Search results for "VENTRAL TEGMENTAL AREA"

showing 10 items of 64 documents

P-56LOCAL BLOCKADE OF THE MU OPIOID RECEPTOR REVEALS THE DUAL MOTOR EFFECT OF ETHANOL IN pVTA

2015

Previous electrophysiological and behavioral data have revealed the existence of ethanol opposite effects (excitatory and inhibitory) on the posterior ventral tegmental area (pVTA) dopamine (DA) neurons activity. These activating and depressing effects of ethanol could be the result of two concurrent and opposing mechanisms, one increasing and the other reducing GABA release …

EthanolChemistryGeneral MedicineInhibitory postsynaptic potentialBlockadeVentral tegmental areachemistry.chemical_compoundElectrophysiologymedicine.anatomical_structureDopaminemedicineExcitatory postsynaptic potentialμ-opioid receptorNeurosciencemedicine.drugAlcohol and Alcoholism
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Septal complex of the telencephalon of lizards: III. Efferent connections and general discussion.

1998

The projections of the septum of the lizard Podarcis hispanica (Lacertidae) were studied by combining retrograde and anterograde neuroanatomical tracing. The results confirm the classification of septal nuclei into three main divisions. The nuclei composing the central septal division (anterior, lateral, medial, dorsolateral, and ventrolateral nuclei) displayed differential projections to the basal telencephalon, preoptic and anterior hypothalamus, lateral hypothalamic area, dorsal hypothalamus, mammillary complex, dorsomedial anterior thalamus, ventral tegmental area, interpeduncular nucleus, raphe nucleus, torus semicircularis pars laminaris, reptilian A8 nucleus/ substantia nigra and cen…

Interpeduncular nucleusterritorial behaviorMicroinjectionscomparative neuroanatomyThalamusHypothalamusBiotinBiologyLimbic systemNeurons Efferentlimbic systemThalamusmedicineLimbic SystemAnimalsPhytohemagglutininsHorseradish PeroxidaseFluorescent DyesMedial septal nucleusHabenulaBehavior AnimalGeneral NeuroscienceVentral Tegmental AreaSeptal nucleiDextransLizardsAnatomyreptilesmedicine.anatomical_structurenervous systemHypothalamusSeptal NucleiRaphe nucleiTerritorialityNucleusNeuroscienceThe Journal of comparative neurology
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MODULATION OF FOOD REWARD BY ADIPOSITY SIGNALS

2006

Extensive historical evidence from the drug abuse literature has provided support for the concept that there is functional communication between central nervous system (CNS) circuitries which subserve reward/motivation, and the regulation of energy homeostasis. This concept is substantiated by recent studies that map anatomical pathways, or which demonstrate that hormones and neurotransmitters associated with energy homeostasis regulation can directly modulate reward and motivation behaviors. Studies from our laboratory have focused specifically on the candidate adiposity hormones, insulin and leptin, and show that these hormones can decrease performance in behavioral paradigms that assess …

LeptinExperimental and Cognitive PsychologyEnergy homeostasisArticleBehavioral NeuroscienceRewardDopaminemedicineAnimalsHomeostasisInsulinAdiposityMotivationModalitiesBehavior AnimalAppetite RegulationStressormedicine.diseaseRatsVentral tegmental areaSubstance abusemedicine.anatomical_structureFoodSelf-administrationPsychologyEnergy MetabolismNeurosciencepsychological phenomena and processesmedicine.drugHormone
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Sex Differences in the Neuroadaptations of Reward-related Circuits in Response to Subchronic Variable Stress

2018

Women are twice as likely to be diagnosed with major depressive disorder. However, fewer studies in rodent models of depression have used female animals, leading to a relative lack of understanding of the female brain’s response to stress, especially at a neural circuit level. In this study, we utilized a 6-day subchronic variable stress (SCVS) mouse model and measured novelty suppressed feeding as behavioral criteria to evaluate susceptibility to SCVS in male and female mice. First, we showed that SCVS induced a decrease in latency to eat (susceptible phenotype) in female mice, but not in males (resilient phenotype). After determining behavioral phenotypes, we investigated the firing activ…

Male0301 basic medicineAction Potentialsneuronal activityTissue Culture Techniques0302 clinical medicinePremovement neuronal activitylocus coeruleuNeuronsSex CharacteristicsNeuronal Plasticitymusculoskeletal neural and ocular physiologyGeneral NeuroscienceBrainPhenotypeVentral tegmental areamedicine.anatomical_structureMajor depressive disorderFemaleDisease Susceptibilitylateral habenulamedicine.drugmedicine.medical_specialtyCell typesex differenceventral tegmental areaBiologyArticle03 medical and health sciencesRewardDopamineInternal medicinemedicineAnimalsAction PotentialDepressive DisorderAnimalNeuronmedicine.diseaseMice Inbred C57BLElectrophysiology030104 developmental biologyEndocrinologynervous systemSettore BIO/14 - FarmacologiaLocus coeruleusTissue Culture Techniquemajor depressionStress Psychological030217 neurology & neurosurgeryNeuroscience
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The LepR-mediated leptin transport across brain barriers controls food reward

2018

Objective Leptin is a key hormone in the control of appetite and body weight. Predominantly produced by white adipose tissue, it acts on the brain to inhibit homeostatic feeding and food reward. Leptin has free access to circumventricular organs, such as the median eminence, but entry into other brain centers is restricted by the blood–brain and blood–CSF barriers. So far, it is unknown for which of its central effects leptin has to penetrate brain barriers. In addition, the mechanisms mediating the transport across barriers are unclear although high expression in brain barriers suggests an important role of the leptin receptor (LepR). Methods We selectively deleted LepR in brain endothelia…

Male0301 basic medicineLeptinHFD high-fat dietEndothelial cellsWhite adipose tissueCSF cerebrospinal fluidMice0302 clinical medicineCPP conditioned place preferenceBBB blood–brain barrierCells Culturedmedia_commonLeptindigestive oral and skin physiologyi.p. intraperitonealmedicine.anatomical_structureLepRBlood-Brain BarrierBlood–brain barrier; Endothelial cells; LepR; Leptin; Obesity; RewardMedian eminenceqPCR quantitative polymerase chain reactionReceptors LeptinOriginal ArticleChoroid plexusmedicine.medical_specialtylcsh:Internal medicinemedia_common.quotation_subjectHyperphagiaBiologyBlood–brain barrierVTA ventral tegmental areaBC bottle choice testCapillary PermeabilityBlood–brain barrierARC arcuate nucleus03 medical and health sciencesPBS phosphate buffered salineRewardInternal medicinemedicineAnimalsObesitylcsh:RC31-1245Molecular BiologyCircumventricular organsBlood-Nerve BarrierLeptin receptorNCD normal chow dietAppetiteCell Biology030104 developmental biologyEndocrinologyLepR leptin receptorChoroid PlexusBSA bovine serum albuminPFA paraformaldehyde030217 neurology & neurosurgeryDAPI 4′6-diamidino-2-phenylindoleMolecular Metabolism
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Chemoarchitecture and afferent connections of the "olfactostriatum": a specialized vomeronasal structure within the basal ganglia of snakes.

2004

The olfactostriatum, a portion of the striatal complex of snakes, is the major tertiary vomeronasal structure in the ophidian brain, receiving substantial afferents from the nucleus sphericus, the primary target of accessory olfactory bulb efferents. In the present study, we have characterized the olfactostriatum of garter snakes (Thamnophis sirtalis) on the basis of chemoarchitecture (distribution of serotonin, neuropeptide Y and tyrosine hydroxylase) and hodology (afferent connections). The olfactostriatum is densely immunoreactive for serotonin and neuropeptide Y and shows moderate-to-weak immunoreactivity for tyrosine hydroxylase. In addition to afferents from the nucleus sphericus, the…

MaleAfferent PathwaysVomeronasal organVentral striatumColubridaeAnatomyNucleus accumbensBiologyNeuropeptide Y receptorOlfactory BulbBasal GangliaCorpus StriatumVentral tegmental areaSmellCellular and Molecular Neurosciencemedicine.anatomical_structureBasal gangliamedicineAnimalsFemaleVomeronasal OrganRaphe nucleiNeuroscienceOlfactory tractJournal of chemical neuroanatomy
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Distribution and differential induction of CYP2E1 by ethanol and acetone in the mesocorticolimbic system of rat

2008

Aims: The expression of cytochrome P4502E1 (CYP2E1) in the brain has been demonstrated in several regions, nevertheless there is a lack of specific studies on the constitutive expression and induction at the mesocorticolimbic system, the most relevant brain pathway in the context of drug addiction and alcoholism. Hence, we have performed a detailed study of the CYP2E1 expression and induction in three key areas of the mesocorticolimbic system of the rat brain: prefrontal cortex (PFC), nucleus accumbens (NAc), and ventral tegmental area (VTA). Methods: Expression levels of CYP2E1 were analyzed by Western blot. The induction of the enzyme in the selected brain areas by chronic acetone (1% v/v…

MaleBlotting WesternPrefrontal CortexContext (language use)PharmacologyNucleus accumbensNucleus AccumbensAcetylcysteineAcetonechemistry.chemical_compoundWestern blotmedicineLimbic SystemAnimalsRats WistarPrefrontal cortexEthanolmedicine.diagnostic_testEthanolChemistryCytochrome P-450 CYP2E1General MedicineCYP2E1RatsVentral tegmental areaBehavior AddictiveAlcoholismmedicine.anatomical_structureBiochemistrynervous systemmedicine.drug
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Protective activation of the endocannabinoid system during ischemia in dopamine neurons

2006

Endocannabinoids act as neuroprotective molecules promptly released in response to pathological stimuli. Hence, they may represent one component of protection and/or repair mechanisms mobilized by dopamine (DA) neurons under ischemia. Here, we show that the endocannabinoid 2-arachidonoyl-glycerol (2-AG) plays a key role in protecting DA neurons from ischemia-induced altered spontaneous activity both in vitro and in vivo. Accordingly, neuroprotection can be elicited through moderate cannabinoid receptor type-1 (CB1) activation. Conversely, blockade of endocannabinoid actions through CB1 receptor antagonism worsens the outcome of transient ischemia on DA neuronal activity. These findings indi…

MaleCannabinoid receptorDopaminePharmacologyBrain IschemiaMidbrainRats Sprague-DawleyMicePiperidinesReceptor Cannabinoid CB1IschemiaPremovement neuronal activityReceptorMice KnockoutNeuronsmusculoskeletal neural and ocular physiologyEndocannabinoid systemCB1NeuroprotectionElectrophysiologyNeurologylipids (amino acids peptides and proteins)Rimonabantpsychological phenomena and processesmedicine.drugSignal TransductionMorpholinesIschemiaArachidonic AcidsBiologyIn Vitro TechniquesNaphthalenesNeuroprotectionAmidohydrolasesGlycerideslcsh:RC321-571DopamineCannabinoid Receptor ModulatorsmedicineAnimalslcsh:Neurosciences. Biological psychiatry. NeuropsychiatryEndocannabinoidVentral Tegmental Areamedicine.diseaseBlockadeBenzoxazinesRatsnervous systemPyrazolesNeuroscienceEndocannabinoidsNeurobiology of Disease
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Attraction to sexual pheromones and associated odorants in female mice involves activation of the reward system and basolateral amygdala

2005

Adult female mice are innately attracted to non-volatile pheromones contained in male-soiled bedding. In contrast, male-derived volatiles become attractive if associated with non-volatile attractive pheromones, which act as unconditioned stimulus in a case of Pavlovian associative learning. In this work, we study the chemoinvestigatory behaviour of female mice towards volatile and non-volatile chemicals contained in male-soiled bedding, in combination with the analysis of c-fos expression induced by such a behaviour to clarify: (i) which chemosensory systems are involved in the detection of the primary attractive non-volatile pheromone and of the secondarily attractive volatiles; (ii) where…

MaleCell Countolfactory systemNucleus accumbensAmygdalavomeronasal systemMiceSexual Behavior AnimalRewardmedicineAnimalsSex AttractantsNeuronsprefrontal cortexBehavior AnimalGeneral Neuroscienceaccumbensemotional learningAmygdalaImmunohistochemistryAssociative learningVentral tegmental areamedicine.anatomical_structureOncogene Proteins v-fosGene Expression RegulationSex pheromoneExploratory BehaviorPheromoneConditioning OperantOrbitofrontal cortexFemaleVomeronasal OrganPsychologyNeuroscienceBasolateral amygdalac-fos expression
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Cannabidiol prevents priming- and stress-induced reinstatement of the conditioned place preference induced by cocaine in mice

2021

[Background]: Cocaine dependence is an important problem without any effective pharmacological treatment. Some preclinical studies have suggested that cannabidiol (CBD), a component of the Cannabis sativa plant, could be useful for the treatment of cocaine use disorders.

MaleConditioning ClassicalPharmacologyCocaine dependenceSocial DefeatSocial defeatCocaine-Related DisordersMice03 medical and health sciences0302 clinical medicineCannabinoid Receptor ModulatorsmedicineAnimalsCannabidiolPharmacology (medical)Dopamine transporterPharmacologyDopamine Plasma Membrane Transport ProteinsBehavior Animalbiologybusiness.industryVentral Tegmental Areafood and beveragesmedicine.diseasebiology.organism_classificationConditioned place preference030227 psychiatryVentral tegmental areaDisease Models AnimalPsychiatry and Mental healthmedicine.anatomical_structurebiology.proteinCannabisbusinessPriming (psychology)Cannabidiol030217 neurology & neurosurgerymedicine.drugJournal of Psychopharmacology
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