Disruption of the head direction cell network impairs the parahippocampal grid cell signal

Abstract

Navigation depends onmultiple neural systems that encode themoment-to-moment changes in an animal's direction and location in space.These include head direction (HD) cells representing the orientation of the head and grid cells that fire at multiple locations, forming a repeating hexagonal grid pattern.Computational models hypothesize that generation of the grid cell signal relies upon HD information that ascends to the hippocampal network via the anterior thalamic nuclei (ATN).We inactivated or lesioned the ATN and subsequently recorded single units in the entorhinal cortex and parasubiculum. ATN manipulation significantly disrupted grid and HD cell characteristics while sparing theta rhythmicity in these regions.These results indicate that the HD signal via the ATN is necessary for the generation and function of grid cell activity.