Meredith O’Keeffe scite author profile

The development of functionally specialized subtypes of dendritic cells (DCs) can be modeled through the culture of bone marrow with the ligand for the cytokine receptor Flt3. Such cultures produce DCs resembling spleen plasmacytoid DCs (pDCs), CD8(+) conventional DCs (cDCs) and CD8(-) cDCs. Here we isolated two sequential DC-committed precursor cells from such cultures: dividing 'pro-DCs', which gave rise to transitional 'pre-DCs' en route to differentiating into the three distinct DC subtypes (pDCs, CD8(+) cDCs and CD8(-) cDCs). We also isolated an in vivo equivalent of the DC-committed pro-DC precursor cell, which also gave rise to the three DC subtypes. Clonal analysis of the progeny of individual pro-DC precursors demonstrated that some pro-DC precursors gave rise to all three DC subtypes, some produced cDCs but not pDCs, and some were fully committed to a single DC subtype. Thus, commitment to particular DC subtypes begins mainly at this pro-DC stage.

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Intrasplenic steady-state dendritic cell precursors that are distinct from monocytes

Naik

et al. 2006

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Immediate precursors of the many subtypes of dendritic cells (DCs) remain obscure. Here we purified a splenic precursor population that produced all splenic CD8+ and CD8- conventional DCs (cDCs) but not plasmacytoid DCs or other lineages. This 'pre-cDC' population included cells 'precommitted' to form either CD8+ or CD8- cDCs. The pre-cDCs, which comprised 0.05% of splenocytes, expressed a CD11c(int) CD45RA(lo) CD43(int) SIRP-alpha(int) CD4- CD8- major histocompatibility complex class II-negative surface phenotype. The pre-cDCs were not monocytes. Monocytes generated few cDCs in steady-state recipient mice. However, when transferred into mice with an inflammatory milieu dependent on granulocyte-macrophage colony-stimulating factor, monocytes produced a distinct type of splenic DC. Thus, the inflammatory status of the host influences the developmental origin and type of DC present in lymphoid tissues.

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Cutting Edge: Generation of Splenic CD8+ and CD8− Dendritic Cell Equivalents in Fms-Like Tyrosine Kinase 3 Ligand Bone Marrow Cultures

et al. 2005

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We demonstrate that functional and phenotypic equivalents of mouse splenic CD8+ and CD8− conventional dendritic cell (cDC) subsets can be generated in vitro when bone marrow is cultured with fms-like tyrosine kinase 3 (flt3) ligand. In addition to CD45RAhigh plasmacytoid DC, two distinct CD24high and CD11bhigh cDC subsets were present, and these subsets showed equivalent properties to splenic CD8+ and CD8− cDC, respectively, in the following: 1) surface expression of CD11b, CD24, and signal regulatory protein-α; 2) developmental dependence on, and mRNA expression of, IFN regulatory factor-8; 3) mRNA expression of TLRs and chemokine receptors; 4) production of IL-12 p40/70, IFN-α, MIP-1α, and RANTES in response to TLR ligands; 5) expression of cystatin C; and 6) cross-presentation of exogenous Ag to CD8 T cells. Furthermore, despite lacking surface CD8 expression, the CD24high subset contained CD8 mRNA and up-regulated surface expression when transferred into mice. This culture system allows access to bona fide counterparts of the splenic DC subsets.

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Quantitative Proteomics Reveals Subset-Specific Viral Recognition in Dendritic Cells

et al. 2010

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Dendritic cell (DC) populations consist of multiple subsets that are essential orchestrators of the immune system. Technological limitations have so far prevented systems-wide accurate proteome comparison of rare cell populations in vivo. Here, we used high-resolution mass spectrometry-based proteomics, combined with label-free quantitation algorithms, to determine the proteome of mouse splenic conventional and plasmacytoid DC subsets to a depth of 5,780 and 6,664 proteins, respectively. We found mutually exclusive expression of pattern recognition pathways not previously known to be different among conventional DC subsets. Our experiments assigned key viral recognition functions to be exclusively expressed in CD4(+) and double-negative DCs. The CD8alpha(+) DCs largely lack the receptors required to sense certain viruses in the cytoplasm. By avoiding activation via cytoplasmic receptors, including retinoic acid-inducible gene I, CD8alpha(+) DCs likely gain a window of opportunity to process and present viral antigens before activation-induced shutdown of antigen presentation pathways occurs.

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Differential Production of IL-12, IFN-α, and IFN-γ by Mouse Dendritic Cell Subsets

et al. 2001

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Dendritic cells (DC) not only stimulate T cells effectively but are also producers of cytokines that have important immune regulatory functions. In this study we have extended information on the functional differences between DC subpopulations to include differences in the production of the major immune-directing cytokines IL-12, IFN-α, and IFN-γ. Splenic CD4−8+ DC were identified as the major IL-12 producers in response to microbiological or T cell stimuli when compared with splenic CD4−8− or CD4+8− DC; however, all three subsets of DC showed similar IL-12 regulation and responded with increased IL-12 p70 production if IL-4 was present during stimulation. High level CD8 expression also correlated with extent of IL-12 production for DC isolated from thymus and lymph nodes. By using gene knockout mice we ruled out any role for CD8α itself, or of priming by T cells, on the superior IL-12-producing capacity of the CD8+ DC. Additionally, CD8+ DC were identified as the major producers of IFN-α compared with the two CD8− DC subsets, a finding that suggests similarity to the human plasmacytoid DC lineage. In contrast, the CD4−8− DC produced much more IFN-γ than the CD4−8+ or the CD4+8− DC under all conditions tested.

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Herpes simplex virus type-1 induces IFN-α production via Toll-like receptor 9-dependent and -independent pathways

Hochrein

Schlatter

O’Keeffe

et al. 2004

Proc. Natl. Acad. Sci. U.S.A.

393

332

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Type I IFN production in response to the DNA virus herpes simplex virus type-1 (HSV-1) is essential in controlling viral replication. We investigated whether plasmacytoid dendritic cells (pDC) were the major tissue source of IFN-␣, and whether the production of IFN-␣ in response to HSV-1 depended on Toll-like receptor 9 (TLR9). Total spleen cells or bone marrow (BM) cells, or fractions thereof, including highly purified pDC, from WT, TLR9, and MyD88 knockout mice were stimulated with known ligands for TLR9 or active HSV-1. pDC freshly isolated from both spleen and BM were the major source of IFN-␣ in response to oligodeoxynucleotides containing CpG motifs, but in response to HSV-1 the majority of IFN-␣ was produced by other cell types. Moreover, IFN-␣ production by non-pDC was independent of TLR9. The tissue source determined whether pDC responded to HSV-1 in a strictly TLR9-dependent fashion. Freshly isolated BM pDC or pDC derived from culture of BM precursors with FMS-like tyrosine kinase-3 ligand, produced IFN-␣ in the absence of functional TLR9, whereas spleen pDC did not. Heat treatment of HSV-1 abolished maturation and IFN-␣ production from all TLR9-deficient DC but not WT DC. Thus pDC and non-pDC produce IFN-␣ in response to HSV-1 via both TLR9-independent and -dependent pathways.

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The Development, Maturation, and Turnover Rate of Mouse Spleen Dendritic Cell Populations

et al. 2000

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Three distinct subtypes of dendritic cells (DC) are present in mouse spleen, separable as CD4−8α−, CD4+8α−, and CD4−8α+ DC. We have tested whether these represent stages of development or activation within one DC lineage, or whether they represent separate DC lineages. All three DC subtypes appear relatively mature by many criteria, but all retain a capacity to phagocytose particulate material in vivo. Although further maturation or activation could be induced by bacterially derived stimuli, phagocytic capacity was retained, and no DC subtype was converted to the other. Continuous elimination of CD4+8− DC by Ab depletion had no effect on the levels of the other DC subtypes. Bromodeoxyuridine labeling experiments indicated that all three DC subtypes have a rapid turnover (half-life, 1.5–2.9 days) in the spleen, with none being the precursor of another. The three DC subtypes showed different kinetics of development from bone marrow precursors. The CD8α+ spleen DC, apparently the most mature, displayed an extremely rapid turnover based on bromodeoxyuridine uptake and the fastest generation from bone marrow precursors. In conclusion, the three splenic DC subtypes behave as rapidly turning over products of three independent developmental streams.

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Interleukin (Il)-4 Is a Major Regulatory Cytokine Governing Bioactive IL-12 Production by Mouse and Human Dendritic Cells

et al. 2000

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Interleukin (IL)-12 may be secreted as a bioactive T helper type 1 (Th1) cell–inducing heterodimer, as a monomer, or as an antagonistic homodimer. We analyzed the IL-12 produced by mouse splenic dendritic cells (DCs), human thymic DCs, and cultured human monocyte-derived DCs. IL-12 production required both a microbial or T cell–derived stimulus and an appropriate cytokine milieu. The different IL-12 forms were differentially regulated by the cytokines present rather than the stimulus used. IL-4 alone or together with granulocyte/macrophage colony-stimulating factor or interferon γ effectively enhanced the production of the bioactive heterodimer and selectively reduced the antagonistic homodimer of IL-12. Therefore, IL-4, the major Th2-driving cytokine, provides a negative feedback causing DCs to produce the major Th1-inducing cytokine, bioactive IL-12.

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