Dopamine receptor blockade modulates the rewarding and aversive properties of nicotine via dissociable neuronal activity patterns in the nucleus accumbens.

Lateral hypothalamus, nucleus accumbens, and ventral pallidum roles in eating and hunger: interactions between homeostatic and reward circuitry. Front Syst Neurosci (2015) 0.84

Smoking normalizes cerebral blood flow and oxygen consumption after 12-hour abstention. J Cereb Blood Flow Metab (2015) 0.82

Co-administration of ethanol and nicotine: the enduring alterations in the rewarding properties of nicotine and glutamate activity within the mesocorticolimbic system of female alcohol-preferring (P) rats. Psychopharmacology (Berl) (2015) 0.78

Dopaminergic Regulation of Striatal Interneurons in Reward and Addiction: Focus on Alcohol. Neural Plast (2015) 0.76

Acute administration of nicotine into the higher order auditory Te2 cortex specifically decreases the fear-related charge of remote emotional memories. Neuropharmacology (2015) 0.75

Nicotine regulates activity of lateral habenula neurons via presynaptic and postsynaptic mechanisms. Sci Rep (2016) 0.75

Effects of nicotine on the nucleus accumbens and similarity to those of addictive drugs. Nature (1996) 4.52

Dopamine receptor binding predicts clinical and pharmacological potencies of antischizophrenic drugs. Science (1976) 4.07

Synaptic mechanisms underlie nicotine-induced excitability of brain reward areas. Neuron (2002) 3.78

Inhibitory control of neostriatal projection neurons by GABAergic interneurons. Nat Neurosci (1999) 3.43

Striatal dopamine release is triggered by synchronized activity in cholinergic interneurons. Neuron (2012) 3.33

Oscillatory entrainment of striatal neurons in freely moving rats. Neuron (2004) 3.11

The mesolimbic dopaminergic system is implicated in the reinforcing effects of nicotine. Psychopharmacology (Berl) (1992) 2.97

Self-administered nicotine activates the mesolimbic dopamine system through the ventral tegmental area. Brain Res (1994) 2.95

The neural network of the basal ganglia as revealed by the study of synaptic connections of identified neurones. Trends Neurosci (1990) 2.54

The neurobiology of nicotine addiction: bridging the gap from molecules to behaviour. Nat Rev Neurosci (2004) 2.53

Complex interactions between nicotine and nonpharmacological stimuli reveal multiple roles for nicotine in reinforcement. Psychopharmacology (Berl) (2005) 2.49

Midbrain dopaminergic neurons and striatal cholinergic interneurons encode the difference between reward and aversive events at different epochs of probabilistic classical conditioning trials. J Neurosci (2008) 2.42

Heterogeneity and diversity of striatal GABAergic interneurons. Front Neuroanat (2010) 1.89

Neuronal systems underlying behaviors related to nicotine addiction: neural circuits and molecular genetics. J Neurosci (2002) 1.88

Individual differences in sensitivity to nicotine: implications for genetic research on nicotine dependence. Behav Genet (1995) 1.86

GABAergic circuits mediate the reinforcement-related signals of striatal cholinergic interneurons. Nat Neurosci (2011) 1.85

Selective activation of striatal fast-spiking interneurons during choice execution. Neuron (2010) 1.84

Importance of nonpharmacological factors in nicotine self-administration. Physiol Behav (2002) 1.83

GABA-containing neurons in the ventral tegmental area project to the nucleus accumbens in rat brain. Brain Res (1995) 1.78

Systemic nicotine-induced dopamine release in the rat nucleus accumbens is regulated by nicotinic receptors in the ventral tegmental area. Synapse (1994) 1.66

Encoding of palatability and appetitive behaviors by distinct neuronal populations in the nucleus accumbens. J Neurosci (2005) 1.63

Dynamics of synaptic transmission between fast-spiking interneurons and striatal projection neurons of the direct and indirect pathways. J Neurosci (2010) 1.50

Dopamine excites fast-spiking interneurons in the striatum. J Neurophysiol (2002) 1.36

Blockade of mesolimbic dopamine transmission dramatically increases sensitivity to the rewarding effects of nicotine in the ventral tegmental area. Mol Psychiatry (2003) 1.31

Preferential stimulation of ventral tegmental area dopaminergic neurons by nicotine. Eur J Pharmacol (1987) 1.26

Dopamine D(2) receptor modulation of K(+) channel activity regulates excitability of nucleus accumbens neurons at different membrane potentials. J Neurophysiol (2006) 1.24

Tonically discharging putamen neurons exhibit set-dependent responses. Proc Natl Acad Sci U S A (1984) 1.23

GABA mechanisms in the pedunculopontine tegmental nucleus influence particular aspects of nicotine self-administration selectively in the rat. Psychopharmacology (Berl) (2001) 1.15

Medullary and spinal efferents of the pedunculopontine tegmental nucleus and adjacent mesopontine tegmentum in the rat. J Comp Neurol (1988) 1.14

Lesions of the tegmental pedunculopontine nucleus block the rewarding effects and reveal the aversive effects of nicotine in the ventral tegmental area. J Neurosci (2002) 1.13

Activation of D2-like dopamine receptors reduces synaptic inputs to striatal cholinergic interneurons. J Neurosci (2000) 1.11

Motivational state determines the functional role of the mesolimbic dopamine system in the mediation of opiate reward processes. Behav Brain Res (2002) 1.09

Reinforcing effects of nicotine microinjections into the ventral tegmental area of mice: dependence on cholinergic nicotinic and dopaminergic D1 receptors. Neuropharmacology (2006) 1.08

Opposite effects of stimulant and antipsychotic drugs on striatal fast-spiking interneurons. Neuropsychopharmacology (2010) 1.07

Dopamine D1-like receptor activation excites rat striatal large aspiny neurons in vitro. J Neurosci (1998) 1.07

The pedunculopontine tegmental nucleus and the role of cholinergic neurons in nicotine self-administration in the rat: a correlative neuroanatomical and behavioral study. Neuroscience (2000) 1.01

Fast-spiking interneurons of the rat ventral striatum: temporal coordination of activity with principal cells and responsiveness to reward. Eur J Neurosci (2010) 1.01

Dopamine D1-like receptor activation depolarizes medium spiny neurons of the mouse nucleus accumbens by inhibiting inwardly rectifying K+ currents through a cAMP-dependent protein kinase A-independent mechanism. Neuroscience (2010) 0.99

Rewarding and aversive effects of nicotine are segregated within the nucleus accumbens. Eur J Neurosci (2008) 0.98

Lesions of the nigrostriatal dopamine projection increase the inhibitory effects of D1 and D2 dopamine agonists on caudate-putamen neurons and relieve D2 receptors from the necessity of D1 receptor stimulation. J Neurosci (1990) 0.98

Dopamine signaling through D1-like versus D2-like receptors in the nucleus accumbens core versus shell differentially modulates nicotine reward sensitivity. J Neurosci (2008) 0.98

A comparison of the effects of nicotine on dopamine and non-dopamine neurons in the rat ventral tegmental area: an in vitro electrophysiological study. Brain Res Bull (2000) 0.93

Individual variability in responses to nicotine. Behav Genet (1995) 0.93

Dopamine enhances glutamate-induced excitation of rat striatal neurons by cooperative activation of D1 and D2 class receptors. Neurosci Lett (1997) 0.93

Aversion instead of preference learning indicated by nicotine place conditioning in rats. Psychopharmacology (Berl) (1990) 0.93

Dopamine responsiveness to drugs of abuse: A shell-core investigation in the nucleus accumbens of the mouse. Synapse (2003) 0.91

Chronic nicotine exposure switches the functional role of mesolimbic dopamine transmission in the processing of nicotine's rewarding and aversive effects. Neuropharmacology (2009) 0.90

Functionally distinct subpopulations of striatal neurons are differentially regulated by GABAergic and dopaminergic inputs--I. In vivo analysis. Neuroscience (1992) 0.89

Inactivation of the basolateral amygdala during opiate reward learning disinhibits prelimbic cortical neurons and modulates associative memory extinction. Psychopharmacology (Berl) (2012) 0.86

Outflow from the nucleus accumbens to the pedunculopontine tegmental nucleus: a dissociation between locomotor activity and the acquisition of responding for conditioned reinforcement stimulated by d-amphetamine. Neuroscience (1994) 0.86

Acquisition, extinction, and recall of opiate reward memory are signaled by dynamic neuronal activity patterns in the prefrontal cortex. Cereb Cortex (2011) 0.85

Neural encoding of psychomotor activation in the nucleus accumbens core, but not the shell, requires cannabinoid receptor signaling. J Neurosci (2010) 0.84

Drug-primed reinstatement of cocaine seeking in mice: increased excitability of medium-sized spiny neurons in the nucleus accumbens. ASN Neuro (2013) 0.81

Nicotine differentially affects dopamine transmission in the nucleus accumbens shell and core of Lewis and Fischer 344 rats. Neuropharmacology (2009) 0.80

NMDA receptor blockade in the prelimbic cortex activates the mesolimbic system and dopamine-dependent opiate reward signaling. Psychopharmacology (Berl) (2014) 0.78

Dopamine Receptor Blockade Modulates the Rewarding and Aversive Properties of Nicotine via Dissociable Neuronal Activity Patterns in the Nucleus Accumbens. Neuropsychopharmacology (2015) 0.75