Search results for "Neuron"

showing 10 items of 2611 documents

Lorcaserin bidirectionally regulates dopaminergic function site-dependently and disrupts dopamine brain area correlations in rats

2020

Abstract Lorcaserin, which is a selective agonist of serotonin2C receptors (5-HT2CRs), is a new FDA-approved anti-obesity drug that has also shown therapeutic promise in other brain disorders, such as addiction and epilepsy. The modulation of dopaminergic function might be critical in the therapeutic effect of lorcaserin, but its exact effect is unknown. Here, we studied the effect of the peripheral administration of lorcaserin on the ventral tegmental area (VTA), the substantia nigra pars compacta (SNc) dopaminergic neural activity, dopamine (DA) dialysis levels in the nucleus accumbens and striatum and on DA tissue levels in 29 different rat brain regions. Lorcaserin (5–640 μg/kg, i.v.) m…

0301 basic medicineMalemedicine.medical_specialtySerotoninDopamineSubstantia nigraStriatumNucleus accumbensSettore BIO/09 - FisiologiaLorcaserinIntracerebral microdialysisRats Sprague-DawleyDose-Response Relationship03 medical and health sciencesCellular and Molecular Neuroscience0302 clinical medicineSingle cell extracellular recordingsRewardDopamineInternal medicineReceptor Serotonin 5-HT2CmedicineAnimals5-HT2CObesityPharmacologyDose-Response Relationship DrugPars compactaChemistryDopaminergic NeuronsDopaminergicBrainNeurochemistryBenzazepinesSerotonin2C receptorRatsVentral tegmental area030104 developmental biologyEndocrinologymedicine.anatomical_structurenervous systemSprague-DawleyDrugIntracerebral microdialysis; Neurochemistry; Obesity; Reward; Serotonin2C receptor; Single cell extracellular recordings; Animals; Benzazepines; Brain; Dopamine; Dopaminergic Neurons; Dose-Response Relationship Drug; Male; Rats; Rats Sprague-Dawley; Receptor Serotonin 5-HT2C; Serotonin 5-HT2 Receptor AgonistsIntracerebral microdialysi030217 neurology & neurosurgerySerotonin 5-HT2 Receptor Agonistsmedicine.drugReceptor
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Interhemispheric inhibition is dynamically regulated during action observation

2016

International audience; It is now well established that the motor system plays a pivotal role in action observation and that the neurophysiological processes underlying perception and action overlaps. However, while various experiments have shown a specific facilitation of the contralateral motor cortex during action observation, no information is available concerning the dynamics of interhemispheric interactions. The aim of the present study was, therefore, to assess interhemispheric inhibition during the observation of others' actions. We designed a transcranial magnetic stimulation (TMS) experiment in which we measured both corticospinal excitability and interhemispheric inhibition, this…

0301 basic medicineMalemedicine.medical_treatmentcorpus-callosumPyramidal TractsCorticospinal excitabilitFunctional Laterality0302 clinical medicinehuman motor cortextranscallosal inhibitionInterhemispheric inhibitiontranscranial magnetic stimulationAction observation Corticospinal excitabilit; Interhemispheric inhibition Movement kinematics Transcranial magnetic stimulation Adult Evoked Potentials Motor Female Functional Laterality Hand Strength Humans Male Motor Cortex Movement Muscle Skeletal Pyramidal Tracts Rest Transcranial Magnetic Stimulation Young Adult Neuropsychology and Physiological Psychology Experimental and Cognitive Psychology Cognitive NeuroscienceEvoked Potentialsvoluntary movementHand StrengthMotor CortexAction observationSkeletalCorticospinal excitabilitymedicine.anatomical_structureNeuropsychology and Physiological PsychologyMotormultiple-sclerosiscortical areasMuscleFemalePsychologyMotor cortexAdultCognitive NeuroscienceMovementRestipsilateral silent periodExperimental and Cognitive PsychologyInhibitory postsynaptic potential03 medical and health sciencesYoung AdultMotor systemmedicineHumansMuscle SkeletalPyramidal tractsNeurophysiologyEvoked Potentials MotorTranscranial magnetic stimulation030104 developmental biologyAction (philosophy)[ SDV.NEU ] Life Sciences [q-bio]/Neurons and Cognition [q-bio.NC]Silent periodMovement kinematicsNeuroscienceintracortical circuits030217 neurology & neurosurgery
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Formin 2 links neuropsychiatric phenotypes at young age to an increased risk for dementia

2017

Age-associated memory decline is due to variable combinations of genetic and environmental risk factors. How these risk factors interact to drive disease onset is currently unknown. Here we begin to elucidate the mechanisms by which post-traumatic stress disorder (PTSD) at a young age contributes to an increased risk to develop dementia at old age. We show that the actin nucleator Formin 2 (Fmn2) is deregulated in PTSD and in Alzheimer's disease (AD) patients. Young mice lacking the Fmn2 gene exhibit PTSD-like phenotypes and corresponding impairments of synaptic plasticity, while the consolidation of new memories is unaffected. However, Fmn2 mutant mice develop accelerated age-associated me…

0301 basic medicineMalememoriaAginggenetics [Stress Disorders Post-Traumatic]Diseasegenetics [Neuronal Plasticity]BioinformaticsdemenciaStress Disorders Post-TraumaticMice0302 clinical medicineRisk FactorsNews & ViewsAge of OnsetMice KnockoutNeuronal PlasticitybiologyGeneral NeuroscienceMicrofilament ProteinsNuclear Proteinsgenetics [Nuclear Proteins]FearadultoMiddle AgedAlzheimer's diseasephysiology [Aging]Phenotype3. Good healthPhenotypemiedoFormin 2Forminsgenetics [Aging]estres postraumaticoepidemiology [Stress Disorders Post-Traumatic]AdultHDAC inhibidorpsychology [Dementia]alzheimerForminsNerve Tissue Proteinsepidemiology [Dementia]Affect (psychology)General Biochemistry Genetics and Molecular Biology03 medical and health sciencesHDAC inhibitorMemorygenetics [Dementia]ddc:570medicineDementiaAnimalsHumansenvejecimientoMolecular Biologyphysiology [Memory]General Immunology and MicrobiologyPost-traumatic stress disordermedicine.diseaseYoung age030104 developmental biologyformin 2 protein mouseCase-Control StudiesSynaptic plasticitybiology.proteinDementiagenetics [Microfilament Proteins]complications [Stress Disorders Post-Traumatic]030217 neurology & neurosurgeryHomeostasis
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Spinal plasticity with motor imagery practice.

2019

KEY POINTS: While a consensus has now been reached on the effect of motor imagery (MI) – the mental simulation of an action – on motor cortical areas, less is known about its impact on spinal structures. The current study, using H‐reflex conditioning paradigms, examined the effect of a 20 min MI practice on several spinal mechanisms of the plantar flexor muscles. We observed modulations of spinal presynaptic circuitry while imagining, which was even more pronounced following an acute session of MI practice. We suggested that the small cortical output generated during MI may reach specific spinal circuits and that repeating MI may increase the sensitivity of the spinal cord to its effects. T…

0301 basic medicineMalemental-imageryPhysiologypathwaysStimulationIsometric exerciseD1 presynaptic inhibitionSynaptic TransmissionH-Reflex0302 clinical medicineNeuronal PlasticityMotor Cortexmodulationmedicine.anatomical_structureSpinal Cordtriceps surae[SDV.NEU]Life Sciences [q-bio]/Neurons and Cognition [q-bio.NC]FemaleFemoral NerveMuscle ContractionAdultia afferentsheteronymous Ia facilitationMovementSensory systemfacilitation03 medical and health sciencesMotor imageryexcitabilityNeuroplasticitymedicineHumansNeurons AfferentMuscle Skeletalsoleusinterneuronsbusiness.industryPeroneal NerveNeural Inhibitionpresynaptic inhibitionSpinal cordElectric StimulationSpine030104 developmental biologyactivationH-reflexbusinessNeuroscience030217 neurology & neurosurgeryCommon peroneal nerveNeuroscienceThe Journal of physiology
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Multimodal determinants of phase-locked dynamics across deep-superficial hippocampal sublayers during theta oscillations

2020

Theta oscillations play a major role in temporarily defining the hippocampal rate code by translating behavioral sequences into neuronal representations. However, mechanisms constraining phase timing and cell-type-specific phase preference are unknown. Here, we employ computational models tuned with evolutionary algorithms to evaluate phase preference of individual CA1 pyramidal cells recorded in mice and rats not engaged in any particular memory task. We applied unbiased and hypothesis-free approaches to identify effects of intrinsic and synaptic factors, as well as cell morphology, in determining phase preference. We found that perisomatic inhibition delivered by complementary populations…

0301 basic medicineMaleneural circuits.Patch-Clamp TechniquesGeneral Physics and AstronomyAction PotentialsHippocampal formationCell morphologySettore BIO/09 - Fisiologia0302 clinical medicineTheta Rhythmlcsh:ScienceBiophysical modelPhysicsNeurons0303 health sciencesComputational modelMultidisciplinaryBiología molecularPyramidal CellsQDynamics (mechanics)Theta oscillationsFemaleAlgorithmsScienceNeurocienciasModels NeurologicalPhase (waves)Mice TransgenicNeural circuitsGeneral Biochemistry Genetics and Molecular BiologyArticle03 medical and health sciencesGlutamatergicMemory taskAnimalsComputer SimulationRats WistarCA1 Region Hippocampal030304 developmental biologyGeneral ChemistryMice Inbred C57BLKinetics030104 developmental biologySynapseslcsh:QNeuroscience030217 neurology & neurosurgeryBiophysical models
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Brain circuit-gene expression relationships and neuroplasticity of multisensory cortices in blind children.

2017

Sensory deprivation reorganizes neurocircuits in the human brain. The biological basis of such neuroplastic adaptations remains elusive. In this study, we applied two complementary graph theory-based functional connectivity analyses, one to evaluate whole-brain functional connectivity relationships and the second to specifically delineate distributed network connectivity profiles downstream of primary sensory cortices, to investigate neural reorganization in blind children compared with sighted controls. We also examined the relationship between connectivity changes and neuroplasticity-related gene expression profiles in the cerebral cortex. We observed that multisensory integration areas e…

0301 basic medicineMaleneuroplasticitySensory systemNerve Tissue ProteinsCREBBlindness03 medical and health sciences0302 clinical medicinechildrenNeuroplasticitymedicineGene familyHumansSensory deprivationChildMultidisciplinaryNeuronal Plasticitybiologyfunctional connectivityMultisensory integrationHuman brainSomatosensory CortexBiological Sciences030104 developmental biologymedicine.anatomical_structureGene Expression RegulationCerebral cortexbiology.proteinCREB familyFemaleNerve NetPsychologyNeuroscience030217 neurology & neurosurgery
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Acute and chronic nicotine exposures differentially affect central serotonin 2A receptor function : focus on the lateral habenula

2020

Nicotine addiction is a serious public health problem causing millions of deaths worldwide. Serotonin (5-hydroxytryptamine

0301 basic medicineMalenucleus accumbensdorsal raphe nucleusmedicine.medical_treatmentstriatumPharmacologySmoking cessationSettore BIO/09 - FisiologiaSerotonin -- Receptorslcsh:ChemistryNicotineRats Sprague-DawleyNicotine addiction -- Treatment0302 clinical medicine5-HT2Asubstantia nigra pars compactaReceptor Serotonin 5-HT2Adentate gyruslcsh:QH301-705.5Spectroscopymedia_commonNeuronsGeneral MedicineDorsal raphe nucleu5-HT<sub>2C</sub>RComputer Science ApplicationsVentral tegmental areamedicine.anatomical_structuredepressionaddiction5-HT2CR; Addiction; Dentate gyrus; Depression; Dorsal raphe nucleus; Medial prefrontal cortex; Nucleus accumbens; Striatum; Substantia nigra pars compacta; Ventral tegmental area; Animals; Habenula; Male; Neurons; Nicotine; Rats; Rats Sprague-Dawley; Receptor Serotonin 5-HT2A; SerotoninReceptormedicine.drugAgonistNicotineSerotoninmedicine.drug_classmedia_common.quotation_subjectCentral nervous systemventral tegmental area substantia nigra pars compactaventral tegmental areaNucleus accumbensDentate gyruCatalysisArticleInorganic Chemistry03 medical and health sciencesmental disordersmedicineAnimalsNucleus accumbenPhysical and Theoretical ChemistryMolecular BiologyHabenulabusiness.industryAddictionOrganic ChemistryRats5-HT2CR030104 developmental biologylcsh:Biology (General)lcsh:QD1-999Smoking cessationSprague-DawleySerotoninbusinessReceptors Serotonin 5-HT2030217 neurology & neurosurgerymedial prefrontal cortex
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Mapping brain activity with flexible graphene micro-transistors

2016

arXiv:1611.05693v1.-- et al.

0301 basic medicineMaterials scienceFOS: Physical sciences02 engineering and technologylaw.invention03 medical and health scienceslawGeneral Materials ScienceElectronicsPhysics - Biological PhysicsNeural implantsBioelectronicsBioelectronicsbusiness.industryGrapheneSensorsMechanical EngineeringTransistorGeneral Chemistry021001 nanoscience & nanotechnologyCondensed Matter PhysicsField-effect transistorsMicroelectrodeBrain implant030104 developmental biologyBiological Physics (physics.bio-ph)Mechanics of MaterialsFOS: Biological sciencesQuantitative Biology - Neurons and CognitionOptoelectronicsNeurons and Cognition (q-bio.NC)Charge carrierField-effect transistorGraphene0210 nano-technologybusiness2D Materials
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Apoptotic Activity of MeCP2 Is Enhanced by C-Terminal Truncating Mutations.

2016

Methyl-CpG binding protein 2 (MeCP2) is a widely abundant, multifunctional protein most highly expressed in post-mitotic neurons. Mutations causing Rett syndrome and related neurodevelopmental disorders have been identified along the entire MECP2 locus, but symptoms vary depending on mutation type and location. C-terminal mutations are prevalent, but little is known about the function of the MeCP2 C-terminus. We employ the genetic efficiency of Drosophila to provide evidence that expression of p.Arg294* (more commonly identified as R294X), a human MECP2 E2 mutant allele causing truncation of the C-terminal domains, promotes apoptosis of identified neurons in vivo. We confirm this novel find…

0301 basic medicineMethyl-CpG-Binding Protein 2lcsh:MedicineApoptosisBiochemistryPhosphoserine0302 clinical medicineAnimal CellsDrosophila ProteinsPost-Translational ModificationPhosphorylationlcsh:ScienceNeuronsMotor NeuronsGeneticsMultidisciplinaryCell DeathbiologyDrosophila MelanogasterAnimal ModelsInsectsFOXG1Cell ProcessesCaspasesPhosphorylationDrosophilaBiological CulturesCellular TypesDrosophila melanogasterResearch ArticleGene isoformcongenital hereditary and neonatal diseases and abnormalitiesArthropodaProtein domainMouse ModelsMotor ActivityResearch and Analysis MethodsTransfectionModels BiologicalMECP203 medical and health sciencesModel OrganismsProtein Domainsmental disordersAnimalsHumansMolecular Biology TechniquesImmunohistochemistry TechniquesMolecular BiologyTranscription factorBinding proteinlcsh:ROrganismsBiology and Life SciencesProteinsCell BiologyCell Culturesbiology.organism_classificationInvertebratesHistochemistry and Cytochemistry TechniquesHEK293 Cells030104 developmental biologyCellular NeuroscienceMutationImmunologic TechniquesMutant Proteinslcsh:Q030217 neurology & neurosurgeryNeuroscienceTranscription FactorsPLoS ONE
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2018

In mammalian species, including humans, the hippocampal dentate gyrus (DG) is a primary region of adult neurogenesis. Aberrant adult hippocampal neurogenesis is associated with neurological pathologies. Understanding the cellular mechanisms controlling adult hippocampal neurogenesis is expected to open new therapeutic strategies for mental disorders. Microglia is intimately associated with neural progenitor cells in the hippocampal DG and has been implicated, under varying experimental conditions, in the control of the proliferation, differentiation and survival of neural precursor cells. But the underlying mechanisms remain poorly defined. Using fluorescent in situ hybridization we show th…

0301 basic medicineMicrogliaDentate gyrusNeurogenesisHippocampusHippocampal formationBiologyNeural stem cellSubgranular zone03 medical and health sciencesCellular and Molecular Neuroscience030104 developmental biology0302 clinical medicinemedicine.anatomical_structuremedicineNeuronNeuroscience030217 neurology & neurosurgeryFrontiers in Cellular Neuroscience
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