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Norepinephrine links astrocytic activity to regulation of cortical state.

Nature neuroscience (2023-03-31)
Michael E Reitman, Vincent Tse, Xuelong Mi, Drew D Willoughby, Alba Peinado, Alexander Aivazidis, Bat-Erdene Myagmar, Paul C Simpson, Omer A Bayraktar, Guoqiang Yu, Kira E Poskanzer
RESUMEN

Cortical state, defined by population-level neuronal activity patterns, determines sensory perception. While arousal-associated neuromodulators-including norepinephrine (NE)-reduce cortical synchrony, how the cortex resynchronizes remains unknown. Furthermore, general mechanisms regulating cortical synchrony in the wake state are poorly understood. Using in vivo imaging and electrophysiology in mouse visual cortex, we describe a critical role for cortical astrocytes in circuit resynchronization. We characterize astrocytes' calcium responses to changes in behavioral arousal and NE, and show that astrocytes signal when arousal-driven neuronal activity is reduced and bi-hemispheric cortical synchrony is increased. Using in vivo pharmacology, we uncover a paradoxical, synchronizing response to Adra1a receptor stimulation. We reconcile these results by demonstrating that astrocyte-specific deletion of Adra1a enhances arousal-driven neuronal activity, while impairing arousal-related cortical synchrony. Our findings demonstrate that astrocytic NE signaling acts as a distinct neuromodulatory pathway, regulating cortical state and linking arousal-associated desynchrony to cortical circuit resynchronization.

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Sigma-Aldrich
Anticuerpo anti-NeuN, clon A60, clone A60, Chemicon®, from mouse
Sigma-Aldrich
Anticuerpo anti-NeuN (conejo), from rabbit, purified by affinity chromatography
Sigma-Aldrich
Anti-S100 Beta antibody, Rabbit monoclonal, clone SP127, recombinant, expressed in proprietary host, affinity isolated antibody