0000000000273948

AUTHOR

Barbara Imbrosci

showing 6 related works from this author

Metaplasticity of horizontal connections in the vicinity of focal laser lesions in rat visual cortex

2010

Focal cortical injuries are accompanied by a reorganization of the adjacent neuronal networks. An increased synaptic plasticity has been suggested to mediate, at least in part, this functional reorganization. Previous studies showed an increased long-term potentiation (LTP) at synapses formed by ascending fibres projecting onto layers 2/3 pyramidal cells following lesions in rat visual cortex. This could be important to establish new functional connections within a vertical cortical column. Importantly, horizontal intracortical connections constitute an optimal substrate to mediate the functional reorganization across different cortical columns. However, so far little is known about their p…

PhysiologyChemistryLong-term potentiationLesionCellular mechanismmedicine.anatomical_structureVisual cortexCerebral cortexSynaptic plasticityMetaplasticitymedicinemedicine.symptomNeuroscienceCortical columnThe Journal of Physiology
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Acute Cortical Transhemispheric Diaschisis after Unilateral Traumatic Brain Injury

2017

Focal neocortical brain injuries lead to functional alterations, which can spread beyond lesion-neighboring brain areas. The undamaged hemisphere and its associated disturbances after a unilateral lesion, so-called transhemispheric diaschisis, have been progressively disclosed over the last decades; they are strongly involved in the pathophysiology and, potentially, recovery of brain injuries. Understanding the temporal dynamics of these transhemispheric functional changes is crucial to decipher the role of the undamaged cortex in the processes of functional reorganization at different stages post-lesion. In this regard, little is known about the acute-subacute processes after 24-48 h in th…

0301 basic medicinePatch-Clamp TechniquesTraumatic brain injurySomatosensory system03 medical and health sciences0302 clinical medicineCortex (anatomy)Unilateral lesionBrain Injuries TraumaticNeuroplasticitymedicineAnimalsDiaschisisNeuronal PlasticityMotor CortexElectroencephalographySomatosensory Cortexmedicine.diseaseMice Inbred C57BLDisease Models AnimalElectrophysiology030104 developmental biologymedicine.anatomical_structureBrain HemisphereNeurology (clinical)PsychologyNeuroscience030217 neurology & neurosurgeryJournal of Neurotrauma
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Focal Cortical Lesions Induce Bidirectional Changes in the Excitability of Fast Spiking and Non Fast Spiking Cortical Interneurons

2014

A physiological brain function requires neuronal networks to operate within a well-defined range of activity. Indeed, alterations in neuronal excitability have been associated with several pathological conditions, ranging from epilepsy to neuropsychiatric disorders. Changes in inhibitory transmission are known to play a key role in the development of hyperexcitability. However it is largely unknown whether specific interneuronal subpopulations contribute differentially to such pathological condition. In the present study we investigated functional alterations of inhibitory interneurons embedded in a hyperexcitable cortical circuit at the border of chronically induced focal lesions in mouse …

500 Naturwissenschaften und Mathematik::570 Biowissenschaften; Biologie570Neural NetworksPostsynaptic CurrentExcitotoxicity610lcsh:MedicineNeurophysiologyAction PotentialsNeural Homeostasis600 Technik Medizin angewandte Wissenschaften::610 Medizin und Gesundheitmedicine.disease_causeInhibitory postsynaptic potentialMiceEpilepsyInterneuronsmedicineBiological neural networkAnimalslcsh:ScienceVisual CortexCerebral CortexMembrane potentialMultidisciplinarymusculoskeletal neural and ocular physiologylcsh:RNeurotransmissionBiology and Life SciencesExcitatory Postsynaptic Potentialsmedicine.diseaseVisual cortexmedicine.anatomical_structurenervous systemCellular NeuroscienceExcitatory postsynaptic potentiallcsh:QNeuroscienceResearch ArticleNeurosciencePLoS ONE
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Modulatory effects of the novel TrkB receptor agonist 7,8-dihydroxyflavone on synaptic transmission and intrinsic neuronal excitability in mouse visu…

2013

7,8-Dihydroxyflavone (7,8 DHF) is a new recently identified TrkB receptor agonist, which possesses a potent neurotrophic activity and shares many physiological properties with the neurotrophin "Brain Derived Neurotrophic Factor" (BDNF). However, its precise mechanism of action at the cellular level has not been clarified yet. In the present study we explored the effects of this agent on synaptic and intrinsic neuronal properties by performing whole-cell patch clamp recordings from layer 2/3 pyramidal neurons. Incubation of acute cortical slices with 7,8-DHF (20 µM) for 30 min caused a selective reduction in the strength of GABAergic inhibition. The amplitude of evoked inhibitory postsynapti…

Agonistmedicine.drug_classNerve Tissue ProteinsTropomyosin receptor kinase BNeurotransmissionIn Vitro Techniques78-DihydroxyflavoneInhibitory postsynaptic potentialSynaptic TransmissionGlutamatergicMicemedicineElectric ImpedanceAnimalsReceptor trkBGABA-A Receptor AntagonistsGABAergic NeuronsProtein Kinase InhibitorsCells CulturedNootropic AgentsVisual CortexPharmacologyBrain-derived neurotrophic factorbiologyPyramidal CellsNeural InhibitionFlavonesReceptors GABA-AMice Inbred C57BLKineticsNeuroprotective Agentsbiology.proteinEvoked Potentials VisualNeuroscienceNeurotrophinEuropean journal of pharmacology
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Changes in NMDA-receptor function in the first week following laser-induced lesions in rat visual cortex.

2011

Focal brain injuries are accompanied by processes of functional reorganization that partially compensate the functional loss. In a previous study, extracellular recordings at the border of a laser-induced lesion in the visual cortex of rats showed an enhanced synaptic plasticity, which was mediated by the activity of NR2B-contaning NMDA-receptors (NMDARs) shedding light on the potential cellular mechanisms underlying this reorganization. Given the potentially important contribution of NMDARs in processes of functional reorganization, in the present study, we used the same lesion model to further investigate lesion-induced changes in function and localization of NMDARs in the vicinity of the…

Neuronal Plasticitymusculoskeletal neural and ocular physiologyCognitive NeuroscienceLasersBiologyReceptors N-Methyl-D-AspartateRatsLesionCellular and Molecular NeuroscienceGlutamatergicmedicine.anatomical_structureVisual cortexnervous systemCerebral cortexSynaptic plasticityNeuroplasticitymedicineNMDA receptorAnimalsmedicine.symptomRats WistarReceptorNeuroscienceVisual CortexCerebral cortex (New York, N.Y. : 1991)
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Postsynaptic NO/cGMP Increases NMDA Receptor Currents via Hyperpolarization-Activated Cyclic Nucleotide-Gated Channels in the Hippocampus

2013

The nitric oxide (NO)/cyclic guanosine monophosphate (cGMP) signaling cascade participates in the modulation of synaptic transmission. The effects of NO are mediated by the NO-sensitive cGMP-forming guanylyl cyclases (NO-GCs), which exist in 2 isoforms with indistinguishable regulatory properties. The lack of long-term potentiation (LTP) in knock-out (KO) mice deficient in either one of the NO-GC isoforms indicates the contribution of both NO-GCs to LTP. Recently, we showed that the NO-GC1 isoform is located presynaptically in glutamatergic neurons and increases the glutamate release via hyperpolarization-activated cyclic nucleotide (HCN)-gated channels in the hippocampus. Electrophysiologi…

Patch-Clamp TechniquesCognitive NeuroscienceLong-Term PotentiationIn Vitro TechniquesNeurotransmissionNitric OxideReceptors N-Methyl-D-AspartateMiceCellular and Molecular Neurosciencechemistry.chemical_compoundCyclic nucleotidePostsynaptic potentialHyperpolarization-Activated Cyclic Nucleotide-Gated ChannelsHCN channelAnimalsAnesthetics LocalCA1 Region HippocampalCyclic GMPCyclic guanosine monophosphateMice KnockoutNeuronsbiologyLidocaineTetraethylammoniumLong-term potentiationHyperpolarization (biology)Electric StimulationPyrimidinesAnimals Newbornnervous systemchemistryGuanylate CyclaseBiophysicsbiology.proteinNMDA receptorExcitatory Amino Acid AntagonistsNeuroscienceCerebral Cortex
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