Neural sequences in primate prefrontal cortex encode working memory in naturalistic environments

Working memory is the ability to briefly remember and manipulate information after it becomes unavailable to the senses. The mechanisms supporting working memory coding in the primate brain remain controversial. Here we demonstrate that microcircuits in layers 2/3 of the primate lateral prefrontal c...

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Main Authors Roussy, Megan, Busch, Alexandra, Luna, Rogelio, Leavitt, Matthew, Mofrad, Maryam H, Gulli, Roberto A, Corrigan, Benjamin, Mináč, Ján, Sachs, Adam J, Palaniyappan, Lena, Muller, Lyle W, Martinez-Trujillo, Julio C
Format Paper
LanguageEnglish
Published Cold Spring Harbor Cold Spring Harbor Laboratory Press 18.08.2022
Cold Spring Harbor Laboratory
Edition1.1
Subjects
Cell activation
Ketamine
Mental task performance
Monkeys & apes
Neural coding
Neurons
Neuroscience
Prefrontal cortex
Sensory systems
Short term memory
Spatial memory
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ISSN2692-8205
2692-8205
DOI10.1101/2022.08.18.504406

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Abstract Working memory is the ability to briefly remember and manipulate information after it becomes unavailable to the senses. The mechanisms supporting working memory coding in the primate brain remain controversial. Here we demonstrate that microcircuits in layers 2/3 of the primate lateral prefrontal cortex dynamically represent memory content in a naturalistic task through sequential activation of single neurons. We simultaneously recorded the activity of hundreds of neurons in the lateral prefrontal cortex of macaque monkeys during a naturalistic visuospatial working memory task set in a virtual environment. We found that the sequential activation of single neurons encoded trajectories to target locations held in working memory. Neural sequences were not a mere successive activation of cells with memory fields at specific spatial locations, but an abstract representation of the subject's trajectory to the target. Neural sequences were less correlated to target trajectories during perception and were not found during working memory tasks lacking the spatiotemporal structure of the naturalistic task. Finally, ketamine administration distorted neural sequences, selectively decreasing working memory performance. Our results indicate that neurons in the lateral prefrontal cortex causally encode working memory in naturalistic conditions via complex and temporally precise activation patterns. Competing Interest Statement The authors have declared no competing interest.
AbstractList Working memory is the ability to briefly remember and manipulate information after it becomes unavailable to the senses. The mechanisms supporting working memory coding in the primate brain remain controversial. Here we demonstrate that microcircuits in layers 2/3 of the primate lateral prefrontal cortex dynamically represent memory content in a naturalistic task through sequential activation of single neurons. We simultaneously recorded the activity of hundreds of neurons in the lateral prefrontal cortex of macaque monkeys during a naturalistic visuospatial working memory task set in a virtual environment. We found that the sequential activation of single neurons encoded trajectories to target locations held in working memory. Neural sequences were not a mere successive activation of cells with memory fields at specific spatial locations, but an abstract representation of the subject's trajectory to the target. Neural sequences were less correlated to target trajectories during perception and were not found during working memory tasks lacking the spatiotemporal structure of the naturalistic task. Finally, ketamine administration distorted neural sequences, selectively decreasing working memory performance. Our results indicate that neurons in the lateral prefrontal cortex causally encode working memory in naturalistic conditions via complex and temporally precise activation patterns. Competing Interest Statement The authors have declared no competing interest.
Working memory is the ability to briefly remember and manipulate information after it becomes unavailable to the senses. The mechanisms supporting working memory coding in the primate brain remain controversial. Here we demonstrate that microcircuits in layers 2/3 of the primate lateral prefrontal cortex dynamically represent memory content in a naturalistic task through sequential activation of single neurons. We simultaneously recorded the activity of hundreds of neurons in the lateral prefrontal cortex of macaque monkeys during a naturalistic visuospatial working memory task set in a virtual environment. We found that the sequential activation of single neurons encoded trajectories to target locations held in working memory. Neural sequences were not a mere successive activation of cells with memory fields at specific spatial locations, but an abstract representation of the subject’s trajectory to the target. Neural sequences were less correlated to target trajectories during perception and were not found during working memory tasks lacking the spatiotemporal structure of the naturalistic task. Finally, ketamine administration distorted neural sequences, selectively decreasing working memory performance. Our results indicate that neurons in the lateral prefrontal cortex causally encode working memory in naturalistic conditions via complex and temporally precise activation patterns.
Author Palaniyappan, Lena
Mináč, Ján
Busch, Alexandra
Mofrad, Maryam H
Corrigan, Benjamin
Muller, Lyle W
Sachs, Adam J
Gulli, Roberto A
Martinez-Trujillo, Julio C
Luna, Rogelio
Leavitt, Matthew
Roussy, Megan
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Snippet Working memory is the ability to briefly remember and manipulate information after it becomes unavailable to the senses. The mechanisms supporting working...
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SubjectTerms Cell activation
Ketamine
Mental task performance
Monkeys & apes
Neural coding
Neurons
Neuroscience
Prefrontal cortex
Sensory systems
Short term memory
Spatial memory
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Title Neural sequences in primate prefrontal cortex encode working memory in naturalistic environments
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https://www.biorxiv.org/content/10.1101/2022.08.18.504406
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