0000000000051528

AUTHOR

Magor L. Lorincz

0000-0001-5240-1904

showing 2 related works from this author

Enhanced tonic GABAA inhibition in typical absence epilepsy

2009

The cellular mechanisms underlying typical absence seizures, which characterize various idiopathic generalized epilepsies, are not fully understood, but impaired γ-aminobutyric acid (GABA)-ergic inhibition remains an attractive hypothesis. In contrast, we show here that extrasynaptic GABAA receptor–dependent 'tonic' inhibition is increased in thalamocortical neurons from diverse genetic and pharmacological models of absence seizures. Increased tonic inhibition is due to compromised GABA uptake by the GABA transporter GAT-1 in the genetic models tested, and GAT-1 is crucial in governing seizure genesis. Extrasynaptic GABAA receptors are a requirement for seizures in two of the best character…

GABA Plasma Membrane Transport ProteinsGABA Plasma Membrane Transport ProteinsCellular pathologystargazerBiologyPharmacologytonic currentSettore BIO/09 - FisiologiaArticleGeneral Biochemistry Genetics and Molecular BiologyTonic (physiology)spike–and–wave discharge03 medical and health sciencesEpilepsy0302 clinical medicineThalamusthalamusGenetic modelmedicineAnimalsGABA transporterGABA-A Receptor AntagonistsReceptorTHIP030304 developmental biology0303 health sciencesextrasynaptic tonic current GAT–1 thalamus spike–and–wave discharge GAERS stargazer lethargic GHB THIPGABAA receptorAminobutyratesPetit mal epilepsyGeneral Medicineextrasynapticmedicine.diseaseReceptors GABA-ARats3. Good healthEpilepsy Absenceabsence epilepsy GABA electrophysiology patch clampnervous systemGAT–1GAERSbiology.proteinlethargicGHB030217 neurology & neurosurgery
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Novel modes of rhythmic burst firing at cognitively-relevant frequencies in thalamocortical neurons.

2008

It is now widely accepted that certain types of cognitive functions are intimately related to synchronized neuronal oscillations at both low (alpha/theta) (4-7/8-13 Hz) and high (beta/gamma) (18-35/30-70 Hz) frequencies. The thalamus is a key participant in many of these oscillations, yet the cellular mechanisms by which this participation occurs are poorly understood. Here we describe how, under appropriate conditions, thalamocortical (TC) neurons from different nuclei can exhibit a wide array of largely unrecognised intrinsic oscillatory activities at a range of cognitively-relevant frequencies. For example, both metabotropic glutamate receptor (mGluR) and muscarinic Ach receptor (mAchR) …

Periodicity* Cognition* Acetylcholine; * Metabotropic glutamate receptor; * Lateral geniculate nucleus; * Intralaminar nucleus; * Oscillations; * EEG; * Cognition; * Perception; * Memory* EEGAction PotentialsSettore BIO/09 - FisiologiaIon ChannelsArticle* PerceptionBurstingThalamusBiological Clocks* Lateral geniculate nucleuMuscarinic acetylcholine receptorNeural PathwaysmedicineAnimalsHumans* Metabotropic glutamate receptorMolecular BiologyCerebral CortexNeurons* OscillationChemistryGeneral Neuroscience* Intralaminar nucleuGlutamate receptorReceptors NeurotransmitterElectrophysiology* MemoryMetabotropic receptormedicine.anatomical_structure* AcetylcholineMetabotropic glutamate receptorWakefulnessNeurology (clinical)NeuronNeuroscienceDevelopmental Biology
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