Cortical glutamatergic projection neuron types contribute to distinct functional subnetworks
The cellular basis of cerebral cortex functional architecture remains not well understood. A major challenge is to monitor and decipher neural network dynamics across broad cortical areas yet with projection neuron (PN)-type resolution in real time during behavior. Combining genetic targeting and wide-field imaging, we monitored activity dynamics of subcortical-projecting (PT Fezf2 ) and intratelencephalic-projecting (IT PlxnD1 ) types across dorsal cortex of mice during different brain states and behaviors. IT PlxnD1 and PT Fezf2 neurons showed distinct activation patterns during wakeful resting, spontaneous movements, and upon sensory stimulation. Distinct IT PlxnD1 and PT Fezf2 subnetworks were dynamically tuned to different sensorimotor components of a naturalistic feeding behavior, and optogenetic inhibition of ITs PlxnD1 and PTs Fezf2 in subnetwork nodes disrupted distinct components of this behavior. Lastly, IT PlxnD1 and PT Fezf2 projection patterns are consistent with their subnetwork activation patterns. Our results show that, in addition to the concept of columnar organization, dynamic areal and PN type-specific subnetworks are a key feature of cortical functional architecture linking microcircuit components with global brain networks.