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

Roussy, Megan; Busch, Alexandra; Luna, Rogelio; Leavitt, Matthew L.; Mofrad, Maryam H.; Gulli, Roberto A.; Corrigan, Benjamin; Mináč, Ján; Sachs, Adam; Palaniyappan, Lena; Muller, Lyle; Martinez‐Trujillo, Julio

doi:10.1101/2022.08.18.504406

2022

DOI: 10.1101/2022.08.18.504406

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

Megan Roussy

Alexandra Busch

Rogelio Luna

et al.

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 m… Show more

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2024

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Single neuron diversity supports area functional specialization along the visual cortical pathways

Feyerabend,

Pommer,

Jimenez-Sosa

et al. 2024

Preprint

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Humans and other primates have specialized visual pathways composed of interconnected cortical areas. The input area V1 contains neurons that encode basic visual features, whereas downstream in the lateral prefrontal cortex (LPFC) neurons acquire tuning for novel complex feature associations. It has been assumed that each cortical area is composed of repeatable neuronal subtypes, and variations in synaptic strength and connectivity patterns underlie functional specialization. Here we test the hypothesis that diversity in the intrinsic make-up of single neurons contributes to area specialization along the visual pathways. We measured morphological and electrophysiological properties of single neurons in areas V1 and LPFC of marmosets. Excitatory neurons in LPFC were larger, less excitable, and fired broader spikes than V1 neurons. Some inhibitory fast spiking interneurons in the LPFC had longer axons and fired spikes with longer latencies and a more depolarized action potential trough than in V1. Intrinsic bursting was found in subpopulations of both excitatory and inhibitory LPFC but not V1 neurons. The latter may favour temporal summation of spikes and therefore enhanced synaptic plasticity in LPFC relative to V1. Our results show that specialization within the primate visual system permeates the most basic processing level, the single neuron.

show abstract

Single neuron diversity supports area functional specialization along the visual cortical pathways

Feyerabend,

Pommer,

Jimenez-Sosa

et al. 2024

Preprint

View full text Add to dashboard Cite

show abstract

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

Cited by 1 publication

References 60 publications

Single neuron diversity supports area functional specialization along the visual cortical pathways

Single neuron diversity supports area functional specialization along the visual cortical pathways

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