Peter M. Mathisen scite author profile

We have made the following observations regarding self-recognition during the development and progression of murine experimental autoimmune encephalomyelitis (EAE) and human multiple sclerosis (MS): 1) chronic progression of EAE is accompanied by a sequential, predictable cascade of neo-autoreactivity, commonly referred to as epitope spreading, presumably caused by endogenous self-priming during autoimmune-mediated tissue damage; 2) there is an invariant relationship between the progression of EAE and the emergence of epitope spreading; 3) progression of EAE can be inhibited by the induction of antigen-specific tolerance to spreading determinants after onset of initial neurologic symptoms; 4) CD4+ Th 1 cells responding to spreading determinants are autonomously encephalitogenic; 5) epitope spreading occurs during the development of MS and in some cases involves HLA-DP class II-restricted self-recognition; and 6) progression of both EAE and MS is accompanied by the decline of primary T-cell autoreactivity associated with disease onset and by the concurrent emergence of the epitope spreading cascade. Our studies directly challenge the traditional view that EAE and MS are initiated and maintained by autoreactivity directed against a single predominant myelin protein or determinant. Our results indicate that progression of EAE and MS involves a shifting of T-cell autoreactivity from primary initiating self-determinants to defined cascades of secondary determinants that sustain the inflammatory self-recognition process during disease progression.

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In vivo effects of interferon beta-1a on immunosuppressive cytokines in multiple sclerosis

Rudick¹,

Ransohoff²,

Lee³

et al. 1998

Neurology

209

100

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Recombinant interferon beta (IFNbeta) benefits patients with relapsing remitting multiple sclerosis (MS), but the mechanisms of action are unknown. We studied in vivo immunologic effects of IFNbeta treatment and their relationship to clinical efficacy. Cytokines were measured in blood and CSF from MS patients participating in a placebo-controlled phase III clinical trial and an open-label phase IV [corrected] tolerability study of IFNbeta-1a. Additionally, immunologic studies were conducted in animals with proteolipid protein (PLP)-induced chronic relapsing experimental autoimmune encephalomyelitis. Single intramuscular (IM) injections of IFNbeta-1a (6 MIU, 30 microg) were associated with significant in vivo upregulation of interleukin-10 (IL-10) and IL-4 but not IFNgamma mRNA in peripheral blood mononuclear cells. Forty-eight hours after each IFNbeta-1a injection, serum IL-10 levels increased and remained elevated for 1 week. IFNbeta-1a recipients in the placebo-controlled phase III clinical trial showed significantly increased concentrations of CSF IL-10 after 2 years of treatment. This response correlated with a favorable therapeutic response. Exposure of PLP-reactive murine T-cell lines to IFNbeta resulted in increased antigen-driven expression of IL-4 and IL-10 and reduced encephalitogenicity. IFNbeta-1a injections induce systemic and intrathecal immunosuppressive cytokines. Myelin-specific T cells treated with IFNbeta-1a demonstrate increased immunosuppressive cytokine expression and reduced encephalitogenicity. The relationship between increased CSF IL-10 and response to therapy suggests that induction of IL-10 is a mechanism underlying IFNbeta-1a effects in MS patients.

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Treatment of Experimental Autoimmune Encephalomyelitis with Genetically Modified Memory T Cells

Mathisen

Johnson

et al. 1997

167

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The migratory properties of memory T cells provide a model vector system for site-specific delivery of therapeutic transgene factors to autoimmune inflammatory lesions. Lymph node cells from (SWR×SJL)F1 mice immunized with the p139–151 determinant of myelin proteolipid protein (PLP) were transfected with a DNA construct that placed the anti-inflammatory cytokine interleukin-10 (IL-10) cDNA under control of an antigen-inducible IL-2 promoter region. Isolated T cell clones demonstrated antigen-inducible expression of transgene IL-10 and expressed cell surface markers consistent with the phenotype of normal memory T cells. Upon adoptive transfer, transfected T cell clones were able to inhibit onset of experimental autoimmune encephalomyelitis (EAE) and to treat EAE animals therapeutically after onset of neurologic signs. Semiquantitative immunocytochemistry showed a significant correlation between decreased demyelination and treatment with the transfected T cells. Taken together, these data indicate the autoreactive T cells can be genetically designed to produce therapeutic factors in an antigen-inducible manner resulting in a decreased severity of clinical and histological autoimmune demyelinating disease.

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Identification of an embryonic isoform of myelin basic protein that is expressed widely in the mouse embryo.

Mathisen

Pease

Garvey

et al. 1993

Proc. Natl. Acad. Sci. U.S.A.

102

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We have identified a myelin basic protein (MBP) isoform in mouse embryos that includes an exon upstream of the usual transcription initiation site. This isoform, embryonic-neonatal MBP (E-MBP), is expressed at the protein level in the embryonic nervous system at a time when other MBP isoforms are not detected. In addition to the central and peripheral nervous systems of the embryo and neonate, the thymus, spleen, and testes also express E-MBP at the protein level. The expression of E-MBP in cell types distinct from the nervous system strongly suggests that this MBP isoform has a role apart from the formation of myelin.

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Developmental changes in keratin patterns during epidermal maturation

Ellison¹,

Mathisen²,

Miller³

1985

Developmental Biology

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Peter M. Mathisen

The epitope spreading cascade during progression of experimental autoimmune encephalomyelitis and multiple sclerosis

In vivo effects of interferon beta-1a on immunosuppressive cytokines in multiple sclerosis

Treatment of Experimental Autoimmune Encephalomyelitis with Genetically Modified Memory T Cells

Identification of an embryonic isoform of myelin basic protein that is expressed widely in the mouse embryo.

Developmental changes in keratin patterns during epidermal maturation

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