Deleting an Nr4a1 Super-Enhancer Subdomain Ablates Ly6Clow Monocytes while Preserving Macrophage Gene Function

Graham D. Thomas; Richard N. Hanna; Neelakatan T. Vasudevan; Anouk A. Hamers; Casey E. Romanoski; Sara McArdle; Kevin D. Ross; Amy Blatchley; Deborah Yoakum; Bruce A. Hamilton; Zbigniew Mikulski; Mukesh K. Jain; Christopher K. Glass; Catherine C. Hedrick

doi:10.1016/j.immuni.2016.10.011

Deleting an Nr4a1 Super-Enhancer Subdomain Ablates Ly6C^low Monocytes while Preserving Macrophage Gene Function

Graham D. Thomas, Richard N. Hanna, Neelakatan T. Vasudevan, Anouk A. Hamers, Casey E. Romanoski, Sara McArdle, Kevin D. Ross, Amy Blatchley, Deborah Yoakum, Bruce A. Hamilton, Zbigniew Mikulski, Mukesh K. Jain, Christopher K. Glass, Catherine C. Hedrick

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

89 Scopus citations

Abstract

Mononuclear phagocytes are a heterogeneous family that occupy all tissues and assume numerous roles to support tissue function and systemic homeostasis. Our ability to dissect the roles of individual subsets is limited by a lack of technologies that ablate gene function within specific mononuclear phagocyte sub-populations. Using Nr4a1-dependent Ly6C^low monocytes, we present a proof-of-principle approach that addresses these limitations. Combining ChIP-seq and molecular approaches we identified a single, conserved, sub-domain within the Nr4a1 enhancer that was essential for Ly6C^low monocyte development. Mice lacking this enhancer lacked Ly6C^low monocytes but retained Nr4a1 gene expression in macrophages during steady state and in response to LPS. Because Nr4a1 regulates inflammatory gene expression and differentiation of Ly6C^low monocytes, decoupling these processes allows Ly6C^low monocytes to be studied independently.

Original language	English (US)
Pages (from-to)	975-987
Number of pages	13
Journal	Immunity
Volume	45
Issue number	5
DOIs	https://doi.org/10.1016/j.immuni.2016.10.011
State	Published - Nov 15 2016
Externally published	Yes

ASJC Scopus subject areas

Immunology and Allergy
Immunology
Infectious Diseases

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

Access to Document

10.1016/j.immuni.2016.10.011

Cite this

Thomas, G. D., Hanna, R. N., Vasudevan, N. T., Hamers, A. A., Romanoski, C. E., McArdle, S., Ross, K. D., Blatchley, A., Yoakum, D., Hamilton, B. A., Mikulski, Z., Jain, M. K., Glass, C. K., & Hedrick, C. C. (2016). Deleting an Nr4a1 Super-Enhancer Subdomain Ablates Ly6C^low Monocytes while Preserving Macrophage Gene Function. Immunity, 45(5), 975-987. https://doi.org/10.1016/j.immuni.2016.10.011

Thomas, GD, Hanna, RN, Vasudevan, NT, Hamers, AA, Romanoski, CE, McArdle, S, Ross, KD, Blatchley, A, Yoakum, D, Hamilton, BA, Mikulski, Z, Jain, MK, Glass, CK & Hedrick, CC 2016, 'Deleting an Nr4a1 Super-Enhancer Subdomain Ablates Ly6C^low Monocytes while Preserving Macrophage Gene Function', Immunity, vol. 45, no. 5, pp. 975-987. https://doi.org/10.1016/j.immuni.2016.10.011

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title = "Deleting an Nr4a1 Super-Enhancer Subdomain Ablates Ly6Clow Monocytes while Preserving Macrophage Gene Function",

abstract = "Mononuclear phagocytes are a heterogeneous family that occupy all tissues and assume numerous roles to support tissue function and systemic homeostasis. Our ability to dissect the roles of individual subsets is limited by a lack of technologies that ablate gene function within specific mononuclear phagocyte sub-populations. Using Nr4a1-dependent Ly6Clow monocytes, we present a proof-of-principle approach that addresses these limitations. Combining ChIP-seq and molecular approaches we identified a single, conserved, sub-domain within the Nr4a1 enhancer that was essential for Ly6Clow monocyte development. Mice lacking this enhancer lacked Ly6Clow monocytes but retained Nr4a1 gene expression in macrophages during steady state and in response to LPS. Because Nr4a1 regulates inflammatory gene expression and differentiation of Ly6Clow monocytes, decoupling these processes allows Ly6Clow monocytes to be studied independently.",

author = "Thomas, {Graham D.} and Hanna, {Richard N.} and Vasudevan, {Neelakatan T.} and Hamers, {Anouk A.} and Romanoski, {Casey E.} and Sara McArdle and Ross, {Kevin D.} and Amy Blatchley and Deborah Yoakum and Hamilton, {Bruce A.} and Zbigniew Mikulski and Jain, {Mukesh K.} and Glass, {Christopher K.} and Hedrick, {Catherine C.}",

note = "Funding Information: We would like to thank Joseph Miano (University of Rochester) for helpful advice with CRISPR design. We would like to acknowledge the LJI flow cytometry core and sequencing core facilities as well as the UCSD transgenic core facility. Funding sources: R01HL134236; R01HL118765, R01CA202987, and R01HL112039 to C.C.H.; R01DK091183, R01CA17390, and R01HL088093 to C.K.G.; R00HL123485 to C.E.R.; R01GM086912 to B.A.H.; R01HL086548 and R01075427 to M.K.J. AHA Fellowships 16POST27630002 to G.D.T. and 12DG12070005 to R.N.H. K.D.R. was supported in part by a Ruth L. Kirschstein National Research Service Award (NRSA) Institutional Predoctoral Training Grant, T32 GM008666, from the National Institute of General Medical Sciences. Publisher Copyright: {\textcopyright} 2016 Elsevier Inc.",

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doi = "10.1016/j.immuni.2016.10.011",

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T1 - Deleting an Nr4a1 Super-Enhancer Subdomain Ablates Ly6Clow Monocytes while Preserving Macrophage Gene Function

AU - Thomas, Graham D.

AU - Hanna, Richard N.

AU - Vasudevan, Neelakatan T.

AU - Hamers, Anouk A.

AU - Romanoski, Casey E.

AU - McArdle, Sara

AU - Ross, Kevin D.

AU - Blatchley, Amy

AU - Yoakum, Deborah

AU - Hamilton, Bruce A.

AU - Mikulski, Zbigniew

AU - Jain, Mukesh K.

AU - Glass, Christopher K.

AU - Hedrick, Catherine C.

N1 - Funding Information: We would like to thank Joseph Miano (University of Rochester) for helpful advice with CRISPR design. We would like to acknowledge the LJI flow cytometry core and sequencing core facilities as well as the UCSD transgenic core facility. Funding sources: R01HL134236; R01HL118765, R01CA202987, and R01HL112039 to C.C.H.; R01DK091183, R01CA17390, and R01HL088093 to C.K.G.; R00HL123485 to C.E.R.; R01GM086912 to B.A.H.; R01HL086548 and R01075427 to M.K.J. AHA Fellowships 16POST27630002 to G.D.T. and 12DG12070005 to R.N.H. K.D.R. was supported in part by a Ruth L. Kirschstein National Research Service Award (NRSA) Institutional Predoctoral Training Grant, T32 GM008666, from the National Institute of General Medical Sciences. Publisher Copyright: © 2016 Elsevier Inc.

PY - 2016/11/15

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N2 - Mononuclear phagocytes are a heterogeneous family that occupy all tissues and assume numerous roles to support tissue function and systemic homeostasis. Our ability to dissect the roles of individual subsets is limited by a lack of technologies that ablate gene function within specific mononuclear phagocyte sub-populations. Using Nr4a1-dependent Ly6Clow monocytes, we present a proof-of-principle approach that addresses these limitations. Combining ChIP-seq and molecular approaches we identified a single, conserved, sub-domain within the Nr4a1 enhancer that was essential for Ly6Clow monocyte development. Mice lacking this enhancer lacked Ly6Clow monocytes but retained Nr4a1 gene expression in macrophages during steady state and in response to LPS. Because Nr4a1 regulates inflammatory gene expression and differentiation of Ly6Clow monocytes, decoupling these processes allows Ly6Clow monocytes to be studied independently.

AB - Mononuclear phagocytes are a heterogeneous family that occupy all tissues and assume numerous roles to support tissue function and systemic homeostasis. Our ability to dissect the roles of individual subsets is limited by a lack of technologies that ablate gene function within specific mononuclear phagocyte sub-populations. Using Nr4a1-dependent Ly6Clow monocytes, we present a proof-of-principle approach that addresses these limitations. Combining ChIP-seq and molecular approaches we identified a single, conserved, sub-domain within the Nr4a1 enhancer that was essential for Ly6Clow monocyte development. Mice lacking this enhancer lacked Ly6Clow monocytes but retained Nr4a1 gene expression in macrophages during steady state and in response to LPS. Because Nr4a1 regulates inflammatory gene expression and differentiation of Ly6Clow monocytes, decoupling these processes allows Ly6Clow monocytes to be studied independently.

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