Poh-Yi Gan1,2, Andrea S Godfrey3, Joshua D Ooi3, Kim-Maree O'Sullivan3, Virginie Oudin3, A Richard Kitching3,4,5, Stephen R Holdsworth3,2,4. 1. Department of Medicine, Centre for Inflammatory Diseases, Monash University, Clayton, Victoria, Australia; and Departments of Poh-yi.gan@monash.edu. 2. Immunology. 3. Department of Medicine, Centre for Inflammatory Diseases, Monash University, Clayton, Victoria, Australia; and Departments of. 4. Nephrology, and. 5. Pediatric Nephrology, Monash Health, Clayton, Victoria, Australia.
Abstract
BACKGROUND: Myeloperoxidase (MPO)-ANCA-associated GN is a significant cause of renal failure. Manipulating autoimmunity by inducing regulatory T cells is potentially a more specific and safer therapeutic option than conventional immunosuppression. METHODS: To generate MPO-specific regulatory T cells, we used a modified protein-conjugating compound, 1-ethyl-3-(3'dimethylaminopropyl)-carbodiimide (ECDI), to couple the immunodominant MPO peptide (MPO409-428) or a control ovalbumin peptide (OVA323-339) to splenocytes and induced apoptosis in the conjugated cells. We then administered MPO- and OVA-conjugated apoptotic splenocytes (MPO-Sps and OVA-Sps, respectively) to mice and compared their effects on development and severity of anti-MPO GN. We induced autoimmunity to MPO by immunizing mice with MPO in adjuvant; to trigger GN, we used low-dose antiglomerular basement membrane globulin, which transiently recruits neutrophils that deposit MPO in glomeruli. We also compared the effects of transferring CD4+ T cells from mice treated with MPO-Sp or OVA-Sp to recipient mice with established anti-MPO autoimmunity. RESULTS: MPO-Sp but not OVA-Sp administration increased MPO-specific, peripherally derived CD4+Foxp3- type 1 regulatory T cells and reduced anti-MPO autoimmunity and GN. However, in mice depleted of regulatory T cells, MPO-Sp administration did not protect from anti-MPO autoimmunity or GN. Mice with established anti-MPO autoimmunity that received CD4+ T cells transferred from mice treated with MPO-Sp (but not CD4+ T cells transferred from mice treated with OVA-Sp) were protected from anti-MPO autoimmunity and GN, confirming the induction of therapeutic antigen-specific regulatory T cells. CONCLUSIONS: These findings in a mouse model indicate that administering apoptotic splenocytes conjugated with the immunodominant MPO peptide suppresses anti-MPO GN by inducing antigen-specific tolerance.
BACKGROUND:Myeloperoxidase (MPO)-ANCA-associated GN is a significant cause of renal failure. Manipulating autoimmunity by inducing regulatory T cells is potentially a more specific and safer therapeutic option than conventional immunosuppression. METHODS: To generate MPO-specific regulatory T cells, we used a modified protein-conjugating compound, 1-ethyl-3-(3'dimethylaminopropyl)-carbodiimide (ECDI), to couple the immunodominant MPO peptide (MPO409-428) or a control ovalbumin peptide (OVA323-339) to splenocytes and induced apoptosis in the conjugated cells. We then administered MPO- and OVA-conjugated apoptotic splenocytes (MPO-Sps and OVA-Sps, respectively) to mice and compared their effects on development and severity of anti-MPO GN. We induced autoimmunity to MPO by immunizing mice with MPO in adjuvant; to trigger GN, we used low-dose antiglomerular basement membrane globulin, which transiently recruits neutrophils that deposit MPO in glomeruli. We also compared the effects of transferring CD4+ T cells from mice treated with MPO-Sp or OVA-Sp to recipient mice with established anti-MPOautoimmunity. RESULTS:MPO-Sp but not OVA-Sp administration increased MPO-specific, peripherally derived CD4+Foxp3- type 1 regulatory T cells and reduced anti-MPOautoimmunity and GN. However, in mice depleted of regulatory T cells, MPO-Sp administration did not protect from anti-MPOautoimmunity or GN. Mice with established anti-MPOautoimmunity that received CD4+ T cells transferred from mice treated with MPO-Sp (but not CD4+ T cells transferred from mice treated with OVA-Sp) were protected from anti-MPOautoimmunity and GN, confirming the induction of therapeutic antigen-specific regulatory T cells. CONCLUSIONS: These findings in a mouse model indicate that administering apoptotic splenocytes conjugated with the immunodominant MPO peptide suppresses anti-MPO GN by inducing antigen-specific tolerance.
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