N
Norbert Hájos
Researcher at Hungarian Academy of Sciences
Publications - 67
Citations - 9188
Norbert Hájos is an academic researcher from Hungarian Academy of Sciences. The author has contributed to research in topics: Inhibitory postsynaptic potential & Interneuron. The author has an hindex of 42, co-authored 65 publications receiving 8605 citations. Previous affiliations of Norbert Hájos include University of Oxford & University of California, Los Angeles.
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Journal ArticleDOI
Differences between somatic and dendritic inhibition in the hippocampus
Richard B. Miles,Katalin Tóth,Katalin Tóth,Attila I. Gulyás,Attila I. Gulyás,Norbert Hájos,Tamás F. Freund +6 more
TL;DR: Hippocampal synaptic inhibition is mediated by distinct groups of inhibitory cells that may differentially control dendritic electrogenesis and axonal output of hippocampal pyramidal cells.
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Distribution of CB1 cannabinoid receptors in the amygdala and their role in the control of GABAergic transmission
István Katona,Ede A. Rancz,László Acsády,Catherine Ledent,Ken Mackie,Norbert Hájos,Tamás F. Freund +6 more
TL;DR: It is proposed that these anatomical and physiological features, characteristic of CB1 receptors in several forebrain regions, represent the neuronal substrate for endocannabinoids involved in retrograde synaptic signaling and may explain some of the emotionally relevant behavioral effects of cannabinoid exposure.
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Cannabinoids inhibit hippocampal GABAergic transmission and network oscillations.
Norbert Hájos,István Katona,S S Naiem,Ken Mackie,Catherine Ledent,Istvan Mody,Tamás F. Freund +6 more
TL;DR: It is concluded that activation of presynaptic CB1 receptors decreases Ca2+‐dependent GABA release, and thereby reduces the power of hippocampal network oscillations.
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Interneurons Containing Calretinin Are Specialized to Control Other Interneurons in the Rat Hippocampus
TL;DR: The unique connectivity of CR-IR cells may enable them to play a crucial role in the generation of synchronous, rhythmic hippocampal activity by controlling other interneurons terminating on different dendritic and somatic compartments of principal cells.
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Increased number of synaptic GABA A receptors underlies potentiation at hippocampal inhibitory synapses
TL;DR: The postsynaptic insertion of new GABAA receptors and the corresponding increase in post Synaptic responses augmenting the efficacy of mammalian inhibitory synapses are established.