Interferon (IFN)-a is involved in the pathogenesis of systemic lupus erythematosus. Studies in murine lupus models have revealed that type I IFN exerts either a protective effect in MRL/lpr, or can detrimentally impact disease progression, as in NZB/ W mice. To understand this paradox, we examined the kinetic global gene expression in pre-autoimmune NZB/W-, MRL/lprand normal BALB/c-derived splenic mononuclear cells following ex vivo IFN-a treatment. Analysis of IFN-a-induced gene expression patterns revealed genes associated with antiproliferative activity of IFN-a including CDKN1A, GADD45B, pituitary tumor-transforming 1, SCOTIN, ataxia telangiectasia-mutated homolog and calcyclin-binding protein were upregulated in MRL/ lpr and/or BALB/c mice. Of IFN-a-induced genes differentially expressed in NZB/W vs BALB/c and MRL/lpr mice at 3 h time point, enhanced expression of CCND1, cyclin D2, matrix metalloproteinase 13 and a panel of cytokines and chemokines and impaired expression of negative inflammatory regulators CD69 and an Src family kinase hemopoietic cell kinase were notable. Interestingly, the splenic mononuclear cells from the NZB/W not MRL/lpr lupus-prone mice at the pre-autoimmune stage before ex vivo IFN-a treatment, have increased expression of many known IFN-regulated genes. These results provide a unique genomic view of ex vivo IFN-a response in two lupus-prone models, and help to have an insight into the role of IFN-a in lupus pathogenesis Genes and Immunity (2007)
IntroductionSystemic lupus erythematosus (SLE) is a prototypic systemic autoimmune disease characterized by a break of immune tolerance to self antigens, resulting in inflammation and damage to a range of organ systems. The exact pathoetiology of SLE remains elusive. Elevated serum levels of IFN-a have long been observed and correlated with disease activity. A series of studies using microarray gene expression analysis in patient peripheral blood cells demonstrated an 'IFN signature' in SLE, which correlated with renal and hematological involvement of phenotypes. [1][2][3][4][5][6] Supporting evidence has also come from studies on murine lupus. The (New Zealand Black (NZB) Â New Zealand White (NZW))F1 hybrid female mice (NZB/W) develop a disease closely resembling human SLE, characterized by the production of antinuclear antibodies, severe glomerulonephritis and early mortality. In the NZB parental strain, which also develops a lupus-like syndrome, homozygous IFN-a/b R-deleted NZB mice had significantly reduced antierythrocyte autoantibodies, erythroblastosis, hemolytic anemia, anti-DNA autoantibodies, kidney disease and mortality. 7 In contrast to normal BALB/c mice, continuous in vivo treatment of IFN-a in pre-autoimmune NZB/W mice from 8 weeks of age precipitates the autoimmune process and kidney damage, leading to premature death from severe immune complex glomerulonephritis. This result provides a direct evidence that IFN-a is implicated in the pathogenesis of SLE. 8 Thus, the type I IFNs have emerged as a dominant target in the path...
