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

Julian Karpf; Petr Unichenko; Nicholas Chalmers; Felix Beyer; Marie-Theres Wittmann; Julia Schneider; Elif Fidan; Andre Reis; Jan Beckervordersandforth; Sebastian Brandner; Stefan Liebner; Sven Falk; Andreas Sagner; Christian Henneberger; Ruth Beckervordersandforth

doi:10.1038/s41593-022-01192-5

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

Julian Karpf, Petr Unichenko, Nicholas Chalmers, Felix Beyer, Marie-Theres Wittmann, Julia Schneider, Elif Fidan, Andre Reis, Jan Beckervordersandforth, Sebastian Brandner, Stefan Liebner, Sven Falk, Andreas Sagner, Christian Henneberger, Ruth Beckervordersandforth^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

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.

Original language	English
Pages (from-to)	1626-1638
Number of pages	13
Journal	Nature Neuroscience
Volume	25
Issue number	12
DOIs	https://doi.org/10.1038/s41593-022-01192-5
Publication status	Published - 28 Nov 2022

Keywords

Adult
Humans
Animals
Mice
Astrocytes
Neuroglia
Hippocampus
Brain
Dentate Gyrus

Access to Document

10.1038/s41593-022-01192-5

Cite this

Karpf, J., Unichenko, P., Chalmers, N., Beyer, F., Wittmann, M.-T., Schneider, J., Fidan, E., Reis, A., Beckervordersandforth, J., Brandner, S., Liebner, S., Falk, S., Sagner, A., Henneberger, C., & Beckervordersandforth, R. (2022). Dentate gyrus astrocytes exhibit layer-specific molecular, morphological and physiological features. Nature Neuroscience, 25(12), 1626-1638. https://doi.org/10.1038/s41593-022-01192-5

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

abstract = "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.",

keywords = "Adult, Humans, Animals, Mice, Astrocytes, Neuroglia, Hippocampus, Brain, Dentate Gyrus",

author = "Julian Karpf and Petr Unichenko and Nicholas Chalmers and Felix Beyer and Marie-Theres Wittmann and Julia Schneider and Elif Fidan and Andre Reis and Jan Beckervordersandforth and Sebastian Brandner and Stefan Liebner and Sven Falk and Andreas Sagner and Christian Henneberger and Ruth Beckervordersandforth",

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Karpf, J, Unichenko, P, Chalmers, N, Beyer, F, Wittmann, M-T, Schneider, J, Fidan, E, Reis, A, Beckervordersandforth, J, Brandner, S, Liebner, S, Falk, S, Sagner, A, Henneberger, C & Beckervordersandforth, R 2022, 'Dentate gyrus astrocytes exhibit layer-specific molecular, morphological and physiological features', Nature Neuroscience, vol. 25, no. 12, pp. 1626-1638. https://doi.org/10.1038/s41593-022-01192-5

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T1 - Dentate gyrus astrocytes exhibit layer-specific molecular, morphological and physiological features

AU - Karpf, Julian

AU - Unichenko, Petr

AU - Chalmers, Nicholas

AU - Beyer, Felix

AU - Wittmann, Marie-Theres

AU - Schneider, Julia

AU - Fidan, Elif

AU - Reis, Andre

AU - Beckervordersandforth, Jan

AU - Brandner, Sebastian

AU - Liebner, Stefan

AU - Falk, Sven

AU - Sagner, Andreas

AU - Henneberger, Christian

AU - Beckervordersandforth, Ruth

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AB - 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.

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KW - Humans

KW - Animals

KW - Mice

KW - Astrocytes

KW - Neuroglia

KW - Hippocampus

KW - Brain

KW - Dentate Gyrus

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