Transcriptomic diversity of cell types across the adult human brain

Kimberly Siletti(Karolinska Institutet), Rebecca D. Hodge(Allen Institute for Brain Science), Alejandro Mossi Albiach(Karolinska Institutet), Ka Wai Lee(Karolinska Institutet), Song‐Lin Ding(Allen Institute for Brain Science), Lijuan Hu(Karolinska Institutet), Peter Lönnerberg(Karolinska Institutet), Trygve E. Bakken(Allen Institute for Brain Science), Tamara Casper(Allen Institute for Brain Science), Michael Clark(Allen Institute for Brain Science), Nick Dee(Allen Institute for Brain Science), Jessica Gloe(Allen Institute for Brain Science), Daniel Hirschstein(Allen Institute for Brain Science), Nadiya V. Shapovalova(Allen Institute for Brain Science), C. Dirk Keene(University of Washington), Julie Nyhus(Allen Institute for Brain Science), Herman Tung(Allen Institute for Brain Science), Anna Marie Yanny(Allen Institute for Brain Science), Ernest Arenas(Karolinska Institutet), Ed S. Lein(Allen Institute for Brain Science), Sten Linnarsson(Karolinska Institutet)
Science
October 12, 2023
10.1126/science.add7046
Cited by 730

Abstract

The human brain directs complex behaviors, ranging from fine motor skills to abstract intelligence, but the diversity of cell types that support these skills has not been fully described. In this work, we used single-nucleus RNA sequencing to systematically survey cells across the entire adult human brain. We sampled more than three million nuclei from approximately 100 dissections across the forebrain, midbrain, and hindbrain in three postmortem donors. Our analysis identified 461 clusters and 3313 subclusters organized largely according to developmental origins and revealing high diversity in midbrain and hindbrain neurons. Astrocytes and oligodendrocyte-lineage cells also exhibited regional diversity at multiple scales. The transcriptomic census of the entire human brain presented in this work provides a resource for understanding the molecular diversity of the human brain in health and disease.

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