TY - JOUR T1 - Circuit models of low dimensional shared variability in cortical networks JF - bioRxiv DO - 10.1101/217976 SP - 217976 AU - Chengcheng Huang AU - Douglas A. Ruff AU - Ryan Pyle AU - Robert Rosenbaum AU - Marlene R. Cohen AU - Brent Doiron Y1 - 2018/01/01 UR - http://biorxiv.org/content/early/2018/05/07/217976.abstract N2 - Trial-to-trial variability is a reflection of the circuitry and cellular physiology that makeup a neuronal network. A pervasive yet puzzling feature of cortical circuits is that despite their complex wiring, population-wide shared spiking variability is low dimensional with all neurons fluctuating en masse. Previous model cortical networks are at loss to explain this global variability, and rather assume it is from external sources. We show that if the spatial and temporal scales of inhibitory coupling match known physiology, model spiking neurons internally generate low dimensional shared variability that captures the properties of in vivo population recordings along the visual pathway. Shifting spatial attention into the receptive field of visual neurons has been shown to reduce low dimensional shared variability within a brain area, yet increase the variability shared between areas. A top-down modulation of inhibitory neurons in our network provides a parsimonious mechanism for this attentional modulation, providing support for our theory of cortical variability. Our work provides a critical and previously missing mechanistic link between observed cortical circuit structure and realistic population-wide shared neuronal variability and its modulation. ER -