J
Jacques Glowinski
Researcher at Collège de France
Publications - 569
Citations - 41753
Jacques Glowinski is an academic researcher from Collège de France. The author has contributed to research in topics: Dopamine & Dopaminergic. The author has an hindex of 110, co-authored 569 publications receiving 41245 citations. Previous affiliations of Jacques Glowinski include French Institute of Health and Medical Research & Institut de Chimie des Substances Naturelles.
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Selective activation of mesocortical DA system by stress.
TL;DR: The results suggest that the mesocortical DA system is selectively activated by this stress induced by electric foot shocks, and the antipsychotic effects of neuroleptics are in part related to the blockade of postsynaptic DA receptors localised in areas innervated by the mesolimbic and mesocORTical DA systems.
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Identification of presynaptic serotonin autoreceptors using a new ligand: 3H-PAT.
TL;DR: 3H-PAT seems to be a useful ligand for studying the biochemical and pharmacological characteristics of presynaptic autoreceptors in selected regions of rat brain.
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Dendritic release of dopamine in the substantia nigra
TL;DR: Dopamine can be released in the substantia nigra from the dendrites of nigrostriatal dopaminergic neurones to be involved there in the self-regulation of the dopamina cells, to control the release of neurotransmitters from nigral afferent fibres and to influence the activity of nigral non-dopaminergic cells.
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Astrocytes protect neurons from hydrogen peroxide toxicity
TL;DR: Astrocytes could delay neuronal death in pathological situations in which H2O2 has been, at least partially, demonstrated to be involved, according to reports on neurons particularly sensitive to hydrogen peroxide.
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Hippocampo-prefrontal cortex pathway: anatomical and electrophysiological characteristics.
TL;DR: The direct and/or indirect relationships of the hippocampus, prefrontal cortex, and nucleus accumbens with the ventral tegmental area/substantia nigra pars compacta complex (VTA/SNC) will also be described, because these neurons are known to modulate synaptic transmission and plasticity in their target structures and to play a fundamental role in motivational processes.