Transcriptomic cytoarchitecture reveals principles of human neocortex organization

Nikolas L. Jorstad(Allen Institute for Brain Science), Jennie Close(Allen Institute for Brain Science), Nelson Johansen(Allen Institute for Brain Science), Anna Marie Yanny(Allen Institute for Brain Science), Eliza Barkan(Allen Institute for Brain Science), Kyle J. Travaglini(Allen Institute for Brain Science), Darren Bertagnolli(Allen Institute for Brain Science), Jazmin Campos(Allen Institute for Brain Science), Tamara Casper(Allen Institute for Brain Science), Kirsten Crichton(Allen Institute for Brain Science), Nick Dee(Allen Institute for Brain Science), Song‐Lin Ding(Allen Institute for Brain Science), Emily Gelfand(Allen Institute for Brain Science), Jeff Goldy(Allen Institute for Brain Science), Daniel Hirschstein(Allen Institute for Brain Science), Katelyn Kiick(Allen Institute for Brain Science), Matthew Kroll(Allen Institute for Brain Science), Michael Kunst(Allen Institute for Brain Science), Kanan Lathia(Allen Institute for Brain Science), Brian Long(Allen Institute for Brain Science), Naomi Martin(Allen Institute for Brain Science), Delissa McMillen(Allen Institute for Brain Science), Trangthanh Pham(Allen Institute for Brain Science), Christine Rimorin(Allen Institute for Brain Science), Augustin Ruiz(Allen Institute for Brain Science), Nadiya V. Shapovalova(Allen Institute for Brain Science), Soraya I. Shehata(Allen Institute for Brain Science), Kimberly Siletti(Karolinska Institutet), Saroja Somasundaram(Allen Institute for Brain Science), Josef Šulc(Allen Institute for Brain Science), Michael Tieu(Allen Institute for Brain Science), Amy Torkelson(Allen Institute for Brain Science), Herman Tung(Allen Institute for Brain Science), Edward M. Callaway(Salk Institute for Biological Studies), Patrick R. Hof(Allen Institute for Brain Science), C. Dirk Keene(University of Washington), Boaz P. Levi(Allen Institute for Brain Science), Sten Linnarsson(Karolinska Institutet), Partha P. Mitra(Cold Spring Harbor Laboratory), Kimberly A. Smith(Allen Institute for Brain Science), Rebecca D. Hodge(Allen Institute for Brain Science), Trygve E. Bakken(Allen Institute for Brain Science), Ed S. Lein(Allen Institute for Brain Science)
Science
October 12, 2023
10.1126/science.adf6812
Cited by 191Open Access
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Abstract

Variation in cytoarchitecture is the basis for the histological definition of cortical areas. We used single cell transcriptomics and performed cellular characterization of the human cortex to better understand cortical areal specialization. Single-nucleus RNA-sequencing of 8 areas spanning cortical structural variation showed a highly consistent cellular makeup for 24 cell subclasses. However, proportions of excitatory neuron subclasses varied substantially, likely reflecting differences in connectivity across primary sensorimotor and association cortices. Laminar organization of astrocytes and oligodendrocytes also differed across areas. Primary visual cortex showed characteristic organization with major changes in the excitatory to inhibitory neuron ratio, expansion of layer 4 excitatory neurons, and specialized inhibitory neurons. These results lay the groundwork for a refined cellular and molecular characterization of human cortical cytoarchitecture and areal specialization.

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