A hierarchical coordinate system for sequence memory in human entorhinal cortex.
Shpektor, A.; Bakermans, J. J. W.; Baram, A. B.; Sarnthein, J.; Ledergerber, D.; Imbach, L.; Muller-Seydlitz, E.; Barron, H. C.; Behrens, T. E. J.
Show abstract
The entorhinal cortex (EC) supports a coordinate system for spatial memories, organised in a hierarchy along the EC dorso-ventral axis. Recent theories suggest that a similar coordinate system could scaffold non-spatial memories. Here we show that an abstract hierarchical coordinate system supports arbitrary sequence memories in the human medial temporal lobe (MTL). In single-unit recordings from MTL, we find abstract, coordinate-like coding in a simple sequential memory task. In fMRI we find that abstract coordinate representations are arranged hierarchically along the entorhinal cortex, mirroring the anatomical gradient of grid cells in the rodent EC but now for non-spatial sequences. We replicate this finding in an independent cohort of participants. These data suggest that memories are scaffolded on a hierarchical coordinate system aligned to preserved anatomy across domains and species.
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