MHC transmission: insights into gender bias in MS susceptibility.

OBJECTIVE: Major histocompatibility complex (MHC) genes dominate genetic susceptibility factors in multiple sclerosis (MS). Given the general consensus that incidence and prevalence of MS has been rising and specifically in women, we evaluated MHC-gender interactions. METHODS: In a large family-based cohort consisting of 7,093 individuals (2,127 affected individuals) from 1,055 MS families, we examined MHC transmission by family structure and gender stratified by genetic distance of affected relatives from the MS proband. RESULTS: We found that affected individuals with HLA-DRB1*15-positive genotypes have higher female-to-male ratios as compared with affected individuals with HLA-DRB1*15-negative genotypes (χ(2) = 9.97, p = 0.0015) with the exception of multiplex families with 3 or more affected across 2 generations. Transmission disequilibrium test results show that HLA-DRB1*15 transmission was more distorted in collateral families vs nuclear families (χ(2) = 8.030, p = 0.0046), exclusively in affected female-female pairs (χ(2) = 7.81, p = 0.0051), but not in mixed gender pairs (χ(2) = 1.58, p = 0.21) or matched male pairs (Fisher p = 0.21). CONCLUSIONS: These observations implicate the MHC as the site of interactions and modifications mediating the female-to-male gender ratio in MS and its progressive increase. They further suggest this occurs via gene-environment interactions and epigenetic modifications in this region. The difference between collateral and nuclear families provides some insight into the inheritance, decay, and gender specificity of putative epigenetic marks.

Revisiting the T-cell receptor alpha/delta locus and possible associations with multiple sclerosis.

A role for T cells in the pathogenesis of multiple sclerosis (MS) is well supported, evidenced by myriad immunological studies, as well as the unequivocal genetic influence of the major histocompatibility complex (MHC). Despite many attempts, no convincing genetic associations have been made between T-cell receptor (TCR) gene loci and MS. However, these studies may not be definitive because of small sample sizes and under-representative marker coverage of the chromosomal regions being investigated. To explore potential roles between the TCR alpha locus and MS, we have genotyped a large family-based cohort, including 1360 affected individuals and 1659 of their unaffected first-degree relatives, at 40 single-nucleotide polymorphism (SNP) markers within the TCR alpha/delta locus. This represents the largest TCR alpha-MS study to date. From this screen, we identified three potential loci of interest in TCR alpha variable and constant gene regions using the transmission disequilibrium test. Although SNPs implicating each of these regions of interest will require genotyping in independent replication cohorts, these findings suggest a role for TCR gene polymorphisms in MS susceptibility. In the context of these findings we review the evidence.

Genetic and environmental factors and the distribution of multiple sclerosis in Europe.

BACKGROUND: The observation that the incidence of multiple sclerosis (MS) increases further from the equator has prompted considerable interest in the factors that might underlie this latitude gradient. Potential candidates include population frequencies of disease-associated Human Leukocyte Antigen (HLA) alleles which are the major genetic component of MS susceptibility. Ultraviolet (UV) exposure and smoking have also been implicated as key environmental risk factors. METHODS: We used multiple sources of published data on MS prevalence, HLA allele frequencies, UV index and cigarette smoking to assess the contributions of both nature and nurture to the distribution of MS within Europe. RESULTS: We observed that HLA alleles unequivocally interact with a population-wide level to determine disease risk. The UV index and smoking behaviour was also shown to correlate with disease distribution in Europe. For countries with HLA, UV and smoking data, these three factors were shown to account for 75% of the variance in MS prevalence. CONCLUSIONS: Genetic (HLA) and environmental (UV and smoking) risk factors thus interact in a complex manner with each other to determine a large proportion of MS susceptibility within Europe.

Regulation of major histocompatibility complex class II gene expression, genetic variation and disease.

Major histocompatibility complex (MHC) class II molecules are central to adaptive immune responses and maintenance of self-tolerance. Since the early 1970s, the MHC class II region at chromosome 6p21 has been shown to be associated with a remarkable number of autoimmune, inflammatory and infectious diseases. Given that a full explanation for most MHC class II disease associations has not been reached through analysis of structural variation alone, in this review we examine the role of genetic variation in modulating gene expression. We describe the intricate architecture of the MHC class II regulatory system, indicating how its unique characteristics may relate to observed associations with disease. There is evidence that haplotype-specific variation involving proximal promoter sequences can alter the level of gene expression, potentially modifying the emergence and expression of key phenotypic traits. Although much emphasis has been placed on cis-regulatory elements, we also examine the role of more distant enhancer elements together with the evidence of dynamic inter- and intra-chromosomal interactions and epigenetic processes. The role of genetic variation in such mechanisms may hold profound implications for susceptibility to common disease.

Risk alleles for multiple sclerosis in multiplex families.

OBJECTIVE: We assessed the hypotheses that non-major histocompatibility complex multiple sclerosis (MS) susceptibility loci would be common to sporadic cases and multiplex families, that they would have larger effects in multiplex families, and that the aggregation of susceptibility loci contributes to the increased prevalence of MS in such families. METHODS: A set of 43 multiplex families comprising 732 individuals and 211 affected subjects was genotyped for 13 MS candidate genes identified by genome-wide association. A control data set of 182 healthy individuals was also genotyped to perform a case-control analysis alongside the family-based pedigree disequilibrium association test, although this may have been underpowered. RESULTS: An effect of the IL2RA and CD58 loci was shown in multiplex families as in sporadic MS. The aggregate of the IL2RA, IL7R, EVI5, KIAA0350, and CD58 risk genotypes in affected individuals from multiplex families was found to be notably different from controls (chi(2) = 112, p = 1 x 10(-22)). CONCLUSIONS: Although differences between individual families can only be suggested, the aggregate results in multiplex families demonstrate effect sizes that are increased as compared with those reported in previous studies for sporadic cases. In addition, they imply that concentrations of susceptibility alleles at IL2RA, IL7R, EVI5, KIAA0350, and CD58 are partly responsible for the heightened prevalence of multiple sclerosis within multiplex families.