Modeling and Simulation of Neocortical Micro- and Mesocircuitry. Part I: Anatomy

  1. Michael W. Reimann
  2. Sirio Bolaños-Puchet
  3. Jean-Denis Courcol
  4. Daniela Egas Santander
  5. Alexis Arnaudon
  6. Benoît Coste
  7. Fabien Delalondre
  8. Thomas Delemontex
  9. Adrien Devresse
  10. Hugo Dictus
  11. Alexander Dietz
  12. András Ecker
  13. Cyrille Favreau
  14. Gianluca Ficarelli
  15. Mike Gevaert
  16. Joni Herttuainen
  17. James B. Isbister
  18. Lida Kanari
  19. Daniel Keller
  20. James King
  21. Pramod Kumbhar
  22. Samuel Lapere
  23. Jᾱnis Lazovskis
  24. Huanxiang Lu
  25. Nicolas Ninin
  26. Fernando Pereira
  27. Judit Planas
  28. Christoph Pokorny
  29. Juan Luis Riquelme
  30. Armando Romani
  31. Ying Shi
  32. Jason P. Smith
  33. Vishal Sood
  34. Mohit Srivastava
  35. Werner Van Geit
  36. Liesbeth Vanherpe
  37. Matthias Wolf
  38. Ran Levi
  39. Kathryn Hess
  40. Felix Schürmann
  41. Eilif B. Muller
  42. Henry Markram
  43. Srikanth Ramaswamy
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Abstract

The function of the neocortex is fundamentally determined by its repeating microcircuit motif, but also by its rich, interregional connectivity. We present a data-driven computational model of the anatomy of non-barrel primary somatosensory cortex of juvenile rat, integrating whole-brain scale data while providing cellular and subcellular specificity. The model consists of 4.2 million morphologically detailed neurons, placed in a digital brain atlas. They are connected by 14.2 billion synapses, comprising local, mid-range and extrinsic connectivity. We delineated the limits of determining connectivity from neuron morphology and placement, finding that it reproduces targeting by Sst+ neurons, but requires additional specificity to reproduce targeting by PV+ and VIP+ interneurons. Globally, connectivity was characterized by local clusters tied together through hub neurons in layer 5, demonstrating how local and interegional connectivity are complicit, inseparable networks. The model is suitable for simulation-based studies, and a 211,712 neuron subvolume is made openly available to the community.

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