SummaryThe functions of Nr4a1-dependent Ly6Clow monocytes remain enigmatic. We show that they are enriched within capillaries and scavenge microparticles from their lumenal side in a steady state. In the kidney cortex, perturbation of homeostasis by a TLR7-dependent nucleic acid “danger” signal, which may signify viral infection or local cell death, triggers Gαi-dependent intravascular retention of Ly6Clow monocytes by the endothelium. Then, monocytes recruit neutrophils in a TLR7-dependent manner to mediate focal necrosis of endothelial cells, whereas the monocytes remove cellular debris. Prevention of Ly6Clow monocyte development, crawling, or retention in Nr4a1−/−, Itgal−/−, and Tlr7host−/−BM+/+ and Cx3cr1−/− mice, respectively, abolished neutrophil recruitment and endothelial killing. Prevention of neutrophil recruitment in Tlr7host+/+BM−/− mice or by neutrophil depletion also abolished endothelial cell necrosis. Therefore, Ly6Clow monocytes are intravascular housekeepers that orchestrate the necrosis by neutrophils of endothelial cells that signal a local threat sensed via TLR7 followed by the in situ phagocytosis of cellular debris.
Transcription factors that regulate monocyte subset differentiation in bone marrow have not yet been identified. Here we show that the orphan nuclear receptor NR4A1 controls Ly6C− monocyte differentiation. Ly6C− monocytes , which function in a surveillance role in circulation, were absent in Nr4a1−/− mice. Normal numbers of myeloid progenitor cells were present in Nr4a1−/− mice, indicating that the defect occurs during later stages of monocyte development. The defect is cell-intrinsic, as wild-type mice receiving bone marrow from Nr4a1−/− mice developed reduced numbers of patrolling monocytes. Ly6C− monocytes remaining in the bone marrow of Nr4a1−/− mice were arrested in the S phase of the cell cycle and underwent apoptosis. Thus, NR4A1 functions as a master regulator of differentiation and survival of ‘patrolling’ Ly6C− monocytes.
Although the aetiology of systemic lupus erythematosus (SLE) is unclear, dysregulated B cell responses have been implicated. Here we show that an unusual CD11chiT-bet+ B cell subset, with a unique expression profile including chemokine receptors consistent with migration to target tissues, is expanded in SLE patients, present in nephrotic kidney, enriched for autoreactive specificities and correlates with defined clinical manifestations. IL-21 can potently induce CD11chiT-bet+ B cells and promote the differentiation of these cells into Ig-secreting autoreactive plasma cells. While murine studies have identified a role for T-bet-expressing B cells in autoimmunity, this study describes and exemplifies the importance of CD11chiT-bet+ B cells in human SLE.
The immune system plays an important role in regulating tumor growth and metastasis. For example, classical monocytes promote tumorigenesis and cancer metastasis; however, how nonclassical “patrolling” monocytes interact with tumors is unknown. Here we show that patrolling monocytes are enriched in the microvasculature of the lung and reduce tumor metastasis to lung in multiple mouse metastatic tumor models. Nr4a1-deficient mice, which specifically lack patrolling monocytes, showed increased lung metastasis in vivo. Transfer of Nr4a1-proficient patrolling monocytes into Nr4a1-deficient mice prevented tumor invasion in lung. Patrolling monocytes established early interactions with metastasizing tumor cells, scavenged tumor material from the lung vasculature and promoted natural killer cell recruitment and activation. Thus, patrolling monocytes contribute to cancer immunosurveillance and may be targets for cancer immunotherapy.
Rationale NR4A1 (Nur77) is a nuclear receptor that is expressed in macrophages and within atherosclerotic lesions, yet its function in atherosclerosis is unknown. Objective Nur77 regulates the development of monocytes, particularly patrolling Ly6C− monocytes that may be involved in resolution of inflammation. We sought to determine how absence of NR4A1 in hematopoietic cells impacted atherosclerosis development. Methods and Results Nur77−/− chimeric mice on a Ldlr−/− background showed a 3-fold increase in atherosclerosis development when fed a Western diet for 20 weeks, despite having a drastic reduction in Ly6C− patrolling monocytes. In a second model, mice deficient in both Nur77 and ApoE (ApoE−/−Nur77−/−) also showed increased atherosclerosis after 11 weeks of Western diet. Atherosclerosis was associated with a significant change in macrophage polarization towards a pro-inflammatory phenotype, with high expression of TNFα and nitric oxide, and low expression of Arginase-I. Moreover, we found increased expression of TLR4 mRNA and protein in Nur77−/− macrophages as well as increased phosphorylation of the p65 subunit of NFκB. Inhibition of NFκB activity blocked excess activation of Nur77−/− macrophages. Conclusions We conclude that the absence of Nur77 in monocytes and macrophages results in enhanced TLR signaling and polarization of macrophages towards a pro-inflammatory M1 phenotype. Despite having fewer monocytes, Nur77−/− mice developed significant atherosclerosis when fed a Western diet. These studies indicate that Nur77 is a novel target for modulating the inflammatory phenotype of monocytes and macrophages and may be important for regulation of atherogenesis.
Nonclassical patrolling monocytes are characterized by their unique ability to actively patrol the vascular endothelium under homeostatic and inflammatory conditions. Patrolling monocyte subsets (CX3CR1highLy6C− in mouse, and CX3CR1highCD14dimCD16+ in humans) are distinct from the classical monocyte subsets (CCR2highLy6C+ in mouse, and CCR2highCD14+CD16− in humans) and exhibit unique functions in the vasculature and inflammatory disease. Patrolling monocytes function in a number of disease settings to remove damaged cells and debris from the vasculature, and have been associated with wound healing and the resolution of inflammation in damaged tissues. This review highlights the unique functions of these patrolling monocytes in the vasculature and during inflammation.
Summary 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. As Nr4a1 regulates inflammatory gene expression and differentiation of Ly6Clow monocytes, decoupling these processes allows Ly6Clow monocytes to be studied independently.
The zebrafish nuclear progestin receptor (nPR; official symbol PGR) was identified and characterized to better understand its role in regulating reproduction in this well-established teleost model. A full-length cDNA was identified that encoded a 617-amino acid residue protein with high homology to PGRs in other vertebrates, and contained five domains characteristic of nuclear steroid receptors. In contrast to the multiplicity of steroid receptors often found in euteleosts and attributed to probable genome duplication, only a single locus encoding the full-length zebrafish pgr was identified. Cytosolic proteins from pgr-transfected cells showed a high affinity (K(d) = 2 nM), saturable, single-binding site specific for a native progestin in euteleosts, 4-pregnen-17,20 beta-diol-3-one (17,20 beta-DHP). Both 17,20 beta-DHP and progesterone were potent inducers of transcriptional activity in cells transiently transfected with pgr in a dual luciferase reporter assay, whereas androgens and estrogens had little potency. The pgr transcript and protein were abundant in the ovaries, testis, and brain and were scarce or undetectable in the intestine, muscle, and gills. Further analyses indicate that Pgr was expressed robustly in the preoptic region of the hypothalamus in the brain; proliferating spermatogonia and early spermatocytes in the testis; and in follicular cells and early-stage oocytes (stages I and II), with very low levels within maturationally competent late-stage oocytes (IV) in the ovary. The localization of Pgr suggests that it mediates progestin regulation of reproductive signaling in the brain, early germ cell proliferation in testis, and ovarian follicular functions, but not final oocyte or sperm maturation.
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