Single cell RNA sequencing of human microglia uncovers a subset associated with Alzheimer’s disease

Marta Olah; Vilas Menon; Naomi Habib; Mariko Taga; Yiyi Ma; Christina Yung; Maria Cimpean; Anthony Khairallah; Guillermo Coronas‐Samano; Roman Sankowski; Dominic Grün; Alexandra Kroshilina; Danielle Dionne; Rani A. Sarkis; G. Rees Cosgrove; Jeffrey Helgager; Jeffrey A. Golden; Page B. Pennell; Marco Prinz; Jean Paul Vonsattel; Andrew F. Teich; Julie A. Schneider; David A. Bennett; Aviv Regev; Wassim Elyaman; Elizabeth M. Bradshaw; Philip L. De Jager

doi:10.1038/s41467-020-19737-2

Single cell RNA sequencing of human microglia uncovers a subset associated with Alzheimer’s disease

Marta Olah(Broad Institute), Vilas Menon(Broad Institute), Naomi Habib(Broad Institute), Mariko Taga(Broad Institute), Yiyi Ma(Broad Institute), Christina Yung(Columbia University Irving Medical Center), Maria Cimpean(Columbia University Irving Medical Center), Anthony Khairallah(Columbia University Irving Medical Center), Guillermo Coronas‐Samano(Columbia University Irving Medical Center), Roman Sankowski(University of Freiburg), Dominic Grün(Max Planck Institute of Immunobiology and Epigenetics), Alexandra Kroshilina(Columbia University Irving Medical Center), Danielle Dionne(Broad Institute), Rani A. Sarkis(Brigham and Women's Hospital), G. Rees Cosgrove(Brigham and Women's Hospital), Jeffrey Helgager(Brigham and Women's Hospital), Jeffrey A. Golden(Brigham and Women's Hospital), Page B. Pennell(Brigham and Women's Hospital), Marco Prinz(University of Freiburg), Jean Paul Vonsattel(Columbia University Irving Medical Center), Andrew F. Teich(Columbia University Irving Medical Center), Julie A. Schneider(Rush University Medical Center), David A. Bennett(Rush University Medical Center), Aviv Regev(Broad Institute), Wassim Elyaman(Broad Institute), Elizabeth M. Bradshaw(Broad Institute), Philip L. De Jager(Broad Institute)

Nature Communications

November 30, 2020

10.1038/s41467-020-19737-2

Cited by 757Open Access

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Abstract

The extent of microglial heterogeneity in humans remains a central yet poorly explored question in light of the development of therapies targeting this cell type. Here, we investigate the population structure of live microglia purified from human cerebral cortex samples obtained at autopsy and during neurosurgical procedures. Using single cell RNA sequencing, we find that some subsets are enriched for disease-related genes and RNA signatures. We confirm the presence of four of these microglial subpopulations histologically and illustrate the utility of our data by characterizing further microglial cluster 7, enriched for genes depleted in the cortex of individuals with Alzheimer's disease (AD). Histologically, these cluster 7 microglia are reduced in frequency in AD tissue, and we validate this observation in an independent set of single nucleus data. Thus, our live human microglia identify a range of subtypes, and we prioritize one of these as being altered in AD.

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