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Neuronal circuits overcome imbalance in excitation and inhibition by adjusting connection numbers

N Sukenik, O Vinogradov, Eyal Weinreb, Menahem Segal, Anna Levina, Elisha Moses

2021Proceedings of the National Academy of Sciences114 citationsDOIOpen Access PDF

Abstract

The interplay between excitation and inhibition is crucial for neuronal circuitry in the brain. Inhibitory cell fractions in the neocortex and hippocampus are typically maintained at 15 to 30%, which is assumed to be important for stable dynamics. We have studied systematically the role of precisely controlled excitatory/inhibitory (E/I) cellular ratios on network activity using mice hippocampal cultures. Surprisingly, networks with varying E/I ratios maintain stable bursting dynamics. Interburst intervals remain constant for most ratios, except in the extremes of 0 to 10% and 90 to 100% inhibitory cells. Single-cell recordings and modeling suggest that networks adapt to chronic alterations of E/I compositions by balancing E/I connectivity. Gradual blockade of inhibition substantiates the agreement between the model and experiment and defines its limits. Combining measurements of population and single-cell activity with theoretical modeling, we provide a clearer picture of how E/I balance is preserved and where it fails in living neuronal networks.

Topics & Concepts

Connection (principal bundle)Electronic circuitExcitationNeuroscienceComputer sciencePsychologyElectrical engineeringMathematicsEngineeringGeometryNeural dynamics and brain functionNeuroscience and Neural EngineeringEEG and Brain-Computer Interfaces
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