Norbert Kohrgruber scite author profile

Certain types of dendritic cells (DCs) appear in inflammatory lesions of various etiologies, whereas other DCs, e.g., Langerhans cells (LCs), populate peripheral organs constitutively. Until now, the molecular mechanism behind such differential behavior has not been elucidated. Here, we show that CD1a+ LC precursors respond selectively and specifically to the CC chemokine macrophage inflammatory protein (MIP)-3α. In contrast, CD14+ precursors of DC and monocytes are not attracted by MIP-3α. LCs lose the migratory responsiveness to MIP-3α during their maturation, and non-LC DCs do not acquire MIP-3α sensitivity. The notion that MIP-3α may be responsible for selective LC recruitment into the epidermis is further supported by the following observations: (a) MIP-3α is expressed by keratinocytes and venular endothelial cells in clinically normal appearing human skin; (b) LCs express CC chemokine receptor (CCR)6, the sole MIP-3α receptor both in situ and in vitro; and (c) non-LC DCs that are not found in normal epidermis lack CCR6. The mature forms of LCs and non-LC DCs display comparable sensitivity for MIP-3β, a CCR7 ligand, suggesting that DC subtype–specific chemokine responses are restricted to the committed precursor stage. Although LC precursors express primarily CCR6, non-LC DC precursors display a broad chemokine receptor repertoire. These findings reflect a scenario where the differential expression of chemokine receptors by two different subpopulations of DCs determines their functional behavior. One type, the LC, responds to MIP-3α and enters skin to screen the epidermis constitutively, whereas the other type, the “inflammatory” DC, migrates in response to a wide array of different chemokines and is involved in the amplification and modulation of the inflammatory tissue response.

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Detection and Prediction of Active Tuberculosis Disease by a Whole‐Blood Interferon‐γ Release Assay in HIV‐1–Infected Individuals

Aichelburg¹,

Rieger²,

et al. 2009

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Plasmacytoid dendritic cells express TRAIL and induce CD4+ T-cell apoptosis in HIV-1 viremic patients

Stary

Klein

Kohlhofer

et al. 2009

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Plasmacytoid Dendritic Cell Recruitment by Immobilized CXCR3 Ligands

et al. 2004

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Plasmacytoid dendritic cells (pDCs) recognize microbes, viruses in particular, and provide unique means of innate defense against them. The mechanism of pDC tissue recruitment remained enigmatic because the ligands of CXCR3, the cardinal chemokine receptor on pDCs, have failed to induce in vitro chemotaxis of pDCs in the absence of additional chemokines. In this study, we demonstrate that CXCR3 is sufficient to induce pDC migration, however, by a migratory mechanism that amalgamates the features of haptotaxis and chemorepulsion. To mediate “haptorepulsion” of pDCs, CXCR3 requires the encounter of its cognate ligands immobilized, optimally by heparan sulfate, in a form of a negative gradient. This is the first report of the absolute requirement of chemokine immobilization and presentation for its in vitro promigratory activity. The paradigmatic example of pDC haptorepulsion described here may represent a new pathophysiologically relevant migratory mechanism potentially used by other cells in response to other chemokines.

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Identification of PD-1 as a Unique Marker for Failing Immune Reconstitution in HIV-1–Infected Patients on Treatment

Grabmeier‐Pfistershammer

Schmitz²,

Rieger³

et al. 2011

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PD-1 expression on T cells correlates with T-cell exhaustion and disease progression in HIV-infected patients. Previous studies have shown that combinational antiretroviral therapy induced viral suppression results in immune restoration and reduced PD-1 expression. However, a significant number of patients fail to restore CD4 T cells despite suppression of HIV replication below limit of quantification. In this study, we have analyzed PD-1 expression on CD4 and CD8 T cells in patients with poor immune reconstitution despite successful highly active antiretroviral therapy. We found that T cells of such patients express significantly higher levels of PD-1 than patients who had normal recovery of CD4 cells after treatment. In contrast, failing immune reconstitution was not associated with the expression of activation markers, indicating that PD-1 is a unique marker for failing immune reconstitution despite viral suppression. Furthermore, we show that T cells from patients with poor immune recovery differ from T cells of elderly in respect of their marker profile. PD-1 expression negatively correlated with individual CD4 cell counts, and PD-1 expressing T cells were more prone to programmed death ligand-mediated inhibition of T-cell proliferation, indicating that PD-1-mediated T-cell suppression may have a role in impaired immune reconstitution in HIV patients.

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