Thalamoreticular circuitry plays a key role in arousal, attention, cognition, and sleep spindles, and is linked to several brain disorders. A detailed computational model of mouse somatosensory thalamus and thalamic reticular nucleus has been developed to capture the properties of over 14,000 neurons connected by 6 million synapses. The model recreates the biological connectivity of these neurons, and simulations of the model reproduce multiple experimental findings in different brain states. The model shows that inhibitory rebound produces frequency-selective enhancement of thalamic responses during wakefulness. We find that thalamic interactions are responsible for the characteristic waxing and waning of spindle oscillations. In addition, we find that changes in thalamic excitability control spindle frequency and their incidence. The model is made openly available to provide a new tool for studying the function and dysfunction of the thala-moreticular circuitry in various brain states.
Thalamic control of sensory processing and spindles in a biophysical somatosensory thalamoreticular circuit model of wakefulness and sleep / Iavarone, Elisabetta; Simko, Jane; Shi, Ying; Bertschy, Marine; García-Amado, María; Litvak, Polina; Kaufmann, Anna-Kristin; O'Reilly, Christian; Amsalem, Oren; Abdellah, Marwan; Chevtchenko, Grigori; Coste, Benoît; Courcol, Jean-Denis; Ecker, András; Favreau, Cyrille; Fleury, Adrien Christian; Van Geit, Werner; Gevaert, Michael; Guerrero, Nadir Román; Herttuainen, Joni; Ivaska, Genrich; Kerrien, Samuel; King, James G.; Kumbhar, Pramod; Lurie, Patrycja; Magkanaris, Ioannis; Muddapu, Vignayanandam Ravindernath; Nair, Jayakrishnan; Pereira, Fernando L.; Perin, Rodrigo; Petitjean, Fabien; Ranjan, Rajnish; Reimann, Michael; Soltuzu, Liviu; Sy, Mohameth François; Tuncel, M. Anıl; Ulbrich, Alexander; Wolf, Matthias; Clascá, Francisco; Markram, Henry; Hill, Sean L.. - In: CELL REPORTS. - ISSN 2211-1247. - 42:3(2023). [10.1016/j.celrep.2023.112200]
Thalamic control of sensory processing and spindles in a biophysical somatosensory thalamoreticular circuit model of wakefulness and sleep
Soltuzu, Liviu;
2023-01-01
Abstract
Thalamoreticular circuitry plays a key role in arousal, attention, cognition, and sleep spindles, and is linked to several brain disorders. A detailed computational model of mouse somatosensory thalamus and thalamic reticular nucleus has been developed to capture the properties of over 14,000 neurons connected by 6 million synapses. The model recreates the biological connectivity of these neurons, and simulations of the model reproduce multiple experimental findings in different brain states. The model shows that inhibitory rebound produces frequency-selective enhancement of thalamic responses during wakefulness. We find that thalamic interactions are responsible for the characteristic waxing and waning of spindle oscillations. In addition, we find that changes in thalamic excitability control spindle frequency and their incidence. The model is made openly available to provide a new tool for studying the function and dysfunction of the thala-moreticular circuitry in various brain states.| File | Dimensione | Formato | |
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