A new era in the genetic analysis of multiple sclerosis

[New gene map for multiple sclerosis]

BACKGROUND

Multiple sclerosis (MS) is a demyelinating, inflammatory disease of the central nervous system which affects young adults with a relapsing or progressive disease course. The etiology of the disease is unknown, but both environmental and genetic factors contribute to the risk of developing MS.

MATERIAL AND METHODS

We give an overview of new knowledge of the genetic risk factors for MS, based on our own work as well as on literature in this field.

RESULTS

Through genome-wide association studies and subsequent replication studies a series of novel MS genes have recently been identified, in addition to the HLA association previously described. The International MS Genetics Consortium in collaboration with the Wellcome Trust Case Control Consortium recently published a genome-wide study of 9,722 MS patients and 17,376 controls. Genome-wide significant association (p < 10-8) was observed for 29 new as well as 23 previously identified gene regions, in addition to the HLA-DRB1 and -A loci .The majority of these MS-associated regions encode immune-related molecules.

CONCLUSION

Genetic studies of large patient and control samples obtained through international and national collaborations have identified a list of more than 50 MS risk-gene regions, in addition to HLA-DRB1 and -A loci. The risk associated with each of these loci is low, however, they collectively point to the importance of immune-related pathways in the etiology of MS.

The genetic aspects of multiple sclerosis

The epidemiology of multiple sclerosis has been extensively investigated and two features have consistently emerged: marked geographical variation in prevalence and substantial familial clustering. At first sight, geographic variation would seem to imply an environmental cause for the disease, while familial clustering would seem to suggest that genetic factors have the predominant etiological effect. However, given that geographic variation in prevalence could result from variation in the frequency of genetic risk alleles and that familial clustering might result from shared environmental exposure rather than shared genetic risk alleles, it is clear that these crude inferences are unreliable. Epidemiologists have been resourceful in their attempts to resolve this apparent conflict between “nurture and nature” and have employed a whole variety of sophisticated methods to try and untangle the etiology of multiple sclerosis. The body of evidence that has emerged from these efforts has formed the foundation for decades of research seeking to identify relevant genes and this is the obvious place to start any consideration of the genetics of multiple sclerosis.

Evaluating epigenetic landmarks in the brain of multiple sclerosis patients: a contribution to the current debate on disease pathogenesis

The evidence suggesting a role of epigenetics in the definition of complex trait diseases is rapidly increasing. The gender prevalence of multiple sclerosis, the low level concordance in homozygous twins and the linkage to several genetic loci, suggest an epigenetic component to the definition of this demyelinating disorder. While the immune etio-pathogenetic mechanism of disease progression has been well characterized, still relatively little is known about the initial events contributing to onset and progression of the demyelinating lesion. This article addresses the challenging question of whether loss of the mechanisms of epigenetic regulation of gene expression in the myelinating cells may contribute to the pathogenesis of multiple sclerosis, by affecting the repair process and by modulating the levels of enzymes involved in neo-epitope formation. The role of altered post-translational modifications of nucleosomal histones and DNA methylation in white matter oligodendroglial cells are presented in terms of pathogenetic concepts and the relevance to therapeutic intervention is then discussed.

Genetic variation in nitric oxide synthase 2A (NOS2A) and risk for multiple sclerosis

Multiple sclerosis (MS) is a chronic inflammatory disorder of the central nervous system with a strong genetic component. Variation in the major histocompatibility complex on chromosome 6p21, specifically the HLA-DRB1*15 haplotype, is the strongest genetic factor for MS, yet it is estimated to account for only a portion of risk for the disease. Previous evidence has implicated the nitric oxide synthase gene (NOS2A) encoding inducible NOS on chromosome 17q11 as a potential MS susceptibility gene. To determine whether variation in the NOS2A gene contributes to MS risk, we investigated a total of 50 polymorphisms within or flanking the locus for evidence of association using a comprehensive analytical strategy. A total of 6265 members from 1858 well-characterized MS families were utilized. No evidence for overtransmission of any individual single-nucleotide polymorphism allele or haplotype to the MS-affected individuals was observed. Furthermore, different transmission rates were not observed in either DRB1*15-positive or DRB1*15-negative family subgroups, or when extreme clinical outcomes characterizing disease progression were examined. The very largest study of NOS2A variation in MS, to date, excludes even a modest role for this locus in susceptibility.

The complex genetics of multiple sclerosis: pitfalls and prospects

The genetics of complex disease is entering a new and exciting era. The exponentially growing knowledge and technological capabilities emerging from the human genome project have finally reached the point where relevant genes can be readily and affordably identified. As a result, the last 12 months has seen a virtual explosion in new knowledge with reports of unequivocal association to relevant genes appearing almost weekly. The impact of these new discoveries in Neuroscience is incalculable at this stage but potentially revolutionary. In this review, an attempt is made to illuminate some of the mysteries surrounding complex genetics. Although focused almost exclusively on multiple sclerosis all the points made are essentially generic and apply equally well, with relatively minor addendums, to any other complex trait, neurological or otherwise.

TLR4 haplotypes in multiple sclerosis: a case-control study in the Spanish population

Our aim in the present study is to evaluate the variation present in the TLR4 gene and its relationship with multiple sclerosis susceptibility in the Spanish population. Three hundred and sixty-two multiple sclerosis patients and 467 healthy controls from the Spanish population were included in the present study. Twelve single nucleotide polymorphisms (SNPs) were selected, and analyzed by the TaqMan technique. No statistically significant differences for any polymorphism or haplotypes were observed when patients were compared with controls. In conclusion, TLR4 does not play a major role in the predisposition to suffer from multiple sclerosis in our population.

„Syndrom“ multiple Sklerose

Manifestation und Verlauf der multifaktoriell bedingten Erkrankung multiple Sklerose (MS) als häufigster neuroinflammatorischer/-degenerativer Erkrankung des Nervensystems unterliegen mannigfaltigen genetischen und Umwelteinflüssen. Differenzialdiagnostik und (symptomorientierte) Therapie bedürfen neben modernen technischen Hilfsmitteln des erfahrenen Neurologen, um andere chronische entzündlich-degenerative Prozesse auszuschließen bzw. die Behandlung optimal anzupassen. Bemühungen, den komplexen genetischen MS-Beitrag aufzuklären, zeigen Teilerfolge in vertiefter Kooperation zwischen Klinik und Grundlagenforschung.

Environment-gene interaction in multiple sclerosis: human herpesvirus 6 and MHC2TA

Multiple sclerosis (MS) is an inflammatory disorder affecting the central nervous system, in which both genetic and environmental factors interact. Among these environmental contributors, herpesvirus has been proposed as an important etiologic factor. CIITA is a transcription factor controlling the expression of MHC class II genes, the main genetic determinants of MS susceptibility. This gene has been described as a target of the immunoevasive strategies, and it is therefore an attractive candidate gene to be at the genetic-viral crossroads. Two polymorphisms in MHC2TA gene (rs4,774G/C and rs3,087,456A/G) were studied in two groups: one in 22 multiple sclerosis patients with active human herpes virus 6 (HHV-6A) replication (HHV-6A-positive), and the other of 77 patients with no detectable HHV-6A active infection (HHV-6A-negative); a Spanish healthy control group (n = 520) was also included as external control. An association of the rs4,774C allele with the HHV-6A-positive group was found when compared with the HHV-6A-negative (47.7% vs 18.8%, p = 0.0001; odds ratio = 3.94) and also with the control group (47.7% vs 25.5%, p = 0.001, odds ratio = 2.67). No significant differences were observed between HHV-6A-negative subjects and healthy controls. Our data suggest that a strong gene-environment interaction occurs between HHV-6A active replication and MHC2TA rs4,774C or another polymorphism in tight linkage disequilibrium with it. Besides, this report indicates that when patients are grouped based upon a well-defined molecular event, complex diseases may reveal themselves as being constituted by distinct entities in which some genes may have a strong influence.

Où en sont les études génétiques de la SEP ?

INTRODUCTION

Multiple Sclerosis (MS) is a multifactorial disorder caused by the interaction of environmental factors with a genetic predisposition.

BACKGROUND

The chromosomal region comprising MHC contains one or several genes which contributes from 20 to 50 p. 100 to MS genetic predisposition. Other genes are unknown but are likely to have an individual contribution less than MHC.

PERSPECTIVES AND CONCLUSION

Large DNA collections, high output genotyping facilities, a precise knowledge of the human genome and adequate statistical methods should allow the identification of MS predisposition genes.

Genetics in multiple sclerosis: past and future perspectives

The enormous development in the field of molecular genetics during the last decades has lead to optimism concerning the possibilities for identifying the causes of multiple sclerosis (MS) through genetic studies. However, we have learned that dense mapping of large sample sets is needed, which only can be achieved through large collaborative studies. The contribution from each yet unidentified gene is probably weaker than that of the well established human leukocyte antigen association. The ultimate goal of the search for susceptibility genes in MS is to develop diagnostic tools and better treatments that can prevent or reduce the development of symptoms of this often devastating disease.

African Americans with asthma: genetic insights

It has been well established that genetic factors strongly affect susceptibility to asthma and its associated traits. It is less clear to what extent genetic variation contributes to the ethnic disparities observed for asthma morbidity and mortality. Individuals of African descent with asthma have more severe asthma, higher IgE levels, a higher degree of steroid dependency, and more severe clinical symptoms than individuals of European descent with asthma but relatively few studies have focused on this particularly vulnerable ethnic group. Similar underrepresentation exists for other minorities, including Hispanics. In this review, a summary of linkage and association studies in populations of African descent is presented, and the role of linkage disequilibrium in the dissection of a complex trait such as asthma is discussed. Consideration for the impact of population stratification in recently admixed populations (i.e., European, African) is essential in genetic association studies focusing on African ancestry groups. With the most recent update on the International HapMap Project, efficient selection of haplotype tagging single nucleotide polymorphisms (htSNPs) for African Americans has accelerated and efficiency of htSNPs chosen from one population to represent other continental groups (e.g., African) has been demonstrated. Cutting-edge approaches, such as genomewide association studies, admixture mapping, and phylogenetic analyses, offer new opportunities for dissecting the genetic basis for asthma in populations of African descent.

Current concepts of the cellular and molecular pathophysiology of multiple sclerosis

Multiple sclerosis (MS) is the most common demyelinating disease. It poses many challenges both clinically and scientifically. Progress made in understanding the genetics, immunology, and neurobiology of MS to date has positioned the field for further breakthroughs both in understanding the etiology and pathogenesis as well as the development of rationally based therapeutics. This review will cover fundamental aspects of the clinical and pathologic features of MS. Identified genetic markers will be considered as well as the evolving understanding of immunologic and neurobiological aspects of the disease. The development of immune therapy based on this knowledge is already apparent and it is likely that neuroprotective therapies will evolve to complement immune modulation in treating the disease.