Sense of Self Impacts Spatial Navigation and Hexadirectional Coding in Human Entorhinal Cortex

Overview

Journal Commun Biol

Specialty Biology

Date 2022 May 2

PMID 35501331

Authors

Hyuk-June Moon

Baptiste Gauthier

Hyeong-Dong Park

Nathan Faivre

Olaf Blanke

Affiliations

Soon will be listed here.

Abstract

Grid cells in entorhinal cortex (EC) encode an individual's location in space and rely on environmental cues and self-motion cues derived from the individual's body. Body-derived signals are also primary signals for the sense of self and based on integrated sensorimotor signals (proprioceptive, tactile, visual, motor) that have been shown to enhance self-centered processing. However, it is currently unknown whether such sensorimotor signals that modulate self-centered processing impact grid cells and spatial navigation. Integrating the online manipulation of bodily signals, to modulate self-centered processing, with a spatial navigation task and an fMRI measure to detect grid cell-like representation (GCLR) in humans, we report improved performance in spatial navigation and decreased GCLR in EC. This decrease in entorhinal GCLR was associated with an increase in retrosplenial cortex activity, which was correlated with participants' navigation performance. These data link self-centered processes during spatial navigation to entorhinal and retrosplenial activity and highlight the role of different bodily factors at play when navigating in VR.

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