Rhonda R. Voskuhl

T helper 1 (Th1) functional phenotype of human myelin basic protein-specific T lymphocytes.

Multiple sclerosis (MS) is widely accepted as an autoimmune disease with myelin basic protein (MBP) a candidate autoantigen. In the current report, human T cell lines specific for an immunodominant region of MBP were shown to have a functional phenotype similar to T helper 1 (Th1) inflammatory cells of the mouse on the basis of their antigen-specific cytotoxic activity and production of interferon-gamma and lymphotoxin/tumor necrosis factor-alpha, but not interleukin-4. In experimental allergic encephalomyelitis (EAE), a proposed animal model for MS, MBP-specific T cell lines which mediate disease are of the Th1 subtype. Thus, MBP-specific T cells in humans exist which are phenotypically similar to MBP-specific encephalitogenic T cells in murine EAE.

Gender differences of inducible nitric oxide production in SJL/J mice with experimental autoimmune encephalomyelitis

We identified gender related differences of inducible nitric oxide synthase (iNOS) expression and NO production in mice with experimental autoimmune encephalomyelitis (EAE). When myelin basic protein-specific T-lymphocytes derived from female mice were transferred, the female recipients developed more severe EAE and expressed higher levels of iNOS and NO than male recipients. When the T-lymphocytes derived from males were transferred, severe EAE was induced in neither female or male recipients and neither iNOS nor NO were detectable. These data show an association between No production and EAE severity, suggesting a possible role of NO in the pathogenesis of EAE.

Epitope spreading occurs in active but not passive EAE induced by myelin basic protein

Using experimental allergic encephalomyelitis, EAE, as a model for the study of autoimmune demyelinating disease in the CNS, previous studies have indicated that spread may occur with respect to the specificity of T cell responses during disease. This phenomenon, known as epitope spreading, is central to therapeutic strategies in multiple sclerosis (MS). However, in EAE, the clinical course, neuropathology and immunopathogenesis vary depending upon host factors and the method of disease induction. Since passive EAE in SJL/J mice resembles MS clinically and neuropathologically, this model was chosen to study the immune phenomenon of epitope spreading. T cells specific for whole 18.5 kDa MBP were used to initiate disease since MBP or one of its naturally occurring cleavage fragments may initiate a more physiological immune response than one generated to an artificially designed synthetic peptide. While a progressive increase in T cell responsiveness specific for the immunodominant MBP 87-106 region was observed during disease, there was no evidence of either intermolecular epitope spreading to the immunodominant region of proteolipid protein (PLP) 139-151 or of intramolecular epitope spreading to the exon 2 encoded region of MBP, which is spliced out of 18.5 kDa MBP. In addition there was no shift in immunodominance toward the subdominant MBP 16-35 region during disease. In contrast during active EAE induced by MBP, epitope spreading to the immunodominant epitope of PLP, 139-151, was observed. These data demonstrate that immune responses generated during passive versus active EAE may differ, and suggest that significant epitope spreading does not occur in chronic relapsing demyelinating disease initiated with T cells specific for whole MBP in the absence of exogenous antigen, complete Freunds adjuvant and pertussis. Implications of these findings with regard to epitope spreading in MS are discussed.

A novel candidate autoantigen in a multiplex family with multiple sclerosis: prevalence of T-lymphocytes specific for an MBP epitope unique to myelination.

Abstract Although the major isoform of myelin basic protein (MBP) in the healthy adult CNS is the 18.5-kDa protein, other isoforms containing exon 2 encoded protein (21.5 kDa and 20.2 kDa) exist and are expressed primarily during myelin formation. Since remyelination is a prominent feature in MS lesions, we examined the frequencies of T cell lines (TCLs) specific for epitopes within exon 2 encoded MBP (X2MBP), and also within 18.5-kDa MBP, in members of a multiplex family with MS. TCLs specific for X2MBP were as prevalent as TCLs specific for immunodominant epitopes within 18.5-kDa MBP. In addition, while frequencies of TCLs specific for 18.5-kDa MBP were no different between the affected and unaffected, the frequency of X2MBP-specific TCLs correlated with disease.

Purification of immunologically active recombinant 21.5 kDa isoform of human myelin basic protein

We have designed and expressed in bacteria a recombinant fetal form of human myelin basic protein (21.5 kDa isoform; rhMBP21.5), a candidate autoantigen in multiple sclerosis. An exon 2 insertion, carboxy-terminal histidine tag and preferred bacterial codons differentiate the MBP21.5 gene from that encoding the adult, brain-derived form of human MBP (18.5 kDa isoform; hMBP18.5). MBPs were expressed at high levels in E. coli and extracted from whole cells by simultaneous acid solubilization and mechanical disruption. A nearly two-fold increase in recombinant protein was detected in strains harboring MBP genes with bacterial preferred codons compared to genes containing human codons. The recombinant molecules were purified in two steps, first by reversed-phase chromatographic separation and then by metal affinity chromatography. Dimeric forms of recombinant MBP21.5 were detected under physiological conditions, however, substitution of a serine for the single cysteine at amino acid residue 81 resulted in only monomer formation. All forms of recombinant MBPs induced proliferative responses of human T lymphocytes specific for epitopes in MBP18.5 kDa. In contrast, human T cell lines that recognize an exon 2-encoded epitope of MBP responded to the 21.5 kDa isoform of MBP, but not the 18.5 kDa isoform.

A functional basis for the association of HLA class II genes adn susceptibility to multiple sclerosis: cellular immune responses to myelin basic protein in a multiplex family

This study has examined the cellular response to myelin basic protein (MBP) in a multiplex family with multiple sclerosis (MS). A total of 81 MBP-specific T cell lines (TCLs) were derived from three affected siblings and four healthy siblings. No difference was observed in estimated precursor frequencies of MBP-specific TCLs or peptide specificity of TCLs when comparing affected and unaffected siblings. MBP-specific TCLs from affected siblings, however, were restricted to the DRw15/DQw6 allele more frequently than those from unaffected siblings (P < 0.02). These data suggest that restriction of autoantigen-specific T cells may be the functional basis for disease susceptibility related to HLA class II inheritance.

T-lymphocyte recognition of a portion of myelin basic protein encoded by an exon expressed during myelination

Abstract The major isoform of myelin basic protein (MBP) in the healthy adult central nervous system is the 18.5-kDa protein which is produced by mRNA derived from exons 1, 3, 4, 5, 6 and 7 of the MBP gene. Since isoforms containing exon 2-encoded protein (X2MBP) are expressed during myelin formation, we examined T cell ractivity specific for X2MBP in a disease characterized by remyelination subsequent to demyelination, multiple sclerosis (MS). T cell lines specific for X2MBP were derived from three MS patients as well as one healthy control. This suggests that candidate autoantigens in demyelinating/remyelinating diseases should include not only the major isoforms of myelin proteins, but also isoforms expressed aberrantly during a disease process since they too may be the target of a T cell-mediated autoimmune process.

Human T lymphocytes specific for the immunodominant 83–99 epitope of myelin basic protein: Recognition of golli MBP HOG 7

Myelin basic protein (MBP) is a candidate auto‐antigen in the disease multiple sclerosis. Although MBP was thought to be sequestered behind the blood‐brain barrier, isoforms of MBPs have recently been demonstrated in lymphoid tissues. These isoforms, termed golli MBPs, contain sequences that are shared with “classic” MBP within the CNS. In the present study, we have determined that epitopes within golli MBP isoforms may be recognized by human T lymphocyte clones specific for classic MBP. Ten of 12 T‐cell clones recognized golli MBP. Although 11 clones were specific for the immunodominant 83–99 sequence, the clones differed with respect to human leukocyte antigen (HLA) restriction, T‐helper phenotype, cytolytic activity, and T‐cell receptor usage. Greater responses to classic MBP than to golli MBP suggested a difference in the ability of the two proteins to be processed and to present epitopes therein. These data advance the hypothesis that golli MBP sequences expressed within lymphoid tissues may be recognized by classic MBP‐specific T lymphocytes during central or peripheral tolerance.

Exon 2 containing myelin basic protein (MBP) transcripts are expressed in lesions of experimental allergic encephalomyelitis (EAE)

Abstract Exon 2 containing myelin basic protein (MBP) transcripts are expressed during developmental myelination in mice and humans, and during remyelination subsequent to virally induced demyelination in adult mice. Since remyelination characterizes CNS lesions during experimental allergic encephalomyelitis (EAE) and multiple sclerosis (MS), we investigated whether exon 2 containing isoforms of MBP are expressed in EAE lesions during relapsing disease. Exon 2 containing MBP transcripts were detected by in situ hybridization in 17 of 52 EAE mice and in 16 of 30 mice at the peak of the first or second episode of paralysis. Thus exon 2 containing MBP transcripts are expressed in lesions of the CNS during active phases of chronic relapsing autoimmune disease. Implications of these findings with respect to future therapies aimed toward enhancing remyelination in EAE and, possibly MS, are discussed.