Stable working memory and perceptual representations in macaque lateral prefrontal cortex during naturalistic vision
Author:
Roussy Megan,Corrigan Benjamin,Luna Rogelio,Gulli Roberto A.,Sachs Adam J.,Palaniyappan Lena,Martinez-Trujillo Julio C.
Abstract
Primates use perceptual and mnemonic visuospatial representations to perform everyday functions. Neurons in the lateral prefrontal cortex (LPFC) have been shown to encode both of these representations during tasks where eye movements are strictly controlled and visual stimuli are reduced in complexity. This raises the question of whether perceptual and mnemonic representations encoded by LPFC neurons remain robust during naturalistic vision — in the presence of a rich visual scenery and during eye movements. Here we investigate this issue by training macaque monkeys to perform working memory and perception tasks in a visually complex virtual environment that requires navigation using a joystick and allows for free visual exploration of the scene. We recorded the activity of 3950 neurons in the LPFC (areas 8a and 9/46) of two rhesus macaques using multi-electrode arrays, and measured eye movements using video tracking. We found that navigation trajectories to target locations and eye movement behavior differed between the perception and working memory tasks suggesting that animals employed different behavioral strategies. Single neurons were tuned to target location during cue encoding and working memory delay and neural ensemble activity was predictive of the animals’ behavior. Neural decoding of target location was stable throughout the working memory delay epoch. However, neural representations of similar target locations differed between the working memory and perception tasks. These findings indicate that during naturalistic vision, LPFC neurons maintain robust and distinct neural codes for mnemonic and perceptual visuospatial representations.Significance StatementWe show that LPFC neurons encode working memory and perceptual representations during a naturalistic task set in a virtual environment. We show that despite eye movement and complex visual input, neurons maintain robust working memory representations of space which are distinct from neuronal representations for perception. We further provide novel insight on the use of virtual environments to construct behavioral tasks for electrophysiological experiments.
Publisher
Cold Spring Harbor Laboratory
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