Environment drives selection and function of enhancers controlling tissue-specific macrophage identities

David Gosselin; Verena M Link; Casey E Romanoski; Gregory J Fonseca; Dawn Z Eichenfield; Nathanael J Spann; Joshua D Stender; Hyun B Chun; Hannah Garner; Frederic Geissmann; Christopher K Glass

doi:10.1016/j.cell.2014.11.023

Environment drives selection and function of enhancers controlling tissue-specific macrophage identities

David Gosselin, Verena M Link, Casey E Romanoski, Gregory J Fonseca, Dawn Z Eichenfield, Nathanael J Spann, Joshua D Stender, Hyun B Chun, Hannah Garner, Frederic Geissmann, Christopher K Glass

Inflammation Biology

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

988 Citations (Scopus)

Abstract

Macrophages reside in essentially all tissues of the body and play key roles in innate and adaptive immune responses. Distinct populations of tissue macrophages also acquire context-specific functions that are important for normal tissue homeostasis. To investigate mechanisms responsible for tissue-specific functions, we analyzed the transcriptomes and enhancer landscapes of brain microglia and resident macrophages of the peritoneal cavity. In addition, we exploited natural genetic variation as a genome-wide "mutagenesis" strategy to identify DNA recognition motifs for transcription factors that promote common or subset-specific binding of the macrophage lineage-determining factor PU.1. We find that distinct tissue environments drive divergent programs of gene expression by differentially activating a common enhancer repertoire and by inducing the expression of divergent secondary transcription factors that collaborate with PU.1 to establish tissue-specific enhancers. These findings provide insights into molecular mechanisms by which tissue environment influences macrophage phenotypes that are likely to be broadly applicable to other cell types.

Original language	English
Pages (from-to)	1327-1340
Number of pages	14
Journal	Cell
Volume	159
Issue number	6
Early online date	4 Dec 2014
DOIs	https://doi.org/10.1016/j.cell.2014.11.023
Publication status	Published - 4 Dec 2014

Keywords

Animals
Enhancer Elements, Genetic
Genetic Variation
Histone Code
Macrophages
Male
Mice, Inbred C57BL
Mice, Inbred NOD
Mice, Inbred Strains
Transcription Factors

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10.1016/j.cell.2014.11.023

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title = "Environment drives selection and function of enhancers controlling tissue-specific macrophage identities",

abstract = "Macrophages reside in essentially all tissues of the body and play key roles in innate and adaptive immune responses. Distinct populations of tissue macrophages also acquire context-specific functions that are important for normal tissue homeostasis. To investigate mechanisms responsible for tissue-specific functions, we analyzed the transcriptomes and enhancer landscapes of brain microglia and resident macrophages of the peritoneal cavity. In addition, we exploited natural genetic variation as a genome-wide {"}mutagenesis{"} strategy to identify DNA recognition motifs for transcription factors that promote common or subset-specific binding of the macrophage lineage-determining factor PU.1. We find that distinct tissue environments drive divergent programs of gene expression by differentially activating a common enhancer repertoire and by inducing the expression of divergent secondary transcription factors that collaborate with PU.1 to establish tissue-specific enhancers. These findings provide insights into molecular mechanisms by which tissue environment influences macrophage phenotypes that are likely to be broadly applicable to other cell types.",

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AU - Gosselin, David

AU - Link, Verena M

AU - Romanoski, Casey E

AU - Fonseca, Gregory J

AU - Eichenfield, Dawn Z

AU - Spann, Nathanael J

AU - Stender, Joshua D

AU - Chun, Hyun B

AU - Garner, Hannah

AU - Geissmann, Frederic

AU - Glass, Christopher K

PY - 2014/12/4

Y1 - 2014/12/4

N2 - Macrophages reside in essentially all tissues of the body and play key roles in innate and adaptive immune responses. Distinct populations of tissue macrophages also acquire context-specific functions that are important for normal tissue homeostasis. To investigate mechanisms responsible for tissue-specific functions, we analyzed the transcriptomes and enhancer landscapes of brain microglia and resident macrophages of the peritoneal cavity. In addition, we exploited natural genetic variation as a genome-wide "mutagenesis" strategy to identify DNA recognition motifs for transcription factors that promote common or subset-specific binding of the macrophage lineage-determining factor PU.1. We find that distinct tissue environments drive divergent programs of gene expression by differentially activating a common enhancer repertoire and by inducing the expression of divergent secondary transcription factors that collaborate with PU.1 to establish tissue-specific enhancers. These findings provide insights into molecular mechanisms by which tissue environment influences macrophage phenotypes that are likely to be broadly applicable to other cell types.

AB - Macrophages reside in essentially all tissues of the body and play key roles in innate and adaptive immune responses. Distinct populations of tissue macrophages also acquire context-specific functions that are important for normal tissue homeostasis. To investigate mechanisms responsible for tissue-specific functions, we analyzed the transcriptomes and enhancer landscapes of brain microglia and resident macrophages of the peritoneal cavity. In addition, we exploited natural genetic variation as a genome-wide "mutagenesis" strategy to identify DNA recognition motifs for transcription factors that promote common or subset-specific binding of the macrophage lineage-determining factor PU.1. We find that distinct tissue environments drive divergent programs of gene expression by differentially activating a common enhancer repertoire and by inducing the expression of divergent secondary transcription factors that collaborate with PU.1 to establish tissue-specific enhancers. These findings provide insights into molecular mechanisms by which tissue environment influences macrophage phenotypes that are likely to be broadly applicable to other cell types.

KW - Animals

KW - Enhancer Elements, Genetic

KW - Genetic Variation

KW - Histone Code

KW - Macrophages

KW - Male

KW - Mice, Inbred C57BL

KW - Mice, Inbred NOD

KW - Mice, Inbred Strains

KW - Transcription Factors

U2 - 10.1016/j.cell.2014.11.023

DO - 10.1016/j.cell.2014.11.023

M3 - Article

C2 - 25480297

SN - 0092-8674

VL - 159

SP - 1327

EP - 1340

JO - Cell

JF - Cell

IS - 6

ER -

Environment drives selection and function of enhancers controlling tissue-specific macrophage identities

Abstract

Keywords

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