Search results for "PsyArXiv|Psychiatry"

showing 10 items of 5620 documents

Effects of Dopamine on the Immature Neurons of the Adult Rat Piriform Cortex

2020

The layer II of the adult piriform cortex (PCX) contains a numerous population of immature neurons. Interestingly, in both mice and rats, most, if not all, these cells have an embryonic origin. Moreover, recent studies from our laboratory have shown that they progressively mature into typical excitatory neurons of the PCX layer II. Therefore, the adult PCX is considered a “non-canonical” neurogenic niche. These immature neurons express the polysialylated form of the neural cell adhesion molecule (PSA-NCAM), a molecule critical for different neurodevelopmental processes. Dopamine (DA) is a relevant neurotransmitter in the adult CNS, which also plays important roles in neural development and …

0301 basic medicinedopamine D2 receptorPSA-NCAMPopulationBiologylcsh:RC321-57103 medical and health scienceschemistry.chemical_compoundpiriform cortex0302 clinical medicineDopaminePiriform cortexDopamine receptor D2medicineeducationNeurotransmitterlcsh:Neurosciences. Biological psychiatry. Neuropsychiatryeducation.field_of_studyGeneral NeuroscienceDopaminergicBrief Research ReportCell biology030104 developmental biologychemistrynervous systemplasticityNeural cell adhesion moleculedopamineNeural development030217 neurology & neurosurgeryNeurosciencemedicine.drug
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Effects of PSA Removal from NCAM on the Critical Period Plasticity Triggered by the Antidepressant Fluoxetine in the Visual Cortex.

2016

Neuronal plasticity peaks during critical periods of postnatal development and is reduced towards adulthood. Recent data suggests that windows of juvenile-like plasticity can be triggered in the adult brain by antidepressant drugs such as Fluoxetine. Although the exact mechanisms of how Fluoxetine promotes such plasticity remains unknown, several studies indicate that inhibitory circuits play an important role. The polysialylated form of the neural cell adhesion molecules (PSA-NCAM) has been suggested to mediate the effects of Fluoxetine and it is expressed in the adult brain by mature interneurons. Moreover, the enzymatic removal of PSA by neuroaminidase-N not only affects the structure of…

0301 basic medicinegenetic structuresPSA-NCAMta3112lcsh:RC321-571critical period plasticity03 medical and health sciencesCellular and Molecular Neuroscience0302 clinical medicineparvalbumin interneuronsSYNAPTIC PLASTICITYNeuroplasticitymedicinevisual plasticityMONOCULAR DEPRIVATIONlcsh:Neurosciences. Biological psychiatry. NeuropsychiatryREGULATES PLASTICITYOriginal ResearchbiologyMEDIAL PREFRONTAL CORTEXPOLYSIALIC ACID3112 NeurosciencesCELLULAR AND MOLECULAR NEUROSCIENCEfluoxetineLong-term potentiationSciences bio-médicales et agricoles3. Good healthOCULAR DOMINANCE PLASTICITYMonocular deprivation030104 developmental biologyVisual cortexmedicine.anatomical_structureSTRUCTURAL PLASTICITYnervous systemCELL-ADHESION MOLECULESynaptic plasticitybiology.proteinNeural cell adhesion moleculeLONG-TERM POTENTIATIONPsychologyNeuroscience030217 neurology & neurosurgeryParvalbuminNeuroscienceNEUROTROPHIC FACTORFOSB
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Modulation of the Immune System for the Treatment of Glaucoma

2017

Background At present intraocular pressure (IOP) lowering therapies are the only approach to treat glaucoma. Neuroprotective strategies to protect the retinal ganglion cells (RGC) from apoptosis are lacking to date. Substantial amount of research concerning the role of the immune system in glaucoma has been performed in the recent years. This review aims to analyse changes found in the peripheral immune system, as well as selected local changes of retina immune cells in the glaucomatous retina. Methods By dividing the immune system into the innate and the adaptive immune system, a systematic literature research was performed to find recent approaches concerning the modulation of the immune …

0301 basic medicinegenetic structuresT cellsGlaucomaAdaptive ImmunityRetinal ganglionArticleImmunomodulation03 medical and health sciences0302 clinical medicineImmune systemAntigenmedicineAnimalsHumansPharmacology (medical)PharmacologyB cellsToll-like receptorRetinabiologybusiness.industryGeneral Medicinemedicine.diseaseAcquired immune systemImmunity Innateeye diseasesimmune systemPsychiatry and Mental healthglaucoma030104 developmental biologymedicine.anatomical_structureNeurologyImmunologybiology.proteinneuroprotectionsense organsNeurology (clinical)Antibodybusiness030217 neurology & neurosurgeryCurrent Neuropharmacology
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Is there evidence for a rostral-caudal gradient in fronto-striatal loops and what role does dopamine play?

2018

Research has shown that the lateral prefrontal cortex (LPFC) may be hierarchically organized along a rostral-caudal functional gradient such that control processing becomes progressively more abstract from caudal to rostral frontal regions. Here, we briefly review the most recent functional MRI, neuropsychological, and electrophysiological evidence in support of a hierarchical LPFC organization. We extend these observations by discussing how such a rostral-caudal gradient may also exist in the striatum and how the dopaminergic system may play an important role in the hierarchical organization of fronto-striatal loops. There is evidence indicating that a rostral-caudal gradient of dopamine r…

0301 basic medicinehierarchical processingReviewStriatumBiologylcsh:RC321-57103 medical and health sciences0302 clinical medicineDopaminemedicineHierarchical organizationlcsh:Neurosciences. Biological psychiatry. NeuropsychiatryGeneral NeuroscienceDopaminergicNeuropsychologylateral prefrontal cortexElectrophysiology030104 developmental biologynervous systemDopamine receptorfronto-striatal loopsreceptor distributiondopamineLateral prefrontal cortexNeuroscience030217 neurology & neurosurgeryNeurosciencemedicine.drug
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Mechanisms Underlying Memory Consolidation by Adult-Born Neurons During Sleep

2020

The mammalian hippocampus generates new neurons that incorporate into existing neuronal networks throughout the lifespan, which bestows a unique form of cellular plasticity to the memory system. Recently, we found that hippocampal adult-born neurons (ABNs) that were active during learning reactivate during subsequent rapid eye movement (REM) sleep and provided causal evidence that ABN activity during REM sleep is necessary for memory consolidation. Here, we describe the potential underlying mechanisms by highlighting distinct characteristics of ABNs including decoupled firing from local oscillations and ability to undergo profound synaptic remodeling in response to experience. We further di…

0301 basic medicinehippocampusMini Reviewtheta oscillationHippocampusEngramBiologyHippocampal formationOptogeneticslcsh:RC321-57103 medical and health sciencesCellular and Molecular Neuroscience0302 clinical medicineFear conditioningoptogeneticslcsh:Neurosciences. Biological psychiatry. Neuropsychiatrysynaptic plasticityNeurogenesismemory consolidation030104 developmental biologyCellular NeuroscienceSynaptic plasticitycalcium-imagingMemory consolidationREM sleepadult-neurogenesisNeuroscience030217 neurology & neurosurgeryFrontiers in Cellular Neuroscience
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Hippocampal hyperexcitability is modulated by microtubule-active agent: evidence from in vivo and in vitro epilepsy models in the rat

2016

The involvement of microtubule dynamics on bioelectric activity of neurons and neurotransmission represents a fascinating target of research in the context of neural excitability. It has been reported that alteration of microtubule cytoskeleton can lead to profound modifications of neural functioning, with a putative impact on hyperexcitability phenomena. Altogether, in the present study we pointed at exploring the outcomes of modulating the degree of microtubule polymerization in two electrophysiological epileptiform activity in the rat hippocampus. To this aim, we used in vivo Maximal Dentate Activation (MDA) and in vitro hippocampal epileptiform bursting activity (HEBA) paradigms to asse…

0301 basic medicinehippocampusPaclitaxel.HippocampusContext (language use)BiologyNeurotransmissionHippocampal formationSettore BIO/09 - Fisiologialcsh:RC321-571Microtubule polymerization03 medical and health sciencesCellular and Molecular Neurosciencechemistry.chemical_compoundpaclitaxel0302 clinical medicineMicrotubulemedicinelcsh:Neurosciences. Biological psychiatry. NeuropsychiatryOriginal ResearchNeurotoxicitymedicine.diseaseelectrophysiologyNocodazole030104 developmental biologynocodazolechemistryepilepsyhippocampus epilepsy maximal dentate activation microtubule electrophysiology nocodazole paclitaxel.maximal dentate activationNeuroscience030217 neurology & neurosurgeryNeurosciencemicrotubule
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Tyro3 Contributes to Retinal Ganglion Cell Function, Survival and Dendritic Density in the Mouse Retina

2020

Retinal ganglion cells (RGCs) are the only output neurons of the vertebrate retina, integrating signals from other retinal neurons and transmitting information to the visual centers of the brain. The death of RGCs is a common outcome in many optic neuropathies, such as glaucoma, demyelinating optic neuritis and ischemic optic neuropathy, resulting in visual defects and blindness. There are currently no therapies in clinical use which can prevent RGC death in optic neuropathies; therefore, the identification of new targets for supporting RGC survival is crucial in the development of novel treatments for eye diseases. In this study we identify that the receptor tyrosine kinase, Tyro3, is crit…

0301 basic medicineinner plexiform layergenetic structuresdendritesNerve fiber layerTAM receptorelectroretinogramBiologyRetinal ganglionlcsh:RC321-57103 medical and health scienceschemistry.chemical_compound0302 clinical medicinemedicineOptic neuritislcsh:Neurosciences. Biological psychiatry. NeuropsychiatryOriginal ResearchRetinaoptical coherence tomographymedicine.diagnostic_testreceptor tyrosine kinasesGeneral NeuroscienceRetinalInner plexiform layermedicine.diseaseeye diseases030104 developmental biologymedicine.anatomical_structurechemistryRetinal ganglion cellsense organsNeuroscience030217 neurology & neurosurgeryNeuroscienceElectroretinographyFrontiers in Neuroscience
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2018

Maturation and aging are important life periods that are linked to drastic brain reorganization processes which are essential for mental health. However, the development of generalized theories for delimiting physiological and pathological brain remodeling through life periods linked to healthy states and resilience on one side or mental dysfunction on the other remains a challenge. Furthermore, important processes of preservation and compensation of brain function occur continuously in the cerebral brain networks and drive physiological responses to life events. Here, we review research on brain reorganization processes across the lifespan, demonstrating brain circuits remodeling at the st…

0301 basic medicinemedia_common.quotation_subjectMental dysfunctionBrain reorganizationMental healthPhysiological responses03 medical and health sciencesPsychiatry and Mental health030104 developmental biology0302 clinical medicinePsychological resilienceHealthy agingPsychologyPathologicalNeuroscience030217 neurology & neurosurgeryBrain functionmedia_commonFrontiers in Psychiatry
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Frequency-specific after-effects of transcranial alternating current stimulation (tACS) on motor learning: Preliminary data of a simultaneous tACS-EE…

2017

0301 basic medicinemedicine.diagnostic_testbusiness.industryGeneral NeuroscienceBiophysicsElectroencephalographylcsh:RC321-57103 medical and health sciences030104 developmental biology0302 clinical medicinemedicineNeurology (clinical)businessMotor learningNeurosciencelcsh:Neurosciences. Biological psychiatry. Neuropsychiatry030217 neurology & neurosurgeryTranscranial alternating current stimulationBrain Stimulation
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Acetaldehyde as the first hit of addictive behaviour

2016

Unhealthy alcohol use is common in the Western society, which puts risk of health consequences, causing multiple behavioural injuries. Increasing evidence focuses on acetaldehyde, the first metabolite of ethanol, as the mediator of the several behavioural actions of alcohol, including its rewarding and motivational effects. In particular, acetaldehyde induces dopamine release in the nucleus accumbens modulating primary alcohol rewarding effect, drug seeking, and relapse behaviour. Recent behavioural studies point at acetaldehyde as a drug of abuse since its oral self-administration is induced and maintained in an operant/conflict paradigm. These findings provide further evidence on the role…

0301 basic medicinemedicine.medical_specialtyAddictive behaviourmedia_common.quotation_subjectAlcohol abuseAlcoholAcetaldehydePlant SciencePharmacologyNucleus accumbensGeneral Biochemistry Genetics and Molecular BiologyEthanol-related effect03 medical and health scienceschemistry.chemical_compound0302 clinical medicineMediatorDopamineEthanol-related effectsAcetaldehyde; Addictive behaviour; Ethanol-related effects; Biochemistry Genetics and Molecular Biology (all); Plant Science; Biochemistry (medical)medicinePsychiatrylcsh:QH301-705.5media_commonBiochemistry Genetics and Molecular Biology (all)EthanolAddictionBiochemistry (medical)Acetaldehydemedicine.disease030104 developmental biologylcsh:Biology (General)chemistryPsychology030217 neurology & neurosurgerymedicine.drugJournal of Biological Research - Bollettino della Società Italiana di Biologia Sperimentale
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