Search results for "Volume transmission"

showing 3 items of 3 documents

Modulation of Hippocampal Circuits by Muscarinic and Nicotinic Receptors

2017

This article provides a review of the effects of activation of muscarinic and nicotinic receptors on the physiological properties of circuits in the hippocampal formation. Previous articles have described detailed computational hypotheses about the role of cholinergic neuromodulation in enhancing the dynamics for encoding in cortical structures and the role of reduced cholinergic modulation in allowing consolidation of previously encoded information. This article will focus on addressing the broad scope of different modulatory effects observed within hippocampal circuits, highlighting the heterogeneity of cholinergic modulation in terms of the physiological effects of activation of muscarin…

0301 basic medicinevolume transmissioncholinergic fibersCognitive NeuroscienceNeuroscience (miscellaneous)ReviewHippocampal formationReceptors NicotinicCholinergic modulationHippocampuslcsh:RC321-571tonic depolarization03 medical and health sciencesCellular and Molecular Neuroscience0302 clinical medicineNeuromodulationMuscarinic acetylcholine receptorNeural PathwaysmedicineAnimalsHumanslcsh:Neurosciences. Biological psychiatry. NeuropsychiatryCholinergic FibersNicotinic ReceptorsChemistrypresynaptic inhibitionReceptors MuscarinicacetylcholineSensory Systems030104 developmental biologymedicine.anatomical_structureCholinergicNeuroscience030217 neurology & neurosurgeryAcetylcholinemedicine.drugNeuroscienceFrontiers in Neural Circuits
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From the Golgi-Cajal mapping to the transmitter-based characterization of the neuronal networks leading to two modes of brain communication: Wiring a…

2007

After Golgi-Cajal mapped neural circuits, the discovery and mapping of the central monoamine neurons opened up for a new understanding of interneuronal communication by indicating that another form of communication exists. For instance, it was found that dopamine may be released as a prolactin inhibitory factor from the median eminence, indicating an alternative mode of dopamine communication in the brain. Subsequently, the analysis of the locus coeruleus noradrenaline neurons demonstrated a novel type of lower brainstem neuron that monosynaptically and globally innervated the entire CNS. Furthermore, the ascending raphe serotonin neuron systems were found to globally innervate the forebrai…

DopamineTortuosityBrain functionWiring transmissionSynaptic TransmissionDiffusionDual probe microdialysisMicrofluorimetrychemistry.chemical_compoundCatecholaminesPressure gradientsVolume transmissionHistofluorescenceLocus coeruleusExtracellular spaceNeurological and mental disordersNeurotransmitterNeuronsNeurotransmitter AgentsGeneral NeuroscienceBrain5-HydroxytryptamineAmygdalamedicine.anatomical_structure5-Hydroxytryptamine; Amygdala; Brain function; Brain uncoupling protein-2; Catecholamines; CA turnover; Clearance; Diffusion; Dopamine; Dorsal raphe; Dual probe microdialysis; Extracellular space; Extrasynaptic receptors; Histofluorescence; Local circuits; Locus coeruleus; Mapping of monoamine neurons; Microdensitometry; Microfluorimetry; Neurological and mental disorders; Noradrenaline; Nucleus accumbens; Pressure gradients; Receptor mosaics; Receptor–receptor interactions; Substantia nigra; Thermal gradients; Tortuosity; Transmitter–receptor mismatches; Volume fraction; Volume transmission; Wiring transmissionClearanceNucleus accumbensCA turnoverLocal circuitsReceptor–receptor interactionsSilver StainingMapping of monoamine neuronsModels NeurologicalNeurotransmissionBiologySerotonergicSubstantia nigramedicineBiological neural networkAnimalsHumansThermal gradientsTransmitter–receptor mismatchesVolume fractionExtrasynaptic receptorsMonoamine neurotransmitterchemistryReceptor mosaicsForebrainNoradrenalineLocus coeruleusBrain uncoupling protein-2Neurology (clinical)NeuronNerve NetMicrodensitometry5-Hydroxytryptamine Amygdala Brain function Brain uncoupling protein-2 Catecholamines CA turnover Clearance DiffusionNeuroscienceDorsal raphe
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Cell-to-Cell Communication in Learning and Memory: From Neuro- and Glio-Transmission to Information Exchange Mediated by Extracellular Vesicles

2019

Most aspects of nervous system development and function rely on the continuous crosstalk between neurons and the variegated universe of non-neuronal cells surrounding them. The most extraordinary property of this cellular community is its ability to undergo adaptive modifications in response to environmental cues originating from inside or outside the body. Such ability, known as neuronal plasticity, allows long-lasting modifications of the strength, composition and efficacy of the connections between neurons, which constitutes the biochemical base for learning and memory. Nerve cells communicate with each other through both wiring (synaptic) and volume transmission of signals. It is by now…

0301 basic medicineNervous systemCell CommunicationReviewSynaptic Transmissiontetrapartite synapseRegulatory moleculesmemorylcsh:Chemistry0302 clinical medicineCell to cell communicationSettore BIO/10 - BiochimicaSettore BIO/06 - Anatomia Comparata E Citologialcsh:QH301-705.5SpectroscopyNeuronsDrug CarriersNeuronal PlasticitylearningBrainGeneral Medicineglial cellsComputer Science ApplicationsCrosstalk (biology)medicine.anatomical_structureNerve cellsextracellular vesiclesNeurogliavolume transmissionBiologytripartite synapsisExtracellular vesiclesCatalysisInorganic Chemistry03 medical and health sciencesNeuroplasticitymedicineAnimalsHumansPhysical and Theoretical ChemistryMolecular BiologyMemory Disorderssynaptic plasticityOrganic Chemistryglial cellwiring transmissionBiological Transport030104 developmental biologylcsh:Biology (General)lcsh:QD1-999nervous systemAstrocytesSynapsesSynaptic plasticitytripartite synapsiextracellular vesiclesynaptic plasticity.NeuroscienceBiomarkers030217 neurology & neurosurgeryInternational Journal of Molecular Sciences
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