Lipid-specific immunoglobulin M in CSF predicts adverse long-term outcome in multiple sclerosis.

BACKGROUND AND OBJECTIVE: The presence of lipid-specific immunoglobulin M bands in the cerebrospinal fluid (CSF) predicts an aggressive course in patients with relapsing-remitting multiple sclerosis (MS) during early stages of the disease. This study examined whether it is also a predictor of long-term prognosis in MS. METHODS: Eighty-one patients with MS and 22 headache controls were analyzed for anti-lipid IgM reactivity in CSF samples. The correlation between the presence of lipid-specific immunoglobulin M bands in CSF and disease progression was assessed in patients with MS who had been followed longitudinally for, on average, more than 11 years. RESULTS: Lipid-specific immunoglobulin M bands were detected in the CSF of 24 of 81 patients with MS and were absent in the CSF of all headache controls. Median time to conversion to a secondary progressive course was 11 years in patients with bands and 22 years in patients without bands. Median time to an Expanded Disability Status Scale score of 4 was 14 years in patients with bands and 24 years in patients without bands. CONCLUSION: The presence of lipid-specific immunoglobulin M bands in CSF predicts a more adverse long-term outcome in patients with MS; it may thus define a subset of patients who might benefit from aggressive treatment during the early phase of the disease.

The impact of HLA-A and -DRB1 on age at onset, disease course and severity in Scandinavian multiple sclerosis patients.

The human leucocyte antigen (HLA) class II haplotype DRB1*15-DQB1*06 (DR15-DQ6) is associated with susceptibility to multiple sclerosis (MS), and HLA class I associations in MS have also been reported. However, the influence of HLA class I and II alleles on clinical phenotypes in MS has not yet been completely studied. This study aimed at evaluating the impact of HLA-A and -DRB1 alleles on clinical variables in Scandinavian MS patients. The correlation between HLA-A or -DRB1 alleles and age at onset, disease course and Multiple Sclerosis Severity Score (MSSS) were studied in 1457 Norwegian and Swedish MS patients by regression analyses and Kruskal-Wallis rank sum test. Presence of HLA-DRB1*15 was correlated with younger age at onset of disease (corrected P = 0.009). No correlation was found between HLA-A and the variables studied. This study analysed the effect of HLA-A on clinical variables in a large Scandinavian sample set, but could not identify any significant contribution from HLA-A on the clinical phenotype in MS. However, associations between HLA-DRB1*15 and age at onset of MS were reproduced in this extended Scandinavian MS cohort.

A proliferation-inducing ligand (APRIL) is expressed by astrocytes and is increased in multiple sclerosis.

A proliferation-inducing ligand (APRIL) is a newly described member of the tumour necrosis factor (TNF) superfamily that was first identified as a factor favouring tumorigenesis. APRIL is also important for several immune functions, including B-cell survival. Multiple sclerosis (MS) is an inflammatory, demyelinating disease of the central nervous system (CNS) that is commonly diagnosed in early adulthood. Several TNF superfamily members have been identified in brains of patients with MS, although their exact function within the CNS is presently unknown. To investigate whether APRIL is expressed in the CNS, we studied APRIL protein expression by immunohistochemistry in MS patients and controls. Morphologically, APRIL-positive cells appeared to be astrocytes. A two-colour immunohistochemistry revealed that APRIL expression was cytoplasmic, granular and restricted to GFAP-positive cells. Conversely, HLA class II-positive microglial cells were negative for APRIL expression. APRIL-positive cells were fewer in brains of controls compared with those with MS. We further corroborated our findings by studying APRIL protein expression in several glioblastoma cell lines, and found APRIL to be expressed by most cell lines analysed. APRIL's binding partner syndecan-1 (CD138) was detected in brains of neither MS nor control patients. Furthermore, B cells were detectable in the brain of one of five patients with MS. We conclude that APRIL is expressed by reactive astrocytes in MS and may be of relevance in gliotic scar formation.

APOE epsilon variation in multiple sclerosis susceptibility and disease severity: some answers.

BACKGROUND: Previous studies have examined the role of APOE variation in multiple sclerosis (MS), but have lacked the statistical power to detect modest genetic influences on risk and disease severity. The meta- and pooled analyses presented here utilize the largest collection, to date, of MS cases, controls, and families genotyped for the APOE epsilon polymorphism. METHODS: Studies of MS and APOE were identified by searches of PubMed, Biosis, Web of Science, Cochrane Review, and Embase. When possible, authors were contacted for individual genotype data. Meta-analyses of MS case-control data and family-based analyses were performed to assess the association of APOE epsilon genotype with disease risk. Pooled analyses of MS cases were also performed to assess the influence of APOE epsilon genotype on disease severity. RESULTS: A total of 22 studies (3,299 MS cases and 2,532 controls) were available for meta-analysis. No effect of epsilon2 or epsilon4 status on MS risk was observed (summary OR 1.14, 95% CI 0.96-1.34 and OR 0.89, 95% CI 0.78-1.01). Results obtained from analyses of APOE genotypes in 1,279 MS families were also negative (p = 0.61). Finally, results from pooled analyses of 4,048 MS cases also argue strongly that APOE epsilon status does not distinguish a relapsing-remitting from primary progressive disease course, or influence disease severity, as measured by the Expanded Disability Status Scale and disease duration. CONCLUSION: Overall, these findings do not support a role for APOE in multiple sclerosis, and underscore the importance of using large sample sizes to detect modest genetic effects, particularly in studies of genotype-phenotype relationships.

Multiple Sclerosis Severity Score: using disability and disease duration to rate disease severity.

BACKGROUND: There is no consensus method for determining progression of disability in patients with multiple sclerosis (MS) when each patient has had only a single assessment in the course of the disease. METHODS: Using data from two large longitudinal databases, the authors tested whether cross-sectional disability assessments are representative of disease severity as a whole. An algorithm, the Multiple Sclerosis Severity Score (MSSS), which relates scores on the Expanded Disability Status Scale (EDSS) to the distribution of disability in patients with comparable disease durations, was devised and then applied to a collection of 9,892 patients from 11 countries to create the Global MSSS. In order to compare different methods of detecting such effects the authors simulated the effects of a genetic factor on disability. RESULTS: Cross-sectional EDSS measurements made after the first year were representative of overall disease severity. The MSSS was more powerful than the other methods the authors tested for detecting different rates of disease progression. CONCLUSION: The Multiple Sclerosis Severity Score (MSSS) is a powerful method for comparing disease progression using single assessment data. The Global MSSS can be used as a reference table for future disability comparisons. While useful for comparing groups of patients, disease fluctuation precludes its use as a predictor of future disability in an individual.

Two genes encoding immune-regulatory molecules (LAG3 and IL7R) confer susceptibility to multiple sclerosis.

Multiple sclerosis (MS) is a T-cell-mediated disease of the central nervous system, characterized by damage to myelin and axons, resulting in progressive neurological disability. Genes may influence susceptibility to MS, but results of association studies are inconsistent, aside from the identification of HLA class II haplotypes. Whole-genome linkage screens in MS have both confirmed the importance of the HLA region and uncovered non-HLA loci that may harbor susceptibility genes. In this two-stage analysis, we determined genotypes, in up to 672 MS patients and 672 controls, for 123 single-nucleotide polymorphisms (SNPs) in 66 genes. Genes were chosen based on their chromosomal positions or biological functions. In stage one, 22 genes contained at least one SNP for which the carriage rate for one allele differed significantly (P<0.08) between patients and controls. After additional genotyping in stage two, two genes--each containing at least three significantly (P<0.05) associated SNPs--conferred susceptibility to MS: LAG3 on chromosome 12p13, and IL7R on 5p13. LAG3 inhibits activated T cells, while IL7R is necessary for the maturation of T and B cells. These results imply that germline allelic variation in genes involved in immune homeostasis--and, by extension, derangement of immune homeostasis--influence the risk of MS.

Genome-wide linkage screen of a consanguineous multiple sclerosis kinship.

Multiple sclerosis (MS), like Alzheimer's disease (AD) and Parkinson's disease (PD), is a common neurological disorder thought to be caused by the interaction of several genes with unknown environmental factors. In both AD and PD the identification of disease forms inherited in a classic Mendelian fashion has helped investigators elucidate pathogenetic mechanisms. In this study a whole-genome screen, with an average of 608 successful genotypes per person, was performed on nine members of a consanguineous family: the index case, three of her siblings and her daughter, all of whom have been diagnosed with definite MS; as well as the parents of the index case (first cousins), one of her five healthy siblings and her husband (who is also her first cousin). Nonparametric linkage analysis was performed on genotyping data. Based on the presence of consanguinity, the a priori hypothesis was that the disease is transmitted in an autosomal recessive fashion in the pedigree. Linkage analysis revealed a suggestive logarithm of odds (LOD) score of 2.29 on the long arm of chromosome 9. Four of five affected family members were identically homozygous for a haplotype under this peak, spanning approximately 43 cM, while the fifth affected subject and all unaffected family members were heterozygous for the haplotype.

Analysis of nitric oxide synthase genes in cluster headache.

The aetiology of cluster headache is still not yet completely understood, but the potential relevance of genetic factors has been recognized during recent years. Nitric oxide (NO) plays a critical role in the regulation of vasodilation, neurotransmission, inflammation and many other events throughout the body. NO also appears to be an important mediator of vascular headache pathophysiology. In this study we have performed an association analysis of five polymorphic microsatellite markers in the three different NO synthase (NOS) genes; nNOS (NOS1), iNOS (NOS2A) and eNOS (NOS3). Ninety-one cluster headache patients diagnosed according to International Headache Society criteria and 111 matched controls were studied. Phenotype and allele frequencies were similarly distributed in patients and controls except for an iNOS (NOS2A) pentanucleotide repeat allele which was significantly more common in controls. We observed a higher phenotype frequency of this allele in our control group compared with rates in control groups of other studies, whereas the frequency in our patients was similar to that in controls from previous reports. Thus, we conclude that it is unlikely that genetic variations within the NOS genes contribute greatly to cluster headache susceptibility.

APOE genotypes and disease severity in multiple sclerosis.

Apolipoprotein E (opoE) is involved in the transport of lipids necessary for membrane repair and is encoded by a gene on chromosome 19q13, a region positive for linkage in two multiple sclerosis (MS) genome-wide screens. The APOE epsilon4 allele confers susceptibility to both familial and sporadic Alzheimer's disease (AD). Carriage of epsilon4 is associated with defective dendritic remodeling in AD, and with unfavorable clinical outcome in head trauma and cerebrovascular disease. According to the results of previous studies, APOE epsilon4 does not increase the risk of developing MS, but it may influence disease progression and ultimate disability. From a total cohort of over 900 MS patients, we compared APOE epsilon2-4 genotypes in, roughly, the cohort's least disabled and most disabled septiles. 'Benign MS' (n=124) was defined as an Expanded Disability Status Scale (EDSS) score of 3.0 or less, despite at least 10 years of disease duration, and 'severe MS' (n=140) as the attainment of an EDSS score of 6.0 within 8 years of disease onset. We found no significant differences in genotype or phenotype frequencies between the benign-MS and severe-MS septiles; however, the risk conferred by epsilon4 rose progressively upon comparison of carriage rates in more narrowly defined anti-podal quantiles.

Does 77C-->G in PTPRC modify autoimmune disorders linked to the major histocompatibility locus?

A 77G allele of the gene encoding CD45, also known as the protein tyrosine phosphatase receptor-type C gene (PTPRC), has been associated with multiple sclerosis (MS). Here we determine allele frequencies in large numbers of MS patients, primary immunodeficiencies linked to major histocompatibility complex (MHC) locus and over 1,000 controls to assess whether aberrant splicing of PTPRC caused by the 77C-->G polymorphism results in increased susceptibility to these diseases. Our results show no difference in the frequency of the 77G allele in patients and controls and thus do not support a causative role for the polymorphism in the development of disorders with a strong autoimmune component in etiology.

Costs, quality of life and disease severity in multiple sclerosis: a cross-sectional study in Sweden.

This study assessed the cost to society of multiple sclerosis (MS) in Sweden in 1998. The cost-of-illness method, based on the human capital theory, was used as the theoretical framework. The study used a cross-sectional approach, in which resource utilization data and quality-of-life data (utilities) were collected at a single time point. The total cost of MS was estimated at 4868 MSEK, or 586 MEUR, giving an annual cost of 442 500 SEK, or 53 250 EUR, per patient (1USD = 9.73 SEK, 1 EUR = 8.31 SEK, as of 21 September 2000). Direct costs accounted for about 67% of total cost, and they were dominated by the cost of personal assistants and drugs. Indirect costs (loss of production) accounted for about 33% of total costs. To these economic costs, intangible costs of 2702 MSEK (325 MEUR) should be added as well. Direct, indirect and informal care costs all rose significantly with increased disability and were higher during a relapse. Quality of life declined substantially with increased disability and was lower during a relapse. Multiple sclerosis was found to be associated with much higher costs to society than has been ascertained by former studies. The study also revealed a strong correlation between severity of the disease and quality of life. These results are crucial for further studies on the cost-effectiveness of new treatments aimed at preventing relapses and reducing progression of the disease.

No linkage or association of the nitric oxide synthase genes to multiple sclerosis.

Multiple sclerosis (MS) is a chronic inflammatory disease of the central nervous system (CNS) of unknown etiology. Nitric oxide (NO) is a free radical that participates in a variety of biological processes. It is an important mediator in the immune response. Several studies indicate involvement of NO in the pathogenesis of MS. We studied five markers within the three NO synthase genes with regards to susceptibility and disease course in 156 affected sib-pairs and in 96 "benign" and 96 "severe" definite MS patients and 148 controls. We found no significant association or evidence for linkage in our data sets.

Analysis of an interferon-gamma gene dinucleotide-repeat polymorphism in Nordic multiple sclerosis patients.

The proinflammatory cytokine interferon (IFN)-gamma has been shown to influence the course of multiple sclerosis (MS). The IFN-gamma (IFNG) contains a multiallelic dinucleotide repeat in intron 1. To investigate whether alleles at this locus influence susceptibility to MS, we performed linkage and familial association analyses on 100 sibling pairs from four Nordic countries, and case-control association analysis on 220 intermediately disabled sporadic MS patients and 266 controls. To determine the effect of the polymorphism on disease outcome, we compared genotype frequencies in the most and least disabled octiles of a total cohort of 913 cases. We also measured IFN-gamma mRNA levels in unstimulated peripheral blood mononuclear cells from 46 MS patients and 27 controls grouped according to IFNG intron 1 genotype. Both nonparametric linkage analysis and transmission disequilibrium testing of the 100 sibling pairs produced negative results. Genotype frequencies for intermediate-MS patients did not differ significantly from those for controls; nor did genotype frequencies in the benign-MS octile differ significantly from those in the severe-MS octle. Comparison of IFN-gamma mRNA levels in genotype-conditioned subgroups revealed no significant differences. Thus, alleles at the IFNG intron 1 dinucleotide repeat appear to affect neither MS susceptibility and severity nor IFN-gamma mRNA expression in vivo.

CTLA-4 gene expression is influenced by promoter and exon 1 polymorphisms.

CTLA-4, expressed mainly on activated T cells, helps maintain, through its inhibitory function, immune-system homeostasis. Polymorphisms in the CTLA-4 gene (CTLA4) are known to be important in several autoimmune diseases, including multiple sclerosis (MS). Here, we have performed genotyping for CTLA4 polymorphisms, and investigated expression by peripheral blood mononuclear cells of CTLA-4 mRNA and protein, in patients with MS and myasthenia gravis and in healthy controls. Expression levels for mRNA and protein were similar in the patient and control groups; however, there was a clear relationship between genotype and CTLA-4 expression. Specifically, individuals carrying thymine at position -318 of the CTLA4 promoter (T(-318)) and homozygous for adenine at position 49 in exon 1 showed significantly increased expression both of cell-surface CTLA-4 after cellular stimulation and of CTLA-4 mRNA in non-stimulated cells. The association was seen most clearly for unsorted CD3(+) cells and was absent in the CD8(+) subset. The T(-318) allele has been shown to be negatively associated with susceptibility to MS in an earlier study by our group. Thus, we propose that the susceptibility-influencing role of CTLA4 in MS may be related to genotypically conditioned promoter function, whereby high gene expression may decrease the risk of disease.

Vaccination with autologous dendritic cells: from experimental autoimmune encephalomyelitis to multiple sclerosis.

Autoimmune diseases such as multiple sclerosis (MS) are characterized by the loss of tolerance to self-determinants, activation of autoreactive lymphocytes and subsequent damage to single or multiple organs. The mechanisms by which autoimmune responses are triggered, and how activation of autoreactive lymphocytes is initiated and maintained, are not fully understood. Therapeutic approaches in autoimmune diseases have so far concentrated on antigens and T cells. Given the exceptional capacity of dendritic cells (DCs) to induce immunity in vivo, recent reports of the first successful clinical trials based on vaccination of tumor patients with autologous blood DCs pulsed in vitro with tumor antigen come as no surprise. The recent identification of tolerogenic subsets of DCs and their generation in culture may allow a novel approach to induce tolerance in autoimmune diseases. By selective in vitro manipulation of DCs and their subsequent reinfusion, DC-mediated tolerance has been achieved in animal models of human autoimmune diseases, including experimental autoimmune encephalomyelitis in Lewis rats and SJL/J mice and spontaneous diabetes in NOD mice. In vitro observations of human blood DCs are promising for DC-based treatment of MS and other diseases with an autoimmune component. Data from animal models and human materials suggest that DC-based immunotherapy could be beneficial at least as a complement to conventional therapy. Molecular-biological approaches to tolerogenic DCs could provide a rationale for designing immunotherapeutic strategies in autoimmune diseases.

HLA-DR15 is associated with lower age at onset in multiple sclerosis.

To date, more than a dozen studies have investigated the role of HLA genes in determining clinical course and disease severity in multiple sclerosis (MS); in each of these studies, however, patient sample size has been small, and no consistent pattern has emerged from the results. For the present study, we determined HLA class II genotypes and catalogued clinical and demographic data for a total of 948 patients, making our data set the largest ever used to investigate HLA genes in MS. Our goals were both to investigate the impact of HLA-DRB1 alleles on clinical course and disease severity in MS and to compare the frequencies of the established susceptibility allele DR15 in various clinicodemographic subgroups of MS patients. We found that, in addition to DR15, DR17 is positively associated with susceptibility to MS; that none of the HLA-DRB1 alleles influences course or outcome in MS; that carriers of DR15 are prone to MS development at an earlier age than noncarriers; and that differences in DR15 positivity rates, after stratification for diagnostic category and examination results, seem to reflect a gradient of phenocopy contamination, with rates increasing in proportion to the degree of clinical or paraclinical verification of the MS diagnosis.