Chronic inflammation is characterized by continuous recruitment and activation of immune cells such as monocytes in response to a persistent stimulus. Production of proinflammatory mediators by monocytes leads to tissue damage and perpetuates the inflammatory response. However, the mechanism(s) responsible for the sustained influx of monocytes in chronic inflammation are not well defined. In chronic peritonitis induced by pristane, the persistent recruitment of Ly6C hi inflammatory monocytes into the peritoneum was abolished in type I interferon (IFN-I) receptor-deficient mice but was unaffected by the absence of IFN-␥, tumor necrosis factor-␣, interleukin-6, or interleukin-1. IFN-I signaling stimulated the production of chemokines (CCL2, CCL7, and CCL12) that recruited Ly6C hi monocytes via interactions with the chemokine receptor CCR2. Interestingly, after 2,6,10,14-tetramethylpentadecane treatment, the rapid turnover of inflammatory monocytes in the inflamed peritoneum was associated with a lack of differentiation into Ly6C lo monocytes/macrophages, a more mature subset with enhanced phagocytic capacity. In contrast, Ly6C hi monocytes differentiated normally into Ly6C lo cells in IFN-I receptor-deficient mice. The effects of IFN-I were specific for monocytes as granulocyte migration was unaffected in the absence of IFN-I signaling. Taken together, our findings reveal a novel role of IFN-I in promoting the recruitment of inflammatory monocytes via the chemokine receptor CCR2. Continuous monocyte recruitment and the lack of terminal differentiation induced by IFN-I may help sustain the chronic inflammatory response.
Objective. The premature atherosclerosis seen in patients with systemic lupus erythematosus (SLE) is not explained by traditional risk factors. SLE disease activity, such as renal involvement and presence of autoantibodies, is associated with elevated serum levels of type I interferon (IFN-I), a family of cytokines with potent antiviral and antiproliferative effects. This study was undertaken to test the hypothesis that elevated IFN-I levels could lead to endothelial dysfunction, a surrogate for cardiovascular disease, by causing a reduction in the number of endothelial progenitor cells (EPCs), bone marrow-derived cells that participate in endothelial repair.Methods. EPCs were enumerated in the peripheral blood of SLE patients (n ؍ 70) and healthy controls (n ؍ 31), using a colony-forming assay. Serum IFN-I levels were quantified by real-time polymerase chain reaction measurement of the expression of the IFN-I-inducible gene MX1. Endothelial function was determined by peripheral arterial plethysmography.Results. SLE patients had markedly reduced levels of EPC colony-forming units compared with controls (median 5.7/ml peripheral blood [interquartile range 1.9-12.8] versus 28.5/ml peripheral blood [14.7-47.3]; P < 0.0001), and the depletion of EPCs was more dramatic in patients with elevated levels of IFN-I.Stepwise multiple regression analysis showed that MX1 expression and serum levels of C-reactive protein were independently associated with the reduction of EPCs. Importantly, high IFN-I levels were associated with impaired endothelial function in patients with SLE. Conclusion. These data support the novel hypothesis that depletion of EPCs caused by excessive IFN-I may be linked to endothelial dysfunction and increased cardiovascular risk in SLE.It has been firmly established that patients with systemic lupus erythematosus (SLE) are at increased risk of cardiovascular mortality and morbidity (1,2). However, the premature atherosclerosis and endothelial dysfunction in SLE are not solely attributable to traditional cardiovascular risk factors (3,4). Indeed, the risk of developing coronary heart disease remains increased 8-10-fold even after adjustment for risk factors identified in the Framingham Heart Study (3). SLE itself has been determined to be an independent risk factor for endothelial dysfunction, and as many as 40% of patients with lupus exhibit subclinical atherosclerosis (5,6). The cause of the additional risk remains unclear, and factors related to the disease process itself have been implicated.A number of recent studies indicate that type I interferons (IFN-I) are integral to the pathogenesis of SLE (7). Originally characterized with regard to their antiviral properties, the type I IFNs IFN␣ and IFN play important roles in a multitude of immune functions. They exert potent antiproliferative and antiangiogenic effects and are commonly used in cancer treatment (8,9). Antinuclear antibodies, anti-double-stranded
Excess type I IFNs (IFN-I) have been linked to the pathogenesis of systemic lupus erythematosus (SLE). Therapeutic use of IFN-I can trigger the onset of SLE and most lupus patients display up-regulation of a group of IFN-stimulated genes (ISGs). Although this “IFN signature” has been linked with disease activity, kidney involvement, and autoantibody production, the source of IFN-I production in SLE remains unclear. 2,6,10,14-Tetramethylpentadecane-induced lupus is at present the only model of SLE associated with excess IFN-I production and ISG expression. In this study, we demonstrate that tetramethylpentadecane treatment induces an accumulation of immature Ly6Chigh monocytes, which are a major source of IFN-I in this lupus model. Importantly, they were distinct from IFN-producing dendritic cells (DCs). The expression of IFN-I and ISGs was rapidly abolished by monocyte depletion whereas systemic ablation of DCs had little effect. In addition, there was a striking correlation between the numbers of Ly6Chigh monocytes and the production of lupus autoantibodies. Therefore, immature monocytes rather than DCs appear to be the primary source of IFN-I in this model of IFN-I-dependent lupus.
Cell surface expression of the human cytomegalovirus (HCMV) major envelope glycoprotein complex, gp55-116 (gB), was studied by using monoclonal antibodies and an HCMV gp55-116 (gB) recombinant vaccinia virus. HCMV-infected human fibroblasts and recombinant vaccinia virus-infected HeLa cells expressed three electrophoretically distinct proteins of Mr 170,000, 116,000, and 55,000 on their surface. These species have been previously identified within infected cells and purified virions. Two unique neutralizing epitopes were shown to be present on the cell surface gp55-116 (gB). Utilizing HeLa cells infected with the gp55-116 recombinant vaccinia virus as a specific immunosorbent, we have shown that approximately 40 to 70% of the total serum virus-neutralizing activity of a group of individuals with past HCMV infections was directed against this single envelope glycoprotein. The implications of this finding for vaccine development are discussed.
Systemic lupus erythematosus (SLE) is an autoimmune disorder that affects women more frequently than men. In the (NZB × NZW)F1 mouse, a murine SLE model, the presence or absence of estrogen markedly influences the rate of progression of disease. Three organochlorine pesticides with estrogenic effects were administered chronically to ovariectomized female (NZB × NZW)F1 mice, and we measured the time to development of renal disease, the principal clinical manifestation of lupus in this model. Treatment with chlordecone, methoxychlor, or o,p′-dichlorodiphenyl-trichloroethane (o,p′-DDT) significantly decreased the time to onset of renal impairment, as did treatment with 17β-estradiol used as a positive control. In an expanded study of chlordecone, we found a dose-related early appearance of elevated anti–double-strand DNA autoantibody titers that corresponded with subsequent development of glomerulonephritis. Immunohistofluorescence confirmed early deposition of immune complexes in kidneys of mice treated with chlordecone. These observations are consistent with an effect of these organochlorine pesticides to accelerate the natural course of SLE in the (NZB × NZW)F1 mouse. Although we originally hypothesized that the effect on progression of autoimmunity was due to estrogenic properties of the pesticides, autoimmune effects and estrogenicity, assessed through measurement of uterine hypertrophy, were not well correlated. This may indicate that uterine hypertrophy is a poor indicator of comparative estrogenic effects of organochlorine pesticides on the immune system, or that the pesticides are influencing autoimmunity through a mode of action unrelated to their estrogenicity.
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