Where Do Core Thalamocortical Axons Terminate in Mammalian Neocortex When There Is No Cytoarchitecturally Distinct Layer 4?

Adhil Bhagwandin, Zoltán Molnár, Mads F. Bertelsen, Karl Karlsson, Abdulaziz N. Alagaili, Nigel C. Bennett, Patrick R. Hof, Consolate Kaswera-Kyamakya, Emmanuel Gilissen, Jaikishan Jayakumar, Paul R. Manger

Research output: Contribution to journalArticlepeer-review

Abstract

Although the mammalian cerebral cortex is most often described as a hexalaminar structure, there are cortical areas (primary motor cortex) and species (elephants, cetaceans, and hippopotami), where a cytoarchitecturally indistinct, or absent, layer 4 is noted. Thalamocortical projections from the core, or first order, thalamic system terminate primarily in layers 4/inner 3. We explored the termination sites of core thalamocortical projections in cortical areas and in species where there is no cytoarchitecturally distinct layer 4 using the immunolocalization of vesicular glutamate transporter 2, a known marker of core thalamocortical axon terminals, in 31 mammal species spanning the eutherian radiation. Several variations from the canonical cortical column outline of layer 4 and core thalamocortical inputs were noted. In shrews/microchiropterans, layer 4 was present, but many core thalamocortical projections terminated in layer 1 in addition to layers 4 and inner 3. In primate primary visual cortex, the sublaminated layer 4 was associated with a specialized core thalamocortical projection pattern. In primate primary motor cortex, no cytoarchitecturally distinct layer 4 was evident and the core thalamocortical projections terminated throughout layer 3. In the African elephant, cetaceans, and river hippopotamus, no cytoarchitecturally distinct layer 4 was observed and core thalamocortical projections terminated primarily in inner layer 3 and less densely in outer layer 3. These findings are contextualized in terms of cortical processing, perception, and the evolutionary trajectory leading to an indistinct or absent cortical layer 4.

Original languageEnglish
Article numbere25652
JournalJournal of Comparative Neurology
Volume532
Issue number7
DOIs
StatePublished - Jul 2024

Keywords

  • RRID-AB_10000321
  • RRID-AB_10000340
  • RRID-AB_10000343
  • RRID-AB_2187552
  • RRID-AB_509997
  • cortical evolution
  • cortical layer IV
  • cortical layers
  • cortical processing
  • skin–brain axis

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