Histone deacetylase 3 controls lung alveolar macrophage development and homeostasis

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Abstract

Alveolar macrophages (AMs) derived from embryonic precursors seed the lung before birth and self-maintain locally throughout adulthood, but are regenerated by bone marrow (BM) under stress conditions. However, the regulation of AM development and maintenance remains poorly understood. Here, we show that histone deacetylase 3 (HDAC3) is a key epigenetic factor required for AM embryonic development, postnatal homeostasis, maturation, and regeneration from BM. Loss of HDAC3 in early embryonic development affects AM development starting at E14.5, while loss of HDAC3 after birth affects AM homeostasis and maturation. Single-cell RNA sequencing analyses reveal four distinct AM sub-clusters and a dysregulated cluster-specific pathway in the HDAC3-deficient AMs. Moreover, HDAC3-deficient AMs exhibit severe mitochondrial oxidative dysfunction and deteriorative cell death. Mechanistically, HDAC3 directly binds to Pparg enhancers, and HDAC3 deficiency impairs Pparg expression and its signaling pathway. Our findings identify HDAC3 as a key epigenetic regulator of lung AM development and homeostasis.

Abstract

Alveolar macrophages are known to derive from embryonic precursors although the regulation of this process is poorly understood. Here the authors propose a key role for histone deacetylase 3 as an epigenetic regulator of lung alveolar macrophage development.

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Most cited references 38

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Innate Immune Landscape in Early Lung Adenocarcinoma by Paired Single-Cell Analyses

Yonit Lavin, Soma Kobayashi, Andrew Leader … (2017)

To guide the design of immunotherapy strategies for patients with early stage lung tumors, we developed a multiscale immune profiling strategy to map the immune landscape of early lung adenocarcinoma lesions to search for tumor-driven immune changes. Utilizing a barcoding method that allows a simultaneous single cell analysis of the tumor, non-involved lung and blood cells together with multiplex tissue imaging to assess spatial cell distribution, we provide a detailed immune cell atlas of early lung tumors. We show that stage I lung adenocarcinoma lesions already harbor significantly altered T cell and NK cell compartments. Moreover, we identified changes in tumor infiltrating myeloid cell (TIM) subsets that likely compromise anti-tumor T cell immunity. Paired single cell analyses thus offer valuable knowledge of tumor-driven immune changes, providing a powerful tool for the rational design of immune therapies. Comparing single tumor cells with adjacent normal tissue and blood from patients with lung adenocarcinoma charts early changes in tumor immunity and provides insights to guide immunotherapy design.

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Alveolar macrophages: plasticity in a tissue-specific context.

Tracy Hussell, Thomas Bell (2014)

Alveolar macrophages exist in a unique microenvironment and, despite historical evidence showing that they are in close contact with the respiratory epithelium, have until recently been investigated in isolation. The microenvironment of the airway lumen has a considerable influence on many aspects of alveolar macrophage phenotype, function and turnover. As the lungs adapt to environmental challenges, so too do alveolar macrophages adapt to accommodate the ever-changing needs of the tissue. In this Review, we discuss the unique characteristics of alveolar macrophages, the mechanisms that drive their adaptation and the direct and indirect influences of epithelial cells on them. We also highlight how airway luminal macrophages function as sentinels of a healthy state and how they do not respond in a pro-inflammatory manner to antigens that do not disrupt lung structure. The unique tissue location and function of alveolar macrophages distinguish them from other macrophage populations and suggest that it is important to classify macrophages according to the site that they occupy.

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Notch–RBP-J signaling controls the homeostasis of CD8− dendritic cells in the spleen

Michele Caton, Matthew R Smith-Raska, Boris Reizis (2007)

Signaling through Notch receptors and their transcriptional effector RBP-J is essential for lymphocyte development and function, whereas its role in other immune cell types is unclear. We tested the function of the canonical Notch–RBP-J pathway in dendritic cell (DC) development and maintenance in vivo. Genetic inactivation of RBP-J in the bone marrow did not preclude DC lineage commitment but caused the reduction of splenic DC fraction. The inactivation of RBP-J in DCs using a novel DC-specific deleter strain caused selective loss of the splenic CD8− DC subset and reduced the frequency of cytokine-secreting CD8− DCs after challenge with Toll-like receptor ligands. In contrast, other splenic DC subsets and DCs in the lymph nodes and tissues were unaffected. The RBP-J–deficient splenic CD8− DCs were depleted at the postprogenitor stage, exhibited increased apoptosis, and lost the expression of the Notch target gene Deltex1. In the spleen, CD8− DCs were found adjacent to cells expressing the Notch ligand Delta-like 1 in the marginal zone (MZ). Thus, canonical Notch–RBP-J signaling controls the maintenance of CD8− DCs in the splenic MZ, revealing an unexpected role of the Notch pathway in the innate immune system.

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Author and article information

Contributors

Li Zhou:

ORCID: http://orcid.org/0000-0002-7028-3865

lzhou1@hfhs.org

Qing-Sheng Mi:

ORCID: http://orcid.org/0000-0002-1411-6827

qmi1@hfhs.org

Journal

Journal ID (nlm-ta): Nat Commun

Journal ID (iso-abbrev): Nat Commun

Title: Nature Communications

Publisher: Nature Publishing Group UK (London )

ISSN (Electronic): 2041-1723

Publication date (Electronic): 30 July 2020

Publication date PMC-release: 30 July 2020

Publication date Collection: 2020

Volume: 11

Electronic Location Identifier: 3822

Affiliations

[1 ]ISNI 0000 0000 8523 7701, GRID grid.239864.2, Center for Cutaneous Biology and Immunology Research, Department of Dermatology, , Henry Ford Health System, ; Detroit, MI 48202 USA

[2 ]ISNI 0000 0000 8523 7701, GRID grid.239864.2, Immunology Research Program, Henry Ford Cancer Institute, , Henry Ford Health System, ; Detroit, MI 48202 USA

[3 ]ISNI 0000 0000 8523 7701, GRID grid.239864.2, Department of Public Health Sciences, , Henry Ford Health System, ; Detroit, MI 48202 USA

[4 ]ISNI 0000 0000 8523 7701, GRID grid.239864.2, Center for Bioinformatics, , Henry Ford Health System, ; Detroit, MI 48202 USA

[5 ]ISNI 0000 0001 1456 7807, GRID grid.254444.7, Department of Biochemistry, Microbiology, and Immunology, School of Medicine, , Wayne State University, ; Detroit, MI 48202 USA

[6 ]ISNI 0000 0001 2284 9329, GRID grid.410427.4, Department of Cellular Biology and Anatomy, , Augusta University, ; Augusta, GA 30912 USA

[7 ]ISNI 0000 0001 2171 9952, GRID grid.51462.34, Immunology Program, Sloan Kettering Institute, , Memorial Sloan Kettering Cancer Center, ; New York, NY 10065 USA

[8 ]ISNI 0000 0000 8523 7701, GRID grid.239864.2, Department of Internal Medicine, , Henry Ford Health System, ; Detroit, MI 48202 USA

[9 ]ISNI 0000 0004 1757 7615, GRID grid.452223.0, Present Address: Department of Pathology, , Xiangya Hospital of Central South University, ; Changsha, Hunan 410008 China

Author information

Indra Adrianto http://orcid.org/0000-0002-9973-3057

Congcong Yin http://orcid.org/0000-0003-0865-2823

Zheng Dong http://orcid.org/0000-0003-3538-8095

Frederic Geissmann http://orcid.org/0000-0001-5029-2468

Li Zhou http://orcid.org/0000-0002-7028-3865

Qing-Sheng Mi http://orcid.org/0000-0002-1411-6827

Article

Publisher ID: 17630

DOI: 10.1038/s41467-020-17630-6

PMC ID: 7393351

PubMed ID: 32732898

SO-VID: 5ba3a8cd-ae60-4abf-b840-f813d7045809

License:

Open Access This article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. The images or other third party material in this article are included in the article’s Creative Commons license, unless indicated otherwise in a credit line to the material. If material is not included in the article’s Creative Commons license and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/.

History

Date received : 14 November 2019

Date accepted : 3 July 2020

Funding

Funded by: FundRef https://doi.org/10.13039/100000069, U.S. Department of Health & Human Services | NIH | National Institute of Arthritis and Musculoskeletal and Skin Diseases (NIAMS);

Award ID: R01AR087659

Award ID: R01AR069681

Award Recipient : Li Zhou Qing-Sheng Mi

Funded by: FundRef https://doi.org/10.13039/100007278, Henry Ford Health System;

Award ID: T71017

Award ID: T71016

Award Recipient : Li Zhou Qing-Sheng Mi

Funded by: U.S. Department of Health & Human Services | NIH | National Institute of Arthritis and Musculoskeletal and Skin Diseases (NIAMS)

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ScienceOpen disciplines: Uncategorized

Keywords: epigenetics in immune cells,monocytes and macrophages,alveolar macrophages,epigenetics

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ScienceOpen disciplines: Uncategorized

Keywords: epigenetics in immune cells, monocytes and macrophages, alveolar macrophages, epigenetics

Histone deacetylase 3 controls lung alveolar macrophage development and homeostasis

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Abstract

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In vitro alveolar region models

Most cited references 38

Innate Immune Landscape in Early Lung Adenocarcinoma by Paired Single-Cell Analyses

Alveolar macrophages: plasticity in a tissue-specific context.

Notch–RBP-J signaling controls the homeostasis of CD8− dendritic cells in the spleen

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