Your search keyword '"Szomolanyi-Tsuda E"' showing total 2 results

1. Unique contribution of IRF-5-Ikaros axis to the B-cell IgG2a response.

Author

Fang, C-M, Roy, S, Nielsen, E, Paul, M, Maul, R, Paun, A, Koentgen, F, Raval, F M, Szomolanyi-Tsuda, E, and Pitha, P M

Subjects

INTERFERON regulatory factors, TRANSCRIPTION factors, B cells, IMMUNOGLOBULIN G, TOLL-like receptors, IMMUNE response, NATURAL immunity, CYTOKINES

Abstract

IRF-5 is a transcription factor activated by toll like receptor (TLR)7 and TLR9 during innate immune responses. IRF-5 activates not only Type I IFN, but also inflammatory cytokines. Most importantly, a genetic variation in the IRF-5 gene shows a strong association with autoimmune diseases such as Lupus. Here, we report that IRF5-deficient mice have attenuated IgG2a/c responses to T-cell-dependent and -independent antigens and to polyoma virus infection. This defect is due to the intrinsic deletion of IRF-5 in B cells, as SCID mice reconstituted with Irf5−/− B cells show a decrease in IgG2a/c expression after viral infection compared with mice that received wild-type B cells. Irf5−/−B cells in vitro have diminished TLR and cytokine-induced class switching to IgG2a/c. Addressing the molecular mechanism, we show that IRF-5 regulates IgG2a/c expression by decreasing Ikaros expression; reconstitution of IRF-5 in Irf5−/− B cells downregulates Ikaros levels and increases switching to IgG2a/c. The IRF site in ikzf1 promoter binds IRF-5, IRF-4 and IRF-8. We show that IRF-8 but not IRF-4 activates the ikzf1 promoter, and IRF-5 inhibits the transcriptional activity of IRF-8. Collectively, these results identify the IRF-5-Ikaros axis as a critical modulator of IgG2a/c class switching. [ABSTRACT FROM AUTHOR]

Published

2012

2. Mycoplasma infection induces a scleroderma-like centrosome autoantibody response in mice.

Author

Gavanescu, I., Pihan, G., Halilovic, E., Szomolanyi-Tsuda, E., Welsh, R. M., and Doxsey, S.

Subjects

AUTOANTIBODIES, INFECTION, CENTROSOMES, AUTOIMMUNITY, SCLERODERMA (Disease), AUTOIMMUNE diseases

Abstract

Development of autoantibodies to intracellular molecules is a universal feature of autoimmune diseases and parallels onset of chronic inflammatory pathology. Initiating antigens of disease-specific autoantibody responses are unknown. We previously showed that the major targets of autoantibodies in scleroderma are centrosomes, organelles involved in mitotic spindle organization. Here we show that centrosome autoantibodies are induced in mice by mycoplasma infection. The centrosome-specific antibody response involves class switching of preexisting IgM to IgG isotypes, suggesting a T cell-dependent mechanism. The antibody response spreads to include additional intracellular targets, with newly recruited autoantibody specificities arising as IgM isotypes. Antibiotic treatment of mice prevents autoantibody development. Centrosome autoantibodies may provide an aetiological link between infection and human autoimmunity and suggest novel therapeutic strategies in these disorders. [ABSTRACT FROM AUTHOR]

Published

2004