Nature Communications (Jul 2024)

Hippocampal connectivity patterns echo macroscale cortical evolution in the primate brain

  • Nicole Eichert,
  • Jordan DeKraker,
  • Amy F. D. Howard,
  • Istvan N. Huszar,
  • Silei Zhu,
  • Jérôme Sallet,
  • Karla L. Miller,
  • Rogier B. Mars,
  • Saad Jbabdi,
  • Boris C. Bernhardt

DOI
https://doi.org/10.1038/s41467-024-49823-8
Journal volume & issue
Vol. 15, no. 1
pp. 1 – 14

Abstract

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Abstract While the hippocampus is key for human cognitive abilities, it is also a phylogenetically old cortex and paradoxically considered evolutionarily preserved. Here, we introduce a comparative framework to quantify preservation and reconfiguration of hippocampal organisation in primate evolution, by analysing the hippocampus as an unfolded cortical surface that is geometrically matched across species. Our findings revealed an overall conservation of hippocampal macro- and micro-structure, which shows anterior-posterior and, perpendicularly, subfield-related organisational axes in both humans and macaques. However, while functional organisation in both species followed an anterior-posterior axis, we observed a marked reconfiguration in the latter across species, which mirrors a rudimentary integration of the default-mode-network in non-human primates. Here we show that microstructurally preserved regions like the hippocampus may still undergo functional reconfiguration in primate evolution, due to their embedding within heteromodal association networks.