Neuronal activity in vitro and the in vivo reality: the role of energy homeostasis.
about
Lactate Effectively Covers Energy Demands during Neuronal Network Activity in Neonatal Hippocampal SlicesLactate as a Signaling Molecule That Regulates Exercise-Induced AdaptationsLactate promotes plasticity gene expression by potentiating NMDA signaling in neurons.GABA is an effective immunomodulatory molecule.Questioning the depolarizing effects of GABA during early brain development.GABAergic transmission and chloride equilibrium potential are not modulated by pyruvate in the developing optic tectum of Xenopus laevis tadpoles.Excitatory GABA: How a Correct Observation May Turn Out to be an Experimental Artifact.Organotypic brain slice cultures of adult transgenic P301S mice--a model for tauopathy studies.Alzheimer's disease: the amyloid hypothesis and the Inverse Warburg effect.Emerging themes in GABAergic synapse developmentCritical state of energy metabolism in brain slices: the principal role of oxygen delivery and energy substrates in shaping neuronal activity.Neuronal medium that supports basic synaptic functions and activity of human neurons in vitro.Synaptic activity-induced Ca(2+) signaling in avian cochlear nucleus magnocellularis neurons.Brain and behavioral perturbations in rats following Western diet access.Refuting the challenges of the developmental shift of polarity of GABA actions: GABA more exciting than ever!Cerebrospinal fluid lactate is associated with multiple sclerosis disease progression.Chronic Pyruvate Supplementation Increases Exploratory Activity and Brain Energy Reserves in Young and Middle-Aged Mice.Effects of low doses of bisphenol A on the metabolome of perinatally exposed CD-1 miceNitric oxide from brain microvascular endothelial cells may initiate the compensatory response to mild hypoxia of astrocytes in a hypoxia-inducible factor-1α dependent manner.Glycolysis and oxidative phosphorylation in neurons and astrocytes during network activity in hippocampal slices.Excitatory action of GABA on immature neurons is not due to absence of ketone bodies metabolites or other energy substrates.Cellular Links between Neuronal Activity and Energy Homeostasis.Recent progress in GABAergic excitation from mature brain.GABA-activated single-channel and tonic currents in rat brain slices.Role of the gut microbiota in host appetite control: bacterial growth to animal feeding behaviour.The energy demand of fast neuronal network oscillations: insights from brain slice preparations.Neuronal Progenitor Maintenance Requires Lactate Metabolism and PEPCK-M-Directed Cataplerosis.Metabolic responses differentiate between interictal, ictal and persistent epileptiform activity in intact, immature hippocampus in vitro.Critical role for resource constraints in neural models.Isocitrate supplementation promotes breathing generation, gasping, and autoresuscitation in neonatal mice.Chronic inhibition of brain glycolysis initiates epileptogenesis.Dietary energy substrates reverse early neuronal hyperactivity in a mouse model of Alzheimer's disease.Glucose is an adequate energy substrate for the depolarizing action of GABA and glycine in the neonatal rat spinal cord in vitro.Glucose and lactate as metabolic constraints on presynaptic transmission at an excitatory synapse.Commentary: GABA Depolarizes Immature Neurons and Inhibits Network Activity in the Neonatal Neocortex In vivo.
P2860
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P2860
Neuronal activity in vitro and the in vivo reality: the role of energy homeostasis.
description
2010 nî lūn-bûn
@nan
2010 թուականի Յուլիսին հրատարակուած գիտական յօդուած
@hyw
2010 թվականի հուլիսին հրատարակված գիտական հոդված
@hy
2010年の論文
@ja
2010年論文
@yue
2010年論文
@zh-hant
2010年論文
@zh-hk
2010年論文
@zh-mo
2010年論文
@zh-tw
2010年论文
@wuu
name
Neuronal activity in vitro and the in vivo reality: the role of energy homeostasis.
@ast
Neuronal activity in vitro and the in vivo reality: the role of energy homeostasis.
@en
Neuronal activity in vitro and the in vivo reality: the role of energy homeostasis.
@nl
type
label
Neuronal activity in vitro and the in vivo reality: the role of energy homeostasis.
@ast
Neuronal activity in vitro and the in vivo reality: the role of energy homeostasis.
@en
Neuronal activity in vitro and the in vivo reality: the role of energy homeostasis.
@nl
prefLabel
Neuronal activity in vitro and the in vivo reality: the role of energy homeostasis.
@ast
Neuronal activity in vitro and the in vivo reality: the role of energy homeostasis.
@en
Neuronal activity in vitro and the in vivo reality: the role of energy homeostasis.
@nl
P1476
Neuronal activity in vitro and the in vivo reality: the role of energy homeostasis.
@en
P2093
Piotr Bregestovski
Tanya Zilberter
P304
P356
10.1016/J.TIPS.2010.06.005
P577
2010-07-14T00:00:00Z