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1.
Cell ; 185(2): 379-396.e38, 2022 01 20.
Artículo en Inglés | MEDLINE | ID: mdl-35021063

RESUMEN

The liver is the largest solid organ in the body, yet it remains incompletely characterized. Here we present a spatial proteogenomic atlas of the healthy and obese human and murine liver combining single-cell CITE-seq, single-nuclei sequencing, spatial transcriptomics, and spatial proteomics. By integrating these multi-omic datasets, we provide validated strategies to reliably discriminate and localize all hepatic cells, including a population of lipid-associated macrophages (LAMs) at the bile ducts. We then align this atlas across seven species, revealing the conserved program of bona fide Kupffer cells and LAMs. We also uncover the respective spatially resolved cellular niches of these macrophages and the microenvironmental circuits driving their unique transcriptomic identities. We demonstrate that LAMs are induced by local lipid exposure, leading to their induction in steatotic regions of the murine and human liver, while Kupffer cell development crucially depends on their cross-talk with hepatic stellate cells via the evolutionarily conserved ALK1-BMP9/10 axis.


Asunto(s)
Evolución Biológica , Hepatocitos/metabolismo , Macrófagos/metabolismo , Proteogenómica , Animales , Núcleo Celular/metabolismo , Hígado Graso/genética , Hígado Graso/patología , Homeostasis , Humanos , Macrófagos del Hígado/metabolismo , Antígenos Comunes de Leucocito/metabolismo , Lípidos/química , Hígado/metabolismo , Linfocitos/metabolismo , Ratones Endogámicos C57BL , Modelos Biológicos , Células Mieloides/metabolismo , Obesidad/patología , Proteoma/metabolismo , Transducción de Señal , Transcriptoma/genética
2.
Nat Immunol ; 22(2): 118-127, 2021 02.
Artículo en Inglés | MEDLINE | ID: mdl-33462453

RESUMEN

Macrophages have long been considered as particularly plastic cells. However, recent work combining fate mapping, single-cell transcriptomics and epigenetics has undermined the macrophage plasticity dogma. Here, we discuss recent studies that have carefully dissected the response of individual macrophage subsets to pulmonary insults and call for an adjustment of the macrophage plasticity concept. We hypothesize that prolonged tissue residency shuts down much of the plasticity of macrophages and propose that the restricted plasticity of resident macrophages has been favored by evolution to safeguard tissue homeostasis. Recruited monocytes are more plastic and their differentiation into resident macrophages during inflammation can result in a dual imprinting from both the ongoing inflammation and the macrophage niche. This results in inflammation-imprinted resident macrophages, and we speculate that rewired niche circuits could maintain this inflammatory state. We believe that this revisited plasticity model offers opportunities to reset the macrophage pool after a severe inflammatory episode.


Asunto(s)
Plasticidad de la Célula , Pulmón/inmunología , Macrófagos Alveolares/inmunología , Neumonía/inmunología , Animales , Microambiente Celular , Epigénesis Genética , Humanos , Mediadores de Inflamación/metabolismo , Pulmón/metabolismo , Macrófagos Alveolares/metabolismo , Fenotipo , Neumonía/genética , Neumonía/metabolismo , Transducción de Señal
3.
Nat Immunol ; 20(5): 571-580, 2019 05.
Artículo en Inglés | MEDLINE | ID: mdl-30936493

RESUMEN

Fine control of macrophage activation is needed to prevent inflammatory disease, particularly at barrier sites such as the lungs. However, the dominant mechanisms that regulate the activation of pulmonary macrophages during inflammation are poorly understood. We found that alveolar macrophages (AlvMs) were much less able to respond to the canonical type 2 cytokine IL-4, which underpins allergic disease and parasitic worm infections, than macrophages from lung tissue or the peritoneal cavity. We found that the hyporesponsiveness of AlvMs to IL-4 depended upon the lung environment but was independent of the host microbiota or the lung extracellular matrix components surfactant protein D (SP-D) and mucin 5b (Muc5b). AlvMs showed severely dysregulated metabolism relative to that of cavity macrophages. After removal from the lungs, AlvMs regained responsiveness to IL-4 in a glycolysis-dependent manner. Thus, impaired glycolysis in the pulmonary niche regulates AlvM responsiveness during type 2 inflammation.


Asunto(s)
Inflamación/inmunología , Pulmón/inmunología , Activación de Macrófagos/inmunología , Macrófagos Alveolares/inmunología , Animales , Inflamación/genética , Inflamación/metabolismo , Interleucina-4/genética , Interleucina-4/inmunología , Interleucina-4/metabolismo , Larva/inmunología , Larva/fisiología , Pulmón/metabolismo , Pulmón/patología , Activación de Macrófagos/genética , Macrófagos Alveolares/metabolismo , Macrófagos Alveolares/parasitología , Ratones Endogámicos BALB C , Ratones Endogámicos C57BL , Ratones Noqueados , Ratones Transgénicos , Mucina 5B/genética , Mucina 5B/inmunología , Mucina 5B/metabolismo , Nippostrongylus/inmunología , Nippostrongylus/fisiología , Proteína D Asociada a Surfactante Pulmonar/genética , Proteína D Asociada a Surfactante Pulmonar/inmunología , Proteína D Asociada a Surfactante Pulmonar/metabolismo , Infecciones por Strongylida/genética , Infecciones por Strongylida/inmunología , Infecciones por Strongylida/parasitología
4.
Nat Med ; 24(8): 1091-1092, 2018 08.
Artículo en Inglés | MEDLINE | ID: mdl-30082862

Asunto(s)
Corazón , Macrófagos , Humanos
5.
Mucosal Immunol ; 8(5): 1021-1030, 2015 Sep.
Artículo en Inglés | MEDLINE | ID: mdl-25603826

RESUMEN

Much of the biology surrounding macrophage functional specificity has arisen through examining inflammation-induced polarizing signals, but this also occurs in homeostasis, requiring tissue-specific environmental triggers that influence macrophage phenotype and function. The TAM receptor family of receptor tyrosine kinases (Tyro3, Axl and MerTK) mediates the non-inflammatory removal of apoptotic cells by phagocytes through the bridging phosphatidylserine-binding molecules growth arrest-specific 6 (Gas6) or Protein S. We show that one such TAM receptor (Axl) is exclusively expressed on mouse airway macrophages, but not interstitial macrophages and other lung leukocytes, under homeostatic conditions and is constitutively ligated to Gas6. Axl expression is potently induced by granulocyte-macrophage colony-stimulating factor expressed in the healthy and inflamed airway, and by type I interferon or Toll-like receptor-3 stimulation on human and mouse macrophages, indicating potential involvement of Axl in apoptotic cell removal under inflammatory conditions. Indeed, an absence of Axl does not cause sterile inflammation in health, but leads to exaggerated lung inflammatory disease upon influenza infection. These data imply that Axl allows specific identification of airway macrophages, and that its expression is critical for macrophage functional compartmentalization in the airspaces or lung interstitium. We propose that this may be a critical feature to prevent excessive inflammation because of secondary necrosis of apoptotic cells that have not been cleared by efferocytosis.


Asunto(s)
Pulmón/inmunología , Macrófagos/inmunología , Infecciones por Orthomyxoviridae/inmunología , Neumonía/inmunología , Proteínas Proto-Oncogénicas/inmunología , Proteínas Tirosina Quinasas Receptoras/inmunología , Animales , Femenino , Humanos , Péptidos y Proteínas de Señalización Intercelular/genética , Péptidos y Proteínas de Señalización Intercelular/inmunología , Pulmón/patología , Macrófagos/patología , Ratones , Ratones Noqueados , Especificidad de Órganos , Infecciones por Orthomyxoviridae/genética , Infecciones por Orthomyxoviridae/patología , Neumonía/genética , Neumonía/patología , Proteína S/genética , Proteína S/inmunología , Proteínas Proto-Oncogénicas/genética , Proteínas Tirosina Quinasas Receptoras/genética , Tirosina Quinasa del Receptor Axl
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