Transitions in dynamical regime and neural mode underlie perceptual decision-making

Author:

Luo Thomas ZhihaoORCID,Kim Timothy DoyeonORCID,Gupta DikshaORCID,Bondy Adrian G.ORCID,Kopec Charles D.ORCID,Elliot Verity A.ORCID,DePasquale BrianORCID,Brody Carlos D.ORCID

Abstract

AbstractPerceptual decision-making is the process by which an animal uses sensory stimuli to choose an action or mental proposition. This process is thought to be mediated by neurons organized as attractor networks1,2. However, whether attractor dynamics underlie decision behavior and the complex neuronal responses remains unclear. Here we use an unsupervised, deep learning-based method to discover decision-related dynamics from the simultaneous activity of neurons in frontal cortex and striatum of rats while they accumulate pulsatile auditory evidence. We show that contrary to prevailing hypotheses, attractors play a role only after a transition from a regime in the dynamics that is strongly driven by inputs to one dominated by the intrinsic dynamics. The initial regime mediates evidence accumulation, and the subsequent intrinsic-dominant regime subserves decision commitment. This regime transition is coupled to a rapid reorganization in the representation of the decision process in the neural population (a change in the “neural mode” along which the process develops). A simplified model approximating the coupled transition in the dynamics and neural mode allows inferring, from each trial’s neural activity, the internal decision commitment time in that trial, and captures diverse and complex single-neuron temporal profiles, such as ramping and stepping3–5. It also captures trial-averaged curved trajectories6–8, and reveals distinctions between brain regions. Our results show that the formation of a perceptual choice involves a rapid, coordinated transition in both the dynamical regime and the neural mode of the decision process, and suggest pairing deep learning and parsimonious models as a promising approach for understanding complex data.

Publisher

Cold Spring Harbor Laboratory

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