Multiple Sclerosis: Tourtellotte WW

Freedman MS, Thompson EJ, Deisenhammer F, Giovannoni G, Grimsley G, Keir G, Ohman S, Racke MK, Sharief M, Sindic CJ, Sellebjerg F, Tourtellotte WW. · Department of Medicine (Neurology), University of Ottawa, Multiple Sclerosis Research Clinic, The Ottawa Hospital, Ottawa, Ontario, Canada. · Arch Neurol. · Pubmed #15956157 links to  free full text

Abstract: New criteria for the diagnosis of multiple sclerosis (MS) were published as the result of an internationally formed committee. To increase the specificity of diagnosis and to minimize the number of false diagnoses, the committee recommended the use of both clinical and paraclinical criteria, the latter involving information obtained from magnetic resonance imaging, evoked potentials, and cerebrospinal fluid (CSF) analysis. Although rigorous magnetic resonance imaging requirements were provided, the "new criteria paper" fell short in terms of guidelines as to how the CSF analysis should be performed and simply equated the IgG index with isoelectric focusing, without any justification. The spectrum of parameters analyzed and methods for CSF analysis differ worldwide and often yield variable results in terms of sensitivity, specificity, accuracy, and reliability, with no decided "optimal" CSF test for the diagnosis of MS. To address this question specifically, an international panel of experts in MS and CSF diagnostic techniques was convened and the result was this article, representing a consensus of all the participants. These recommendations for establishing a standard for the evaluation of CSF in patients suspected of having MS should greatly complement the new criteria in ensuring that a correct diagnosis of MS is being made.

Casserly G, Barry T, Tourtellotte WW, Hogan EL. · Molecular Diagnostics Laboratory, Department of Microbiology, National University of Ireland Galway, University Road, Galway, Ireland. · J Neurol Sci. · Pubmed #17234214 No free full text.

Abstract: Mycoplasmas are the smallest of the known self-replicating organisms. They lack cell walls and are associated with numerous diseases in humans and animals. We are exploring the possibility that infection by Mycoplasma may induce the inflammatory demyelinating disease of the central nervous system (CNS) that is MS. The presence of specific Mycoplasma species DNA was sought in brain, serum and cerebrospinal fluid (CSF) of patients diagnosed with multiple sclerosis (MS) and other neurological diseases (OND) including inflammatory disorders. The MS samples from patients with active and progressive MS, as well as in remission, a variety of other neurological disease controls, including inflammatory CNS diseases such as meningitis, cryptococcal meningitis and encephalitis and other neurological disorders such as migraine were also examined. Clinical samples were provided by the National Neurological Research Specimen Bank and the Human Brain and Spinal Fluid Resource Centre, Los Angeles. Analysis was carried out by conventional PCR using Mycoplasma-specific primers (McAuliffe et al., 2005) that target the 16S rDNA gene in Mycoplasma species. The Mycoplasma-specific primers could detect 102 Mycoplasma species. In this study, 30 samples of human brain and 57 pairs of serum and CSF and were examined. No Mycoplasma-specific nucleic acid sequence was detected, and the consistent observation of an endogenous gene, human serum albumin (HSA), as a positive control documented the adequacy of the method. Real-time PCR analysis of serum and CSF was done also targeting utilizing the Mycoplasma 16S rDNA gene, and this also demonstrated the lack of Mycoplasma in these samples. The presence of Mycoplasma at extraneural sites in MS patients is now being explored.

Zhang Y, Da RR, Hilgenberg LG, Tourtellotte WW, Sobel RA, Smith MA, Olek M, Nagra R, Sudhir G, van den Noort S, Qin Y. · Department of Neurology, University of California, Irvine, 100 Irvine Hall, Irvine, CA 92697-4275, USA. · J Neuroimmunol. · Pubmed #16099056 No free full text.

Abstract: Immunoglobulin A (IgA), the predominant immunoglobulin class in mucosal secretions, has been found in the cerebrospinal fluid of patients with multiple sclerosis (MS). In this study we examined the infiltration of clonally expanded IgA plasma cells in lesions of MS brains. Sequences of complementarity-determining region 3 of IgA variable heavy chain (V(H)) genes demonstrated the clonal expansion of IgA-bearing plasma cells in MS lesions. Somatic mutations and ongoing intra-clonal mutations occurred in their V(H) genes. Immunohistochemical study demonstrated infiltration of dimer and polymer IgA1- and A2-positive plasma cells in perivascular spaces, in the parenchyma of MS lesions, and in the adjacent white matter. Double immunofluorescence staining showed binding of IgA antibody on axons and walls of microvessels in the areas of chronic active and inactive demyelination. Bielshowsky's silver impregnation revealed axonal damage in these areas. These findings suggest that IgA in the CNS are localized on axons in lesions and may contribute to axonal damage in MS.

Zhang Y, Da RR, Guo W, Ren HM, Hilgenberg LG, Sobel RA, Tourtellotte WW, Smith MA, Olek M, Gupta S, Robertson RT, Nagra R, Van Den Noort S, Qin Y. · Department of Neurology, University of California, Irvine, California 92697-4275, USA. · J Clin Immunol. · Pubmed #15981091 No free full text.

Abstract: Demyelination and axonal loss have been described as the histological hallmarks of inflammatory lesions of multiple sclerosis (MS) and are the pathological correlates of persistent disability. However, the immune mechanisms underlying axonal damage in MS remain unknown. Here, we report the use of single chain-variable domain fragments (scFv) from clonally expanded cerebrospinal fluid (CSF) B cells to show the role of an anti-axon immune response in the central nervous system (CNS) in MS. The cellular and subcellular distribution of the antigen(s) recognized by these CSF-derived clonal scFv antibodies (CSFC-scFv Abs) was studied by immunochemical staining of brain tissues obtained at autopsy from patients with MS. Immunochemistry showed specific binding of CSFC-scFv Abs to axons in acute MS lesions. The stained axons showed three major types of axonal pathological changes: 1) linear axons, axonal ovoid formation, and axonal transection were seen in the myelinated white matter adjacent to the lesion; 2) accumulation of axonal ovoid formations and Wallerian degeneration were seen at the border between demyelinated lesions and the adjacent white matter; and 3) Wallerian degeneration occurred at the center and edge of acute demyelinated lesions. These findings suggest a B cell axonal specific immune response in the CNS in MS.

Gade-Andavolu R, Comings DE, MacMurray J, Vuthoori RK, Tourtellotte WW, Nagra RM, Cone LA. · Genetic Research Institute of the Desert, Eisenhower Medical Center, Probst # 308, 39000 Bob Hope Dr, Rancho Mirage, CA 92270, USA. · Mult Scler. · Pubmed #15471370 No free full text.

Abstract: Regulated upon activation, normal T-cell expressed and secreted (RANTES) is a beta-chemokine and has been detected in brain lesions of multiple sclerosis (MS) patients. Considering its potential role in MS, we screened two functional polymorphisms in the proximal promoter region of the RANTES in MS patients versus controls. METHODS: We examined 140 postmortem brain samples from subjects with a primary diagnosis of MS, and peripheral blood samples from 216 control subjects. The RANTES-28C/G and -403G/A promoter polymorphisms were examined. All subjects were non-Hispanic Caucasians. RESULTS: MS cases differed from controls showing a significant association with the 403G/A polymorphism (odds ratio, 2.359, [1.465-3.799]; P=0.0001), but not the -28C/G (P=NS) polymorphism. There was a significant association of the -28G allele with both early onset (P=0.031) and longer survival (P=0.006). CONCLUSION: There is a significant but complex association of the RANTES gene with MS.

Gade-Andavolu R, Comings DE, MacMurray J, Rostamkhani M, Cheng LS, Tourtellotte WW, Cone LA. · Genetic Research Institute of the Desert, Eisenhower Medical Center, Rancho Mirage, California 92270, USA. · Genet Med. · Pubmed #15354329 No free full text.

Abstract: PURPOSE: The interaction between chemokines and their receptors is extremely important in controlling T cell migration into sites of CNS inflammation. Because trafficking of inflammatory T cells into the central nervous system (CNS) is a key player in the pathogenesis of multiple sclerosis (MS), we investigated the possible association of CCR5 delta32 deletion in this disorder. METHODS: DNA isolated from postmortem brain tissue samples of 132 patients with MS and from blood tissue samples of 163 gender and ethnicity-matched healthy controls was used to screen for the CCR5 delta32 deletion allele. RESULTS: An increased frequency of 32-bp deletion allele was found to be associated with early death (P = 0.00005) and with a progressive reduction in the years of survival (onset to death). The death hazard ratio of CCR5 with deletion versus no deletion was 2.12, suggesting that MS patients with the 32-bp deletion have twice the mortality rate of patients with the normal genotype. This effect was more significant in females (hazard ratio 3.58). CONCLUSION: A strong association of the CCR5delta32 deletion with early death could serve as a prognostic marker for MS.

Nicholas AP, Sambandam T, Echols JD, Tourtellotte WW. · Department of Neurology, University of Alabama at Birmingham and the Birmingham Veterans Administration Medical Center, Birmingham, Alabama 35249-7340, USA. · J Comp Neurol. · Pubmed #15067723 No free full text.

Abstract: In this study, we demonstrate that grossly unaffected white matter from secondary progressive multiple sclerosis (SP-MS) patients is heavily citrullinated, as compared to normal white matter from control patients. Citrullination was most pronounced at plaque interfaces and was shown to colocalize with glial fibrillary acidic protein (GFAP)-immunoreactivity using dual color immunofluorescence. In contrast, the plaques themselves weakly stained for citrullinated proteins compared to control white matter and usually contained a blood vessel with surrounding astrocytes that were positive both for citrullinated proteins and GFAP. In SP-MS brain samples, but not in normal brains, long fibers of colocalized GFAP- and citrullinated proteins extended into the gray matter. Increased numbers of astrocytes containing citrullinated proteins and GFAP were also present at the junction between the gray and white matter in SP-MS brains. Western blot analysis of acidic brain proteins from nonplaque-containing white matter showed upregulation of multiple citrullinated GFAP proteins in SP-MS brains as compared to controls. Our results demonstrate that increased amounts of citrullinated GFAP are present in SP-MS brains, but also shows that these proteins are present in areas of MS brains that were grossly normal appearing. These data raise the possibility that citrullination of GFAP contributes to the pathophysiology of MS.

Tajouri L, Mellick AS, Ashton KJ, Tannenberg AE, Nagra RM, Tourtellotte WW, Griffiths LR. · School of Health Science, Griffith University, Gold Coast Campus, Parklands Drive, Southport, QLD 4215, Australia. · Brain Res Mol Brain Res. · Pubmed #14625084 No free full text.

Abstract: Multiple sclerosis (MS) is a complex autoimmune disorder of the CNS with both genetic and environmental contributing factors. Clinical symptoms are broadly characterized by initial onset, and progressive debilitating neurological impairment. In this study, RNA from MS chronic active and MS acute lesions was extracted, and compared with patient matched normal white matter by fluorescent cDNA microarray hybridization analysis. This resulted in the identification of 139 genes that were differentially regulated in MS plaque tissue compared to normal tissue. Of these, 69 genes showed a common pattern of expression in the chronic active and acute plaque tissues investigated (Pvalue<0.0001, rho=0.73, by Spearman's rho analysis); while 70 transcripts were uniquely differentially expressed (> or = 1.5-fold) in either acute or chronic active tissues. These results included known markers of MS such as the myelin basic protein (MBP) and glutathione S-transferase (GST) M1, nerve growth factors, such as nerve injury-induced protein 1 (NINJ1), X-ray and excision DNA repair factors (XRCC9 and ERCC5) and X-linked genes such as the ribosomal protein, RPS4X. Primers were then designed for seven array-selected genes, including transferrin (TF), superoxide dismutase 1 (SOD1), glutathione peroxidase 1 (GPX1), GSTP1, crystallin, alpha-B (CRYAB), phosphomannomutase 1 (PMM1) and tubulin beta-5 (TBB5), and real time quantitative (Q)-PCR analysis was performed. The results of comparative Q-PCR analysis correlated significantly with those obtained by array analysis (r=0.75, Pvalue<0.01, by Pearson's bivariate correlation). Both chronic active and acute plaques shared the majority of factors identified suggesting that quantitative, rather than gross qualitative differences in gene expression pattern may define the progression from acute to chronic active plaques in MS.

Qin Y, Duquette P, Zhang Y, Olek M, Da RR, Richardson J, Antel JP, Talbot P, Cashman NR, Tourtellotte WW, Wekerle H, Van Den Noort S. · Department of Neurology, University of California Irvine, Irvine, California 92697, USA. · Lab Invest. · Pubmed #12861047 No free full text.

Abstract: The development of somatically mutated memory and plasma B cells is a consequence of T cell-dependent antigen-challenged humoral immunity. To investigate the role of B cell-mediated humoral immunity in the initiation and evolution of multiple sclerosis (MS), we analyzed Ig variable heavy chain genes of intrathecal B cells derived from patients with a first clinical manifestation suggestive of MS. Sequences of Ig variable regions showed that B cells in the cerebrospinal fluid from most of these patients were clonally expanded and carried somatic hypermutated variable heavy chain genes. The mutations showed a high replacement-to-silent ratio and were distributed in a way suggesting that these clonally expanded B cells had been positively selected through their antigen receptor. In comparison, intrathecal B-cell clonal expansion often precedes both oligoclonal IgG bands and multiple magnetic resonance imaging lesions. Clinical follow-up study showed that patients with clonally expanded intrathecal B cells had a high rate of conversion to clinically definite MS. The findings provide direct evidence of recruitment of germinal center differentiated B lymphocytes into the central nervous system during the initiation of MS. These results indicate B cell-mediated immune response in the cerebrospinal fluid is an early event of inflammatory reaction in the central nervous system of MS. This procedure also provides a more sensitive method to evaluate the association of humoral immunity in the evolution of MS.

Kieseier BC, Pischel H, Neuen-Jacob E, Tourtellotte WW, Hartung HP. · Department of Neurology, Research Group for Clinical and Experimental Neuroimmunology, Heinrich-Heine-University, Düsseldorf, Germany. · Glia. · Pubmed #12730960 No free full text.

Abstract: Inflammatory demyelinating disorders of the CNS, such as multiple sclerosis (MS), are mediated, at least in part, by various cytokines and proteases. In the present study, we investigated the expression of A disintegrin and metalloproteinase (ADAM)-17, an important sheddase for various proteins, including tumor necrosis factor-alpha (TNF-alpha), and the p75- and p55-TNF receptors, as well as ADAM-10, a protease implicated in myelin degradation, in post mortem CNS tissue samples from patients with MS, and normal brain tissue (as control) by immunohistochemistry. ADAM-10 was found to be expressed by astrocytes in all MS and control sections studied; however, in some MS sections, perivascular macrophages were determined as an additional cellular source as well. ADAM-17 could be observed exclusively in acute and chronic active MS plaques and localized to invading T lymphocytes. The staining pattern of ADAM-17 in MS plaques was mirrored in distribution and extent by the pattern obtained with an antibody against the p75-TNF-receptor (TNFR-2), whereas TNF-alpha was found to be expressed primarily by perivascular macrophages. In studying cerebrospinal fluid (CSF) samples from MS patients, we were able to detect increased protein levels of ADAM-17 as compared with noninflammatory controls. In addition, increased levels of soluble TNFR-2 could be measured, suggestive of an active shedding process mediated by ADAM-17. The stimulation of peripheral blood mononuclear cells (PBMC) obtained from MS patients and healthy individuals corroborated these findings by revealing expression of ADAM-17 by T lymphocytes and ADAM-10 by macrophages in vitro. Our results indicate that ADAM-10 is expressed constitutively by astrocytes in the normal and inflamed human CNS. In contrast, under inflammatory conditions, ADAM-10, expressed by perivascular macrophages, and ADAM-17, expressed by invading T cells, may actively contribute to the pathogenesis of inflammatory disorders of the CNS.

Chang A, Tourtellotte WW, Rudick R, Trapp BD. · Department of Neurosciences, Lerner Research Institute, Cleveland Clinic Foundation, Cleveland, OH 44195, USA. · N Engl J Med. · Pubmed #11796850 links to  free full text

Abstract: BACKGROUND: Multiple sclerosis is an inflammatory disease of the central nervous system that destroys myelin, oligodendrocytes, and axons. Since most of the lesions of multiple sclerosis are not remyelinated, enhancement of remyelination is a possible therapeutic strategy that could perhaps be achieved with the transplantation of oligodendrocyte-producing cells into the lesions. We investigated the frequency distribution and configuration of oligodendrocytes in chronic lesions of multiple sclerosis to determine whether these factors limit remyelination. METHODS: Forty-eight chronic lesions obtained at autopsy from 10 patients with multiple sclerosis were examined immunocytochemically for oligodendrocytes and oligodendrocyte progenitor cells. Using confocal microscopy, we examined the three-dimensional relations between axons and the processes of premyelinating oligodendrocytes. RESULTS: Thirty-four of the 48 chronic lesions of multiple sclerosis contained oligodendrocytes with multiple extended processes that associated with demyelinated axons but failed to myelinate them. These axons were dystrophic and contained multiple swellings. In some regions, the densities of premyelinating oligodendrocytes (25 per square millimeter of tissue) were similar to those in the developing rodent brain (23 per square millimeter). In the patients with disease of long duration (more than 20 years), there were fewer lesions with premyelinating oligodendrocytes (P<0.001). CONCLUSIONS: Premyelinating oligodendrocytes are present in chronic lesions of multiple sclerosis, so remyelination is not limited by an absence of oligodendrocyte progenitors or their failure to generate oligodendrocytes. Our findings suggest that in the chronic lesions of multiple sclerosis, the axons are not receptive for remyelination. Understanding the cellular interactions between premyelinating oligodendrocytes, axons, and the microenvironment of lesions of multiple sclerosis may lead to effective strategies for enhancing remyelination.

Agostini HT, Ryschkewitsch CF, Baumhefner RW, Tourtellotte WW, Singer EJ, Komoly S, Stoner GL. · Neurotoxicology Section, National Institute of Neurological Disorders and Stroke, National Institutes of Health, Bethesda, Maryland, MD 20892, USA. · J Neurovirol. · Pubmed #10871796 No free full text.

Abstract: Two features of the biology of JC virus make it a particularly suitable candidate for an agent in MS-like disease: its neurotropic capability targeting glial cells as evidenced in progressive multifocal leukoencephalopathy lesions, and its capacity for latency and persistence as illustrated by its behaviour in the kidney. JC virus is chronically or intermittently excreted in the urine by some 40% of the population. The existence of JC virus in multiple coding-region genotypes provides a unique approach to the study of JC virus-induced neurological disease. We have previously shown that a genotype originating in Asia but also present in Europe and the US, called Type 2B, is more frequently found in PML brain than expected based on its prevalence in urine samples from a control population. In contrast, we find that the excretion of JCV in MS patients is similar in both genotype and frequency to that of control individuals, and appears to be regulated by factors unrelated to those that control CNS disease activity.