Dentate gyrus astrocytes exhibit layer-specific molecular, morphological and physiological features

Dentate gyrus astrocytes exhibit layer-specific molecular, morphological and physiological features

Neuronal heterogeneity has been established as a pillar of higher central nervous system function, but glial heterogeneity and its implications for neural circuit function are poorly understood. Here we show that the adult mouse dentate gyrus (DG) of the hippocampus is populated by molecularly disti...

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Veröffentlicht in:Nature neuroscience 2022-12, Vol.25 (12), p.1626-1638
Hauptverfasser: Karpf, Julian, Unichenko, Petr, Chalmers, Nicholas, Beyer, Felix, Wittmann, Marie-Theres, Schneider, Julia, Fidan, Elif, Reis, Andre, Beckervordersandforth, Jan, Brandner, Sebastian, Liebner, Stefan, Falk, Sven, Sagner, Andreas, Henneberger, Christian, Beckervordersandforth, Ruth
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631/378/2596/1308
631/378/340
Adult
Animal Genetics and Genomics
Animals
Astrocytes
Behavioral Sciences
Biological Techniques
Biomedical and Life Sciences
Biomedicine
Brain
Central nervous system
Circuits
Compartments
Dentate Gyrus
Glutamic acid transporter
Heterogeneity
Hippocampus
Humans
Mice
Morphology
Neurobiology
Neuroglia
Neuronal-glial interactions
Neurosciences
Physiology
Syncytia
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container_end_page 1638
container_issue 12
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container_title Nature neuroscience
container_volume 25
creator Karpf, Julian
Unichenko, Petr
Chalmers, Nicholas
Beyer, Felix
Wittmann, Marie-Theres
Schneider, Julia
Fidan, Elif
Reis, Andre
Beckervordersandforth, Jan
Brandner, Sebastian
Liebner, Stefan
Falk, Sven
Sagner, Andreas
Henneberger, Christian
Beckervordersandforth, Ruth
description Neuronal heterogeneity has been established as a pillar of higher central nervous system function, but glial heterogeneity and its implications for neural circuit function are poorly understood. Here we show that the adult mouse dentate gyrus (DG) of the hippocampus is populated by molecularly distinct astrocyte subtypes that are associated with distinct DG layers. Astrocytes localized to different DG compartments also exhibit subtype-specific morphologies. Physiologically, astrocytes in upper DG layers form large syncytia, while those in lower DG compartments form smaller networks. Astrocyte subtypes differentially express glutamate transporters, which is associated with different amplitudes of glutamate transporter-mediated currents. Key molecular and morphological features of astrocyte diversity in the mice DG are conserved in humans. This adds another layer of complexity to our understanding of brain network composition and function, which will be crucial for further studies on astrocytes in health and disease. Karpf et al. showed that distinct layers of the adult human and mouse DG are populated by astrocytes, which exhibit a subtype-specific molecular profile and morphology, leading to subtype-specific physiological characteristics.
doi_str_mv 10.1038/s41593-022-01192-5
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631/378/340
Adult
Animal Genetics and Genomics
Animals
Astrocytes
Behavioral Sciences
Biological Techniques
Biomedical and Life Sciences
Biomedicine
Brain
Central nervous system
Circuits
Compartments
Dentate Gyrus
Glutamic acid transporter
Heterogeneity
Hippocampus
Humans
Mice
Morphology
Neurobiology
Neuroglia
Neuronal-glial interactions
Neurosciences
Physiology
Syncytia
title Dentate gyrus astrocytes exhibit layer-specific molecular, morphological and physiological features
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