Mapping microglia states in the human brain through the integration of high-dimensional techniques

Roman Sankowski; Chotima Böttcher; Takahiro Masuda; Laufey Geirsdottir; Sagar; Elena Sindram; Tamara Seredenina; Andreas Muhs; Christian Scheiwe; Mukesch Johannes Shah; Dieter Henrik Heiland; Oliver Schnell; Dominic Grün; Josef Priller; Marco Prinz

doi:10.1038/s41593-019-0532-y

Mapping microglia states in the human brain through the integration of high-dimensional techniques

Roman Sankowski
, Chotima Böttcher
, Takahiro Masuda
, Laufey Geirsdottir
, Sagar
, Elena Sindram
, Tamara Seredenina
, Andreas Muhs
, Christian Scheiwe
, Mukesch Johannes Shah
, Dieter Henrik Heiland
, Oliver Schnell
, Dominic Grün
, Josef Priller
, Marco Prinz

University Medical Center
Charité – Universitätsmedizin Berlin
Max Planck Institute for Immunobiology and Epigenetics
AC Immune SA
University of Freiburg
German Center for Neurodegenerative Diseases (DZNE)
University of Edinburgh

Research output: Contribution to journal › Article › peer-review

351 Scopus citations

Abstract

Microglia are tissue-resident macrophages of the CNS that orchestrate local immune responses and contribute to several neurological and psychiatric diseases. Little is known about human microglia and how they orchestrate their highly plastic, context-specific adaptive responses during pathology. Here we combined two high-dimensional technologies, single-cell RNA-sequencing and time-of-flight mass cytometry, to identify microglia states in the human brain during homeostasis and disease. This approach enabled us to identify and characterize a previously unappreciated spectrum of transcriptional states in human microglia. These transcriptional states are determined by their spatial distribution, and they further change with aging and brain tumor pathology. This description of multiple microglia phenotypes in the human CNS may open promising new avenues for subset-specific therapeutic interventions.

Original language	English
Pages (from-to)	2098-2110
Number of pages	13
Journal	Nature Neuroscience
Volume	22
Issue number	12
DOIs	https://doi.org/10.1038/s41593-019-0532-y
State	Published - 1 Dec 2019
Externally published	Yes

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SDG 3 Good Health and Well-being

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10.1038/s41593-019-0532-y

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Sankowski, R., Böttcher, C., Masuda, T., Geirsdottir, L., Sagar, Sindram, E., Seredenina, T., Muhs, A., Scheiwe, C., Shah, M. J., Heiland, D. H., Schnell, O., Grün, D., Priller, J., & Prinz, M. (2019). Mapping microglia states in the human brain through the integration of high-dimensional techniques. Nature Neuroscience, 22(12), 2098-2110. https://doi.org/10.1038/s41593-019-0532-y

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title = "Mapping microglia states in the human brain through the integration of high-dimensional techniques",

abstract = "Microglia are tissue-resident macrophages of the CNS that orchestrate local immune responses and contribute to several neurological and psychiatric diseases. Little is known about human microglia and how they orchestrate their highly plastic, context-specific adaptive responses during pathology. Here we combined two high-dimensional technologies, single-cell RNA-sequencing and time-of-flight mass cytometry, to identify microglia states in the human brain during homeostasis and disease. This approach enabled us to identify and characterize a previously unappreciated spectrum of transcriptional states in human microglia. These transcriptional states are determined by their spatial distribution, and they further change with aging and brain tumor pathology. This description of multiple microglia phenotypes in the human CNS may open promising new avenues for subset-specific therapeutic interventions.",

author = "Roman Sankowski and Chotima B{\"o}ttcher and Takahiro Masuda and Laufey Geirsdottir and Sagar and Elena Sindram and Tamara Seredenina and Andreas Muhs and Christian Scheiwe and Shah, \{Mukesch Johannes\} and Heiland, \{Dieter Henrik\} and Oliver Schnell and Dominic Gr{\"u}n and Josef Priller and Marco Prinz",

note = "Publisher Copyright: {\textcopyright} 2019, The Author(s), under exclusive licence to Springer Nature America, Inc.",

year = "2019",

month = dec,

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doi = "10.1038/s41593-019-0532-y",

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Sankowski, R, Böttcher, C, Masuda, T, Geirsdottir, L, Sagar, Sindram, E, Seredenina, T, Muhs, A, Scheiwe, C, Shah, MJ, Heiland, DH, Schnell, O, Grün, D, Priller, J & Prinz, M 2019, 'Mapping microglia states in the human brain through the integration of high-dimensional techniques', Nature Neuroscience, vol. 22, no. 12, pp. 2098-2110. https://doi.org/10.1038/s41593-019-0532-y

TY - JOUR

T1 - Mapping microglia states in the human brain through the integration of high-dimensional techniques

AU - Sankowski, Roman

AU - Böttcher, Chotima

AU - Masuda, Takahiro

AU - Geirsdottir, Laufey

AU - Sagar,

AU - Sindram, Elena

AU - Seredenina, Tamara

AU - Muhs, Andreas

AU - Scheiwe, Christian

AU - Shah, Mukesch Johannes

AU - Heiland, Dieter Henrik

AU - Schnell, Oliver

AU - Grün, Dominic

AU - Priller, Josef

AU - Prinz, Marco

PY - 2019/12/1

Y1 - 2019/12/1

N2 - Microglia are tissue-resident macrophages of the CNS that orchestrate local immune responses and contribute to several neurological and psychiatric diseases. Little is known about human microglia and how they orchestrate their highly plastic, context-specific adaptive responses during pathology. Here we combined two high-dimensional technologies, single-cell RNA-sequencing and time-of-flight mass cytometry, to identify microglia states in the human brain during homeostasis and disease. This approach enabled us to identify and characterize a previously unappreciated spectrum of transcriptional states in human microglia. These transcriptional states are determined by their spatial distribution, and they further change with aging and brain tumor pathology. This description of multiple microglia phenotypes in the human CNS may open promising new avenues for subset-specific therapeutic interventions.

AB - Microglia are tissue-resident macrophages of the CNS that orchestrate local immune responses and contribute to several neurological and psychiatric diseases. Little is known about human microglia and how they orchestrate their highly plastic, context-specific adaptive responses during pathology. Here we combined two high-dimensional technologies, single-cell RNA-sequencing and time-of-flight mass cytometry, to identify microglia states in the human brain during homeostasis and disease. This approach enabled us to identify and characterize a previously unappreciated spectrum of transcriptional states in human microglia. These transcriptional states are determined by their spatial distribution, and they further change with aging and brain tumor pathology. This description of multiple microglia phenotypes in the human CNS may open promising new avenues for subset-specific therapeutic interventions.

UR - https://www.scopus.com/pages/publications/85072670087

U2 - 10.1038/s41593-019-0532-y

DO - 10.1038/s41593-019-0532-y

M3 - Article

C2 - 31740814

AN - SCOPUS:85072670087

SN - 1097-6256

VL - 22

SP - 2098

EP - 2110

JO - Nature Neuroscience

JF - Nature Neuroscience

IS - 12

ER -

Mapping microglia states in the human brain through the integration of high-dimensional techniques

Abstract

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