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Division of Gene and Cell-Based Therapy (J.A.G., J.P.B.), King’s College London School of Medicine, London SE5 9PJ, United Kingdom; Department of Validation Biology (S.L.K., D.M.H., P.R., Z.L.), Biogen Idec Inc., Cambridge, Massachusetts 02142; and Department of Histopathology (J.M., M.Z.K.), King’s College Hospital, London SE5 9RS, United Kingdom
Address all correspondence and requests for reprints to: J. Paul Banga, King’s College London School of Medicine, Division of Gene and Cell-Based Therapy, Department of Diabetes, Endocrinology, and Internal Medicine, Bessemer Road, London SE5 9PJ, United Kingdom. E-mail: paul.banga{at}kcl.ac.uk.
Hyperthyroid Graves’ disease is a common autoimmune disorder mediated by agonistic antibodies to the TSH receptor, termed thyroid stimulating antibodies (TSAbs). Recently members of the TNF superfamily, B cell activating factor (BAFF) and a proliferation-inducing ligand (APRIL), have been identified along with their receptors, B cell maturation antigen and transmembrane activator and calcium-modulator and cyclophilin ligand interactor, and the BAFF-specific receptor. BAFF is a fundamental B cell survival/maturation factor, and both BAFF and APRIL have been implicated in antibody production. We investigated the effect of interfering with BAFF- and APRIL-mediated signals in an induced model of Graves’ disease by blockade of these factors using soluble decoy receptors. In a therapeutic setting in mice with established hyperthyroidism, we show that blockade of BAFF or BAFF+APRIL with BAFF-specific receptor-Fc and B cell maturation antigen-Fc, respectively, leads to significant reductions in the induced hyperthyroidism. This was supported by a parallel pattern of declining TSAbs in the responding animals. Histopathological analysis of splenic sections from treated animals revealed marked reductions in the B cell follicle regions, but staining with anti-CD138 revealed the persistence of plasma cells. Thus, the reductions in TSAbs in the treated animals were not related to overall plasma cell numbers in the secondary lymphoid organs. Our results are the first to demonstrate attenuation of established hyperthyroidism by therapeutic intervention aimed at autoreactive B cells and indicate that both BAFF and APRIL appear to play important roles in the development and survival of the autoantibody producing cells in this model.
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