Removal of the extracellular matrix biases auditory cortical layer dynamics towards supragranular frequency integration

Abstract

AbstractIn the adult vertebrate brain, enzymatic removal of the extracellular matrix (ECM) is increasingly recognized to promote learning, memory recall, and restorative plasticity. However, the underlying impact of local removal of the ECM on cortical circuit processing is still not understood. Here, we removed the ECM in the primary auditory cortex (ACx) of adult Mongolian gerbils using local injections of hyaluronidase (HYase). Using laminar current-source density (CSD) analysis, we found layer-specific changes of the spatiotemporal synaptic activity patterns. Applying multitaper spectral analysis and time-domain conditional Granger causality (GC) measures, we found increased stimulus-evoked oscillatory power in the beta band (25-36 Hz) selectively within infragranular layers Vb and enhanced supragranular synaptic activity. Our findings reveal new insights on how ECM modulation affects the sensory integration via altered translaminar cortical network dynamics with a supragranular lead of the columnar response profile.