Low dose tolerance vaccine platform, reovirus protein sigma 1, and treatment of autoimmunity
Effective treatments for multiple sclerosis (MS) are problematic due to its unknown etiology. Experimental autoimmune encephalomyelitis (EAE) in rodents mimics MS. Mucosal treatment of EAE with antigens to induce tolerance is effective, but requires large and/or multiple administrations, which intro...
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ndltd-MONTSTATE-http---etd.lib.montana.edu-etd-2008-rynda-RyndaA1208.pdf2011-11-14T13:27:35Z Low dose tolerance vaccine platform, reovirus protein sigma 1, and treatment of autoimmunity Rynda, Agnieszka Effective treatments for multiple sclerosis (MS) are problematic due to its unknown etiology. Experimental autoimmune encephalomyelitis (EAE) in rodents mimics MS. Mucosal treatment of EAE with antigens to induce tolerance is effective, but requires large and/or multiple administrations, which introduces an allergy risk. We utilized reovirus adhesin, protein sigma 1 (p sigma1), to improve mucosal auto-antigen delivery and show that a single low-dose of pσ1-based vaccines induces tolerance and prevents autoimmunity when administered nasally. We engineered three pσ1-based vaccines carrying chicken ovalbumin (OVA-pσ1) and/or myelin antigens (PLP:OVA-pσ1, MOG-pσ1). When mice were nasally immunized with OVA-pσ1, tolerance to OVA was established. This tolerance resisted co-administration of mucosal adjuvants and peripheral challenge with OVA. Pσ1-mediated tolerance relied upon specific IL-10- producing regulatory T (T reg) cells, which inhibited OVA-specific CD4+ T cell proliferation. OVA-pσ1 did not generate tolerance in IL-10-deficient mice presumably by a failure to induce T reg cells. Mucosal, but not systemic pσ1 delivery, induced tolerance, while mice lacking mucosal inductive tissues were resistant to pσ1-mediated tolerance. Likewise, PLP:OVA-pσ1 and MOG-pσ1 protected mice against relapsing-remitting or acute EAE, respectively. Protection against PLP 139-151-induced EAE was accomplished by PLP:OVA-pσ1, but not OVA-pσ1, implicating antigen-specificity of pσ1-mediated tolerance. Moreover, MOG-pσ1, but not PLP:OVA-pσ1, ameliorated MOG 35-55-induced EAE via apoptosis of encephalitogenic CD4+ T cells. The PLP:OVA-pσ1- or MOG-pσ1-mediated protection against EAE depends on specific IL-10+ T reg cells and is supported by IL-4+ Th2-type cells. Adoptive transfer of PLP:OVA-pσ1-primed T reg cells entirely prevented EAE development in mice; however, transfer of PLP:OVA-pσ1-specific CD25-CD4 + Th2 cells significantly reduced and delayed clinical EAE. Aggressive EAE, due to the TGF-β which induced activation of Th17 cells, was observed in mice dosed with PLP:OVA-pσ1 and were functionally depleted of T reg cells. Concomitant inactivation of TGF-β and T reg cells induced Th2 cells bias and re-established PLP:OVA-pσ1-mediated protection against EAE. IL-10-producing B cells supported MOG-pσ1-mediated protection against EAE, as MOG-pσ1-dosed B cell-deficient mice developed attenuated disease. Adoptive transfer of T reg cells, but not Th2 or B cells from MOG-pσ1-dosed B6 mice to diseased IL-10-/- mice, significantly accelerated recovery from EAE. These data demonstrate the feasibility of using pσ1-based single-dose delivery system to prevent and/or treat autoimmunity. 2008-12-15 Dissertation Montana State University en http://etd.lib.montana.edu/etd/2008/rynda/RyndaA1208.pdf |
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Effective treatments for multiple sclerosis (MS) are problematic due to its unknown etiology. Experimental autoimmune encephalomyelitis (EAE) in rodents mimics MS. Mucosal treatment of EAE with antigens to induce tolerance is effective, but requires large and/or multiple administrations, which introduces an allergy risk. We utilized reovirus adhesin, protein sigma 1 (p sigma1), to improve mucosal auto-antigen delivery and show that a single low-dose of pσ1-based vaccines induces tolerance and prevents autoimmunity when administered nasally. We engineered three pσ1-based vaccines carrying chicken ovalbumin (OVA-pσ1) and/or myelin antigens (PLP:OVA-pσ1, MOG-pσ1). When mice were nasally immunized with OVA-pσ1, tolerance to OVA was established. This tolerance resisted co-administration of mucosal adjuvants and peripheral challenge with OVA. Pσ1-mediated tolerance relied upon specific IL-10- producing regulatory T (T reg) cells, which inhibited OVA-specific CD4+ T cell proliferation. OVA-pσ1 did not generate tolerance in IL-10-deficient mice presumably by a failure to induce T reg cells. Mucosal, but not systemic pσ1 delivery, induced tolerance, while mice lacking mucosal inductive tissues were resistant to pσ1-mediated tolerance. Likewise, PLP:OVA-pσ1 and MOG-pσ1 protected mice against relapsing-remitting or acute EAE, respectively. Protection against PLP 139-151-induced EAE was accomplished by PLP:OVA-pσ1, but not OVA-pσ1, implicating antigen-specificity of pσ1-mediated tolerance. Moreover, MOG-pσ1, but not PLP:OVA-pσ1, ameliorated MOG 35-55-induced EAE via apoptosis of encephalitogenic CD4+ T cells. The PLP:OVA-pσ1- or MOG-pσ1-mediated protection against EAE depends on specific IL-10+ T reg cells and is supported by IL-4+ Th2-type cells. Adoptive transfer of PLP:OVA-pσ1-primed T reg cells entirely prevented EAE development in mice; however, transfer of PLP:OVA-pσ1-specific CD25-CD4 + Th2 cells significantly reduced and delayed clinical EAE. Aggressive EAE, due to the TGF-β which induced activation of Th17 cells, was observed in mice dosed with PLP:OVA-pσ1 and were functionally depleted of T reg cells. Concomitant inactivation of TGF-β and T reg cells induced Th2 cells bias and re-established PLP:OVA-pσ1-mediated protection against EAE. IL-10-producing B cells supported MOG-pσ1-mediated protection against EAE, as MOG-pσ1-dosed B cell-deficient mice developed attenuated disease. Adoptive transfer of T reg cells, but not Th2 or B cells from MOG-pσ1-dosed B6 mice to diseased IL-10-/- mice, significantly accelerated recovery from EAE. These data demonstrate the feasibility of using pσ1-based single-dose delivery system to prevent and/or treat autoimmunity. |
author |
Rynda, Agnieszka |
spellingShingle |
Rynda, Agnieszka Low dose tolerance vaccine platform, reovirus protein sigma 1, and treatment of autoimmunity |
author_facet |
Rynda, Agnieszka |
author_sort |
Rynda, Agnieszka |
title |
Low dose tolerance vaccine platform, reovirus protein sigma 1, and treatment of autoimmunity |
title_short |
Low dose tolerance vaccine platform, reovirus protein sigma 1, and treatment of autoimmunity |
title_full |
Low dose tolerance vaccine platform, reovirus protein sigma 1, and treatment of autoimmunity |
title_fullStr |
Low dose tolerance vaccine platform, reovirus protein sigma 1, and treatment of autoimmunity |
title_full_unstemmed |
Low dose tolerance vaccine platform, reovirus protein sigma 1, and treatment of autoimmunity |
title_sort |
low dose tolerance vaccine platform, reovirus protein sigma 1, and treatment of autoimmunity |
publishDate |
2008 |
url |
http://etd.lib.montana.edu/etd/2008/rynda/RyndaA1208.pdf |
work_keys_str_mv |
AT ryndaagnieszka lowdosetolerancevaccineplatformreovirusproteinsigma1andtreatmentofautoimmunity |
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