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      Diversity, Mechanisms, and Significance of Macrophage Plasticity

      Author(s): 1 , 2 , 1 , 2 , 2 , 3 , 4
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      Journal: Annual Review of Pathology: Mechanisms of Disease
      Publisher: Annual Reviews

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          Abstract

          Macrophages are a diverse set of cells present in all body compartments. This diversity is imprinted by their ontogenetic origin (embryonal versus adult bone marrow–derived cells); the organ context; by their activation or deactivation by various signals in the contexts of microbial invasion, tissue damage, and metabolic derangement; and by polarization of adaptive T cell responses. Classic adaptive responses of macrophages include tolerance, priming, and a wide spectrum of activation states, including M1, M2, or M2-like. Moreover, macrophages can retain long-term imprinting of microbial encounters (trained innate immunity). Single-cell analysis of mononuclear phagocytes in health and disease has added a new dimension to our understanding of the diversity of macrophage differentiation and activation. Epigenetic landscapes, transcription factors, and microRNA networks underlie the adaptability of macrophages to different environmental cues. Macrophage plasticity, an essential component of chronic inflammation, and its involvement in diverse human diseases, most notably cancer, is discussed here as a paradigm.

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          Tissue-Resident Macrophage Ontogeny and Homeostasis.

          Florent Ginhoux, Martin Guilliams (2016)
          Defining the origins and developmental pathways of tissue-resident macrophages should help refine our understanding of the role of these cells in various disease settings and enable the design of novel macrophage-targeted therapies. In recent years the long-held belief that macrophage populations in the adult are continuously replenished by monocytes from the bone marrow (BM) has been overturned with the advent of new techniques to dissect cellular ontogeny. The new paradigm suggests that several tissue-resident macrophage populations are seeded during waves of embryonic hematopoiesis and self-maintain independently of BM contribution during adulthood. However, the exact nature of the embryonic progenitors that give rise to adult tissue-resident macrophages is still debated, and the mechanisms enabling macrophage population maintenance in the adult are undefined. Here, we review the emergence of these concepts and discuss current controversies and future directions in macrophage biology.
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            Epigenetic programming of monocyte-to-macrophage differentiation and trained innate immunity.

            Sadia Saeed, Jessica Quintin, Hindrik Kerstens (2014)
            Monocyte differentiation into macrophages represents a cornerstone process for host defense. Concomitantly, immunological imprinting of either tolerance or trained immunity determines the functional fate of macrophages and susceptibility to secondary infections. We characterized the transcriptomes and epigenomes in four primary cell types: monocytes and in vitro-differentiated naïve, tolerized, and trained macrophages. Inflammatory and metabolic pathways were modulated in macrophages, including decreased inflammasome activation, and we identified pathways functionally implicated in trained immunity. β-glucan training elicits an exclusive epigenetic signature, revealing a complex network of enhancers and promoters. Analysis of transcription factor motifs in deoxyribonuclease I hypersensitive sites at cell-type-specific epigenetic loci unveiled differentiation and treatment-specific repertoires. Altogether, we provide a resource to understand the epigenetic changes that underlie innate immunity in humans. Copyright © 2014, American Association for the Advancement of Science.
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              Microglia and macrophages in brain homeostasis and disease

              Qingyun Li, Ben A. Barres (2017)
              Microglia and non-parenchymal macrophages in the brain are mononuclear phagocytes that are increasingly recognized to be essential players in the development, homeostasis and diseases of the central nervous system. With the availability of new genetic, molecular and pharmacological tools, considerable advances have been made towards our understanding of the embryonic origins, developmental programmes and functions of these cells. These exciting discoveries, some of which are still controversial, also raise many new questions, which makes brain macrophage biology a fast-growing field at the intersection of neuroscience and immunology. Here, we review the current knowledge of how and where brain macrophages are generated, with a focus on parenchymal microglia. We also discuss their normal functions during development and homeostasis, the disturbance of which may lead to various neurodegenerative and neuropsychiatric diseases.
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                Author and article information

                Journal
                Title: Annual Review of Pathology: Mechanisms of Disease
                Abbreviated Title: Annu. Rev. Pathol. Mech. Dis.
                Publisher: Annual Reviews
                ISSN (Print): 1553-4006
                ISSN (Electronic): 1553-4014
                Publication date Created: January 24 2020
                Publication date (Print): January 24 2020
                Volume: 15
                Issue: 1
                Pages: 123-147
                Affiliations
                [1 ]Department of Medical Biotechnologies and Translational Medicine, Università degli Studi di Milano, 20089 Milan, Italy
                [2 ]Humanitas Clinical and Research Center, 20089 Milan, Italy;
                [3 ]Humanitas University, 20090 Milan, Italy
                [4 ]The William Harvey Research Institute, Queen Mary University of London, London EC1M 6BQ, United Kingdom
                Article
                DOI: 10.1146/annurev-pathmechdis-012418-012718
                PMC ID: 7176483
                PubMed ID: 31530089
                SO-VID: 9842d1d2-3a22-445b-8624-f2d8cec314fc
                Copyright © © 2020
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