependent memory. , 2006, Learning & memory.

[29]  David M. Smith,et al.  Hippocampal place cells, context, and episodic memory , 2006, Hippocampus.

[30]  E. Vaadia,et al.  Midbrain dopamine neurons encode decisions for future action , 2006, Nature Neuroscience.

[31]  W. Schultz Behavioral theories and the neurophysiology of reward. , 2006, Annual review of psychology.

[32]  John L Kubie,et al.  Changes in goal selection induced by cue conflicts are in register with predictions from changes in place cell field locations. , 2007, Behavioral neuroscience.

[33]  Bruno Poucet,et al.  Goal-Related Activity in Hippocampal Place Cells , 2007, The Journal of Neuroscience.

[34]  Oxana Eschenko,et al.  Non-commercial Research and Educational Use including without Limitation Use in Instruction at Your Institution, Sending It to Specific Colleagues That You Know, and Providing a Copy to Your Institution's Administrator. All Other Uses, Reproduction and Distribution, including without Limitation Comm , 2022 .

[35]  M. Tamosiunaite,et al.  Hippocampal CA1 Place Cells Encode Intended Destination on a Maze with Multiple Choice Points , 2007, The Journal of Neuroscience.

[36]  Thomas Boraud,et al.  Dynamic changes in the cortex-basal ganglia network after dopamine depletion in the rat. , 2008, Journal of neurophysiology.

[37]  James J Knierim,et al.  Dominance of the proximal coordinate frame in determining the locations of hippocampal place cell activity during navigation. , 2008, Journal of neurophysiology.

[38]  G. Buzsáki,et al.  Theta Oscillations Provide Temporal Windows for Local Circuit Computation in the Entorhinal-Hippocampal Loop , 2009, Neuron.

[39]  Nicolas Fourcaud-Trocmé,et al.  OpenElectrophy: An Electrophysiological Data- and Analysis-Sharing Framework , 2008, Front. Neuroinform.

[40]  D. Amaral,et al.  The Hippocampal Formation , 2009 .

[41]  Joseph D. Monaco,et al.  Attention Enhances the Retrieval and Stability of Visuospatial and Olfactory Representations in the Dorsal Hippocampus , 2009, PLoS biology.

[42]  R. Schmidt,et al.  Striatal action-learning based on dopamine concentration , 2009, Experimental Brain Research.

[43]  A. Fenton,et al.  Dynamic Grouping of Hippocampal Neural Activity During Cognitive Control of Two Spatial Frames , 2010, PLoS biology.

[44]  Inah Lee,et al.  The shift from a response strategy to object-in-place strategy during learning is accompanied by a matching shift in neural firing correlates in the hippocampus. , 2010, Learning & memory.

[45]  R. Muller,et al.  Attention-Like Modulation of Hippocampus Place Cell Discharge , 2010, The Journal of Neuroscience.

[46]  J. O’Neill,et al.  The reorganization and reactivation of hippocampal maps predict spatial memory performance , 2010, Nature Neuroscience.

[47]  M. Shapiro,et al.  Memory-Guided Learning: CA1 and CA3 Neuronal Ensembles Differentially Encode the Commonalities and Differences between Situations , 2011, The Journal of Neuroscience.

[48]  S. Nicola,et al.  An inexpensive drivable cannulated microelectrode array for simultaneous unit recording and drug infusion in the same brain nucleus of behaving rats. , 2011, Journal of neurophysiology.

[49]  G. Buzsáki,et al.  A 4 Hz Oscillation Adaptively Synchronizes Prefrontal, VTA, and Hippocampal Activities , 2011, Neuron.

[50]  Sheri J Y Mizumori,et al.  Ventral tegmental area disruption selectively affects CA1/CA2 but not CA3 place fields during a differential reward working memory task , 2011, Hippocampus.

[51]  A. Treves,et al.  Theta-paced flickering between place-cell maps in the hippocampus , 2011, Nature.

[52]  Tobias Bast,et al.  Dopaminergic modulation of hippocampus-dependent learning: Blockade of hippocampal D1-class receptors during learning impairs 1-trial place memory at a 30-min retention delay , 2012, Neuropharmacology.

[53]  T. Boraud,et al.  Where is my reward and how do I get it? Interaction between the hippocampus and the basal ganglia during spatial learning , 2012, Journal of Physiology-Paris.

[54]  J. Girault,et al.  Characterization of dopamine D1 and D2 receptor‐expressing neurons in the mouse hippocampus , 2012, Hippocampus.

[55]  R. Greene,et al.  CNS Dopamine Transmission Mediated by Noradrenergic Innervation , 2012, The Journal of Neuroscience.

[56]  Brad E. Pfeiffer,et al.  Hippocampal place cell sequences depict future paths to remembered goals , 2013, Nature.

[57]  Howard Eichenbaum,et al.  Learning Causes Reorganization of Neuronal Firing Patterns to Represent Related Experiences within a Hippocampal Schema , 2013, The Journal of Neuroscience.

[58]  D. Dupret,et al.  Dopaminergic neurons promote hippocampal reactivation and spatial memory persistence , 2014, Nature Neuroscience.

[59]  D. Manahan‐Vaughan,et al.  Dopamine D1/D5 Receptors Mediate Informational Saliency that Promotes Persistent Hippocampal Long-Term Plasticity , 2012, Cerebral cortex.

[60]  Sachin S. Deshmukh,et al.  Functional correlates of the lateral and medial entorhinal cortex: objects, path integration and local–global reference frames , 2014, Philosophical Transactions of the Royal Society B: Biological Sciences.

[61]  D. Hassabis,et al.  Hippocampal place cells construct reward related sequences through unexplored space , 2015, eLife.

[62]  M. Wilson,et al.  VTA neurons coordinate with the hippocampal reactivation of spatial experience , 2015, eLife.

[63]  S. Siegelbaum,et al.  Midbrain dopamine neurons bidirectionally regulate CA3-CA1 synaptic drive , 2015, Nature Neuroscience.

[64]  E. Kandel,et al.  Dopamine release from the locus coeruleus to the dorsal hippocampus promotes spatial learning and memory , 2016, Proceedings of the National Academy of Sciences.

[65]  R. Morris,et al.  Locus coeruleus and dopaminergic consolidation of everyday memory , 2016, Nature.

[66]  M. Shapiro,et al.  Medial Prefrontal Cortex Reduces Memory Interference by Modifying Hippocampal Encoding , 2017, Neuron.

[67]  D. Dupret,et al.  Two sources of dopamine for the hippocampus , 2017, Trends in Neurosciences.

[68]  Eran Stark,et al.  Sharp wave ripples during learning stabilize hippocampal spatial map , 2017, Nature Neuroscience.