TY - JOUR T1 - Perception and propagation of activity through the cortical hierarchy is determined by neural variability JF - bioRxiv DO - 10.1101/2021.12.28.474343 SP - 2021.12.28.474343 AU - James M. Rowland AU - Thijs L. van der Plas AU - Matthias Loidolt AU - Robert M. Lees AU - Joshua Keeling AU - Jonas Dehning AU - Thomas Akam AU - Viola Priesemann AU - Adam M. Packer Y1 - 2023/01/01 UR - http://biorxiv.org/content/early/2023/01/16/2021.12.28.474343.abstract N2 - The brains of higher organisms are composed of anatomically and functionally distinct regions performing specialised tasks; but regions do not operate in isolation. Orchestration of complex behaviours requires communication between brain regions, but how neural activity dynamics are organised to facilitate reliable transmission is not well understood. We studied this process directly by generating neural activity that propagates between brain regions and drives behaviour, allowing us to assess how populations of neurons in sensory cortex cooperate to transmit information. We achieved this by imaging two hierarchically organised and densely interconnected regions, the primary and secondary somatosensory cortex (S1 and S2) in mice while performing two-photon photostimulation of S1 neurons and assigning behavioural salience to the photostimulation. We found that the probability of perception is determined not only by the strength of the photostimulation signal, but also by the variability of S1 neural activity. Therefore, maximising the signal-to-noise ratio of the stimulus representation in cortex relative to the noise or variability in cortex is critical to facilitate activity propagation and perception. Further, we show that propagated, behaviourally salient activity elicits balanced, persistent, and generalised activation of the downstream region. Hence, our work adds to existing understanding of cortical function by identifying how population activity is formatted to ensure robust transmission of information, allowing specialised brain regions to communicate and coordinate behaviour.Competing Interest StatementThe authors have declared no competing interest. ER -