Astrocytes adjust the dynamic range of cortical network activity to control modality-specific sensory information processing

Claudia Miguel-Quesada; Marta Zaforas; Salvador Herrera-Pérez; Justin Lines; Elena Fernández-López; Elena Alonso-Calviño; Maria Ardaya; Federico N. Soria; Alfonso Araque; Juan Aguilar; Juliana M. Rosa

doi:10.1016/j.celrep.2023.112950

Astrocytes adjust the dynamic range of cortical network activity to control modality-specific sensory information processing

Claudia Miguel-Quesada, Marta Zaforas, Salvador Herrera-Pérez, Justin Lines, Elena Fernández-López, Elena Alonso-Calviño, Maria Ardaya, Federico N. Soria, Alfonso Araque, Juan Aguilar, Juliana M. Rosa

Neuroscience

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

3 Scopus citations

Abstract

Cortical neuron-astrocyte communication in response to peripheral sensory stimulation occurs in a topographic-, frequency-, and intensity-dependent manner. However, the contribution of this functional interaction to the processing of sensory inputs and consequent behavior remains unclear. We investigate the role of astrocytes in sensory information processing at circuit and behavioral levels by monitoring and manipulating astrocytic activity in vivo. We show that astrocytes control the dynamic range of the cortical network activity, optimizing its responsiveness to incoming sensory inputs. The astrocytic modulation of sensory processing contributes to setting the detection threshold for tactile and thermal behavior responses. The mechanism of such astrocytic control is mediated through modulation of inhibitory transmission to adjust the gain and sensitivity of responding networks. These results uncover a role for astrocytes in maintaining the cortical network activity in an optimal range to control behavior associated with specific sensory modalities.

Original language	English (US)
Article number	112950
Journal	Cell reports
Volume	42
Issue number	8
DOIs	https://doi.org/10.1016/j.celrep.2023.112950
State	Published - Aug 29 2023

Bibliographical note

Publisher Copyright:
© 2023 The Author(s)

Keywords

astrocyte
cortical network activity
CP: Cell biology
CP: Neuroscience
dynamic range
sensory information processing
sensory specific modalities

PubMed: MeSH publication types

Journal Article
Research Support, Non-U.S. Gov't

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Miguel-Quesada, C., Zaforas, M., Herrera-Pérez, S., Lines, J., Fernández-López, E., Alonso-Calviño, E., Ardaya, M., Soria, F. N., Araque, A., Aguilar, J., & Rosa, J. M. (2023). Astrocytes adjust the dynamic range of cortical network activity to control modality-specific sensory information processing. Cell reports, 42(8), Article 112950. https://doi.org/10.1016/j.celrep.2023.112950

Miguel-Quesada, C, Zaforas, M, Herrera-Pérez, S, Lines, J, Fernández-López, E, Alonso-Calviño, E, Ardaya, M, Soria, FN, Araque, A, Aguilar, J & Rosa, JM 2023, 'Astrocytes adjust the dynamic range of cortical network activity to control modality-specific sensory information processing', Cell reports, vol. 42, no. 8, 112950. https://doi.org/10.1016/j.celrep.2023.112950

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abstract = "Cortical neuron-astrocyte communication in response to peripheral sensory stimulation occurs in a topographic-, frequency-, and intensity-dependent manner. However, the contribution of this functional interaction to the processing of sensory inputs and consequent behavior remains unclear. We investigate the role of astrocytes in sensory information processing at circuit and behavioral levels by monitoring and manipulating astrocytic activity in vivo. We show that astrocytes control the dynamic range of the cortical network activity, optimizing its responsiveness to incoming sensory inputs. The astrocytic modulation of sensory processing contributes to setting the detection threshold for tactile and thermal behavior responses. The mechanism of such astrocytic control is mediated through modulation of inhibitory transmission to adjust the gain and sensitivity of responding networks. These results uncover a role for astrocytes in maintaining the cortical network activity in an optimal range to control behavior associated with specific sensory modalities.",

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AU - Fernández-López, Elena

AU - Alonso-Calviño, Elena

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AU - Soria, Federico N.

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Astrocytes adjust the dynamic range of cortical network activity to control modality-specific sensory information processing

Abstract

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Keywords

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