Sandra Silva-Cardoso scite author profile

Objective. CD8؉ T cells are abundant in rheumatoid arthritis (RA). However, their role in disease pathogenesis is poorly defined. This study was undertaken to investigate the relationship between disease activity and CD8؉ T cell phenotypes, production of cytokines, and production of cytotoxic molecules in the peripheral blood (PB) and synovial fluid (SF) of patients with RA.Methods. CD8؉ T cell phenotypes were determined in 96 patients with RA (44 with disease in remission, 34 with active disease, 18 with low disease activity) and in 64 sex-and age-matched healthy controls. Ten paired PB and SF samples from patients with active RA were analyzed. The expression of surface markers, cytokines, and proteolytic enzymes in CD8؉ T cells was evaluated using flow cytometry.Results. PB CD8؉ T cells from RA patients with active disease exhibited an effector (CD27؊CD62L؊) phenotype (P ‫؍‬ 0.005), with elevated expression of proinflammatory cytokines (tumor necrosis factor ␣ [TNF␣], interferon-␥ [IFN␥], interleukin-6 [IL-6], IL-17A) when compared to healthy controls. In a state of remission, the same phenotype observed in patients with active disease persisted, including a significant increase in the frequency of CD69 (P < 0.001), but lower cytokine production was observed. SF CD8؉ T cells from RA patients expressed more robust effector memory (CD27؉CD62L؊) and activated (CD69؉) profiles compared to the T cell subsets in paired PB samples.

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Serum microRNA screening and functional studies reveal miR-483-5p as a potential driver of fibrosis in systemic sclerosis

Chouri

Servaas

Bekker

et al. 2018

Journal of Autoimmunity

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CXCL4 Exposure Potentiates TLR-Driven Polarization of Human Monocyte-Derived Dendritic Cells and Increases Stimulation of T Cells

Silva-Cardoso

Affandi

Spel

et al. 2017

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Chemokines have been shown to play immune-modulatory functions unrelated to steering cell migration. CXCL4 is a chemokine abundantly produced by activated platelets and immune cells. Increased levels of circulating CXCL4 are associated with immune-mediated conditions, including systemic sclerosis. Considering the central role of dendritic cells (DCs) in immune activation, in this article we addressed the effect of CXCL4 on the phenotype and function of monocyte-derived DCs (moDCs). To this end, we compared innate and adaptive immune responses of moDCs with those that were differentiated in the presence of CXCL4. Already prior to TLR- or Ag-specific stimulation, CXCL4-moDCs displayed a more matured phenotype. We found that CXCL4 exposure can sensitize moDCs for TLR-ligand responsiveness, as illustrated by a dramatic upregulation of CD83, CD86, and MHC class I in response to TLR3 and TLR7/8-agonists. Also, we observed a markedly increased secretion of IL-12 and TNF-α by CXCL4-moDCs exclusively upon stimulation with polyinosinic-polycytidylic acid, R848, and CL075 ligands. Next, we analyzed the effect of CXCL4 in modulating DC-mediated T cell activation. CXCL4-moDCs strongly potentiated proliferation of autologous CD4 T cells and CD8 T cells and production of IFN-γ and IL-4, in an Ag-independent manner. Although the internalization of Ag was comparable to that of moDCs, Ag processing by CXCL4-moDCs was impaired. Yet, these cells were more potent at stimulating Ag-specific CD8 T cell responses. Together our data support that increased levels of circulating CXCL4 may contribute to immune dysregulation through the modulation of DC differentiation.

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