Disrupting Glutamate Co-transmission Does Not Affect Acquisition of Conditioned Behavior Reinforced by Dopamine Neuron Activation.

Dopamine neurons in the ventral tegmental area (VTA) were previously found to express vesicular glutamate transporter 2 (VGLUT2) and to co-transmit glutamate in the ventral striatum (VStr). This capacity may play an important role in reinforcement learning. Although it is known that activation of the VTA-VStr dopamine system readily reinforces behavior, little is known about the role of glutamate co-transmission in such reinforcement. By combining electrode recording and optogenetics, we found that stimulation of VTA dopamine neurons in vivo evoked fast excitatory responses in many VStr neurons of adult mice. Whereas conditional knockout of the gene encoding VGLUT2 in dopamine neurons largely eliminated fast excitatory responses, it had little effect on the acquisition of conditioned responses reinforced by dopamine neuron activation. Therefore, glutamate co-transmission appears dispensable for acquisition of conditioned responding reinforced by DA neuron activation.

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

[2]  S. Haber,et al.  Dopamine Neurons Make Glutamatergic Synapses In Vitro , 1998, The Journal of Neuroscience.

[3]  Andrew B. Norman,et al.  The compulsion zone: A pharmacological theory of acquired cocaine self-administration , 2006, Brain Research.

[4]  Pamela F. Marcott,et al.  Phasic Dopamine Release Drives Rapid Activation of Striatal D2-Receptors , 2014, Neuron.

[5]  T. Hnasko,et al.  Neurotransmitter corelease: mechanism and physiological role. , 2012, Annual review of physiology.

[6]  P. Dayan,et al.  A framework for mesencephalic dopamine systems based on predictive Hebbian learning , 1996, The Journal of neuroscience : the official journal of the Society for Neuroscience.

[7]  Å. Wallén-Mackenzie,et al.  Cre-driven optogenetics in the heterogeneous genetic panorama of the VTA , 2015, Trends in Neurosciences.

[8]  B. Hoffer,et al.  Characterization of a mouse strain expressing Cre recombinase from the 3′ untranslated region of the dopamine transporter locus , 2006, Genesis.

[9]  Nao Chuhma,et al.  Dopamine Neurons Mediate a Fast Excitatory Signal via Their Glutamatergic Synapses , 2004, The Journal of Neuroscience.

[10]  R. P. Sullivan,et al.  Optogenetic control of striatal dopamine release in rats , 2010, Journal of neurochemistry.

[11]  Alexander B. Johnson,et al.  Ventral tegmental area glutamate neurons co-release GABA and promote positive reinforcement , 2016, Nature Communications.

[12]  Satoshi Ikemoto,et al.  Basal ganglia circuit loops, dopamine and motivation: A review and enquiry , 2015, Behavioural Brain Research.

[13]  J. Tepper,et al.  Glutamatergic signaling by midbrain dopaminergic neurons: recent insights from optogenetic, molecular and behavioral studies , 2011, Current Opinion in Neurobiology.

[14]  Michihiro Kawano,et al.  Particular subpopulations of midbrain and hypothalamic dopamine neurons express vesicular glutamate transporter 2 in the rat brain , 2006, The Journal of comparative neurology.

[15]  L. Descarries,et al.  Enhanced Sucrose and Cocaine Self-Administration and Cue-Induced Drug Seeking after Loss of VGLUT2 in Midbrain Dopamine Neurons in Mice , 2011, The Journal of Neuroscience.

[16]  Henk J Groenewegen,et al.  Direct physiological evidence for synaptic connectivity between medium-sized spiny neurons in rat nucleus accumbens in situ. , 2004, Journal of neurophysiology.

[17]  R. Wise,et al.  Addictive drugs and brain stimulation reward. , 1996, Annual review of neuroscience.

[18]  A. Bonci,et al.  Dopaminergic and glutamatergic microdomains within a subset of rodent mesoaccumbens axons , 2016 .

[19]  Thomas Viereckel,et al.  Midbrain Gene Screening Identifies a New Mesoaccumbal Glutamatergic Pathway and a Marker for Dopamine Cells Neuroprotected in Parkinson’s Disease , 2016, Scientific Reports.

[20]  H. Bengtsson,et al.  Transgenic expression of Cre recombinase from the tyrosine hydroxylase locus , 2004, Genesis.

[21]  Josiah R. Boivin,et al.  Positive Reinforcement Mediated by Midbrain Dopamine Neurons Requires D1 and D2 Receptor Activation in the Nucleus Accumbens , 2014, PloS one.

[22]  Satoshi Ikemoto,et al.  Mapping of chemical trigger zones for reward , 2004, Neuropharmacology.

[23]  T. Hnasko,et al.  The multilingual nature of dopamine neurons 6 , 2014 .

[24]  D. H. Root,et al.  Glutamate neurons within the midbrain dopamine regions , 2014, Neuroscience.

[25]  G. Koob Drugs of abuse: anatomy, pharmacology and function of reward pathways. , 1992, Trends in pharmacological sciences.

[26]  S. Ikemoto Dopamine reward circuitry: Two projection systems from the ventral midbrain to the nucleus accumbens–olfactory tubercle complex , 2007, Brain Research Reviews.

[27]  S. T. Kitai,et al.  Morphological and physiological properties of neostriatal neurons: An intracellular horseradish peroxidase study in the rat , 1982, Neuroscience.

[28]  R. Wise,et al.  Fluctuations in nucleus accumbens dopamine concentration during intravenous cocaine self-administration in rats , 1995, Psychopharmacology.

[29]  L. Descarries,et al.  Glutamate Corelease Promotes Growth and Survival of Midbrain Dopamine Neurons , 2012, The Journal of Neuroscience.

[30]  J. Tsien,et al.  Convergent Processing of Both Positive and Negative Motivational Signals by the VTA Dopamine Neuronal Populations , 2011, PloS one.

[31]  S. Ikemoto,et al.  Similar Roles of Substantia Nigra and Ventral Tegmental Dopamine Neurons in Reward and Aversion , 2014, The Journal of Neuroscience.

[32]  B. Schilström,et al.  Effects of Age and Acute Ethanol on Glutamatergic Neurotransmission in the Medial Prefrontal Cortex of Freely Moving Rats Using Enzyme-Based Microelectrode Amperometry , 2015, PloS one.

[33]  K. Deisseroth,et al.  Phasic Firing in Dopaminergic Neurons Is Sufficient for Behavioral Conditioning , 2009, Science.

[34]  J. Tepper,et al.  Glutamatergic Signaling by Mesolimbic Dopamine Neurons in the Nucleus Accumbens , 2010, The Journal of Neuroscience.

[35]  G. Stuber,et al.  Dopaminergic Terminals in the Nucleus Accumbens But Not the Dorsal Striatum Corelease Glutamate , 2010, The Journal of Neuroscience.

[36]  B. Sabatini,et al.  Midbrain dopamine neurons sustain inhibitory transmission using plasma membrane uptake of GABA, not synthesis , 2014, eLife.

[37]  S. Ikemoto,et al.  Phasic excitation of ventral tegmental dopamine neurons potentiates the initiation of conditioned approach behavior: parametric and reinforcement-schedule analyses , 2014, Front. Behav. Neurosci..

[38]  M. Morales,et al.  Increased hippocampal excitability and impaired spatial memory function in mice lacking VGLUT2 selectively in neurons defined by tyrosine hydroxylase promoter activity , 2014, Brain Structure and Function.

[39]  R. E. Keesey Intracranial Reward Delay and the Acquisition Rate of a Brightness Discriminaton , 1964, Science.

[40]  V. Alvarez,et al.  Glutamate and Dopamine Transmission from Midbrain Dopamine Neurons Share Similar Release Properties But Are Differentially Affected by Cocaine , 2014, Journal of Neuroscience.

[41]  R. C. Pierce,et al.  The mesolimbic dopamine system: The final common pathway for the reinforcing effect of drugs of abuse? , 2006, Neuroscience & Biobehavioral Reviews.

[42]  M. Carroll,et al.  Intravenous cocaine self-administration in rats is reduced by dietaryl-tryptophan , 2005, Psychopharmacology.

[43]  K. Kullander,et al.  VGLUT2 in dopamine neurons is required for psychostimulant-induced behavioral activation , 2009, Proceedings of the National Academy of Sciences.

[44]  Liqun Luo,et al.  Diversity of Transgenic Mouse Models for Selective Targeting of Midbrain Dopamine Neurons , 2015, Neuron.

[45]  R. Palmiter,et al.  Vesicular Glutamate Transport Promotes Dopamine Storage and Glutamate Corelease In Vivo , 2010, Neuron.

[46]  Nao Chuhma,et al.  Dopamine Neurons Control Striatal Cholinergic Neurons via Regionally Heterogeneous Dopamine and Glutamate Signaling , 2014, Neuron.

[47]  Yan Dong,et al.  Dopamine D1-Class Receptors Selectively Modulate a Slowly Inactivating Potassium Current in Rat Medial Prefrontal Cortex Pyramidal Neurons , 2003, The Journal of Neuroscience.

[48]  R. Wise,et al.  A psychomotor stimulant theory of addiction. , 1987, Psychological review.

[49]  Ilana B. Witten,et al.  Recombinase-Driver Rat Lines: Tools, Techniques, and Optogenetic Application to Dopamine-Mediated Reinforcement , 2011, Neuron.

[50]  Vaughn L. Hetrick,et al.  Mesolimbic Dopamine Signals the Value of Work , 2015, Nature Neuroscience.

[51]  B. Sabatini,et al.  Dopaminergic neurons inhibit striatal output via non-canonical release of GABA , 2012, Nature.

[52]  Grégory Dal Bo,et al.  Dopamine neurons in culture express VGLUT2 explaining their capacity to release glutamate at synapses in addition to dopamine , 2004, Journal of neurochemistry.