Polymorphism of the HLA-DMA and DMB genes in rheumatoid arthritis

Impact of intrauterine exposure to maternal diabetes on preterm birth: fetal DNA methylation alteration is an important mediator

BACKGROUND

In utero exposure to diabetes has been shown to contribute to preterm birth, though the underlying biological mechanisms are yet to be fully elucidated. Fetal epigenetic variations established in utero may be a possible pathway. This study aimed to investigate whether in utero exposure to diabetes was associated with a change in newborn DNA methylation, and whether the identified CpG sites mediate the association between diabetes and preterm birth in a racially diverse birth cohort population.

METHODS

This study included 954 mother-newborn pairs. Methylation levels in the cord blood were determined using the Illumina Infinium MethylationEPIC BeadChip 850 K array platform. In utero exposure to diabetes was defined by the presence of maternal pregestational or gestational diabetes. Preterm birth was defined as gestational age at birth less than 37 weeks. Linear regression analysis was employed to identify differentially methylated CpG sites. Differentially methylated regions were identified using the DMRcate Package.

RESULTS

126 (13%) newborns were born to mothers with diabetes in pregnancy and 173 (18%) newborns were born preterm, while 41 newborns were born both preterm and to mothers with diabetes in pregnancy. Genomic-wide CpG analysis found that eighteen CpG sites in cord blood were differentially methylated by maternal diabetes status at an FDR threshold of 5%. These significant CpG sites were mapped to 12 known genes, one of which was annotated to gene Major Histocompatibility Complex, Class II, DM Beta (HLA-DMB). Consistently, one of the two identified significant methylated regions overlapped with HLA-DMB. The identified differentially methylated CpG sites mediated the association between diabetes in pregnancy and preterm birth by 61%.

CONCLUSIONS

In this US birth cohort, we found that maternal diabetes was associated with altered fetal DNA methylation patterns, which substantially explained the link between diabetes and preterm birth.

Human leukocyte Antigen-DM polymorphisms in autoimmune diseases

Classical MHC class II (MHCII) proteins present peptides for CD4⁺ T-cell surveillance and are by far the most prominent risk factor for a number of autoimmune disorders. To date, many studies have shown that this link between particular MHCII alleles and disease depends on the MHCII's particular ability to bind and present certain peptides in specific physiological contexts. However, less attention has been paid to the non-classical MHCII molecule human leucocyte antigen-DM, which catalyses peptide exchange on classical MHCII proteins acting as a peptide editor. DM function impacts the presentation of both antigenic peptides in the periphery and key self-peptides during T-cell development in the thymus. In this way, DM activity directly influences the response to pathogens, as well as mechanisms of self-tolerance acquisition. While decreased DM editing of particular MHCII proteins has been proposed to be related to autoimmune disorders, no experimental evidence for different DM catalytic properties had been reported until recently. Biochemical and structural investigations, together with new animal models of loss of DM activity, have provided an attractive foundation for identifying different catalytic efficiencies for DM allotypes. Here, we revisit the current knowledge of DM function and discuss how DM function may impart autoimmunity at the organism level.

HLA-DMA polymorphisms differentially affect MHC class II peptide loading

During the adaptive immune response, MHCII proteins display antigenic peptides on the cell surface of APCs for CD4(+) T cell surveillance. HLA-DM, a nonclassical MHCII protein, acts as a peptide exchange catalyst for MHCII, editing the peptide repertoire. Although they map to the same gene locus, MHCII proteins exhibit a high degree of polymorphism, whereas only low variability has been observed for HLA-DM. As HLA-DM activity directly favors immunodominant peptide presentation, polymorphisms in HLA-DM (DMA or DMB chain) might well be a contributing risk factor for autoimmunity and immune disorders. Our systematic comparison of DMA*0103/DMB*0101 (DMA-G155A and DMA-R184H) with DMA*0101/DMB*0101 in terms of catalyzed peptide exchange and dissociation, as well as direct interaction with several HLA-DR/peptide complexes, reveals an attenuated catalytic activity of DMA*0103/DMB*0101. The G155A substitution dominates the catalytic behavior of DMA*0103/DMB*0101 by decreasing peptide release velocity. Preloaded peptide-MHCII complexes exhibit ∼2-fold increase in half-life in the presence of DMA*0103/DMB*0101 when compared with DMA*0101/DMB*0101. We show that this effect leads to a greater persistence of autoimmunity-related Ags in the presence of high-affinity competitor peptide. Our study therefore reveals that HLA-DM polymorphic residues have a considerable impact on HLA-DM catalytic activity.

HLA-DM constrains epitope selection in the human CD4 T cell response to vaccinia virus by favoring the presentation of peptides with longer HLA-DM-mediated half-lives

HLA-DM (DM) is a nonclassical MHC class II (MHC II) protein that acts as a peptide editor to mediate the exchange of peptides loaded onto MHC II during Ag presentation. Although the ability of DM to promote peptide exchange in vitro and in vivo is well established, the role of DM in epitope selection is still unclear, especially in human response to infectious disease. In this study, we addressed this question in the context of the human CD4 T cell response to vaccinia virus. We measured the IC(50), intrinsic dissociation t(1/2), and DM-mediated dissociation t(1/2) for a large set of peptides derived from the major core protein A10L and other known vaccinia epitopes bound to HLA-DR1 and compared these properties to the presence and magnitude of peptide-specific CD4(+) T cell responses. We found that MHC II-peptide complex kinetic stability in the presence of DM distinguishes T cell epitopes from nonrecognized peptides in A10L peptides and also in a set of predicted tight binders from the entire vaccinia genome. Taken together, these analyses demonstrate that DM-mediated dissociation t(1/2) is a strong and independent factor governing peptide immunogenicity by favoring the presentation of peptides with greater kinetic stability in the presence of DM.

Rheumatoid arthritis in American Indians and Alaska Natives: a review of the literature

BACKGROUND AND OBJECTIVES

An increased prevalence of rheumatoid arthritis (RA) has been reported in several American Indian and Alaska Native (AI/AN) populations. This article reviews the prevalence of RA in these populations, including clinical and serologic features.

METHODS

References were taken from Medline through November 2003, in addition to the Arctic Health Literature Database and the American Indian and Alaska Native Health Bibliography.

RESULTS

Published articles reveal an increased prevalence of RA in the Tlingit, Yakima, Pima, and Chippewa Indians. Clinically the disease in these groups is often severe, with early age of onset, high frequency of radiographic erosions, rheumatoid nodules, and positive rheumatoid factor. Studies of HLA alleles in cases and controls have found a high frequency of HLA DRB1*1402.

CONCLUSIONS

The increased prevalence of RA and more severe disease in specific AI/AN populations suggest an important genetic influence on the development of RA in AI/AN populations. A high frequency of specific high-risk HLA alleles in these populations may account for some of the increased risk, but other genetic factors are likely to contribute. Environmental factors have not been studied in detail, but may also play an important role.

RELEVANCE

Understanding the patterns and burden of disease in AI/AN populations may contribute to understanding the etiology of RA and to the development of preventive strategies.

Association of HLA-DM polymorphism with the production of antiphospholipid antibodies

OBJECTIVE

To investigate whether variation in the HLA-DM gene is important in producing a group of pathogenic autoantibodies-antiphospholipid antibodies (aPL)-on the basis that HLA class II restricted antigen presentation is involved in the production of aPL.

METHODS

HLA-DMA and DMB polymorphisms were genotyped by polymerase chain reaction combined with restriction enzyme digestion in 51 white patients with primary antiphospholipid syndrome (APS), 82 with systemic lupus erythematosus (SLE) (42 with APS and 40 without APS), and 109 healthy white controls. The association with the aPL profile was examined.

RESULTS

The distribution of DMA alleles in APS patients and in patients with APS associated with SLE was significantly different from that in controls by 4x2 chi(2) test with 3 degrees of freedom (p = 0.035 and 0.011, respectively), but it was not different between SLE patients without APS and controls. The allelic distribution of DMA was also different between patients with IgG class anticardiolipin antibody or those with lupus anticoagulant (LA) and controls (p = 0.012 and 0.007, respectively) and between patients with and without LA among SLE patients (p = 0.035). All these differences included the increase in DMA*0102 in the former groups.

CONCLUSIONS

The results suggest that HLA-DMA*0102 or its linked gene(s) form one of the genetic risks for the production of aPL.

HLA-DMA*0103 and HLA-DMB*0104 alleles as novel prognostic factors in rheumatoid arthritis

OBJECTIVE

To evaluate HLA-DM alleles as markers for disease severity in rheumatoid arthritis (RA).

METHODS

Two distinct cohorts of patients with RA were oligotyped for HLA-DB1 and HLA-DM genes using PCR amplified genomic DNA with sequence specific oligonucleotide probes. Cohort 1 comprised 199 unselected patients with RA (mean (SD) age 45.5 (13.5) years; disease duration 11.9(8.8) years), whose disease severity was assessed using Larsen score on hand and foot radiographs. Cohort 2 comprised 95 patients with severe RA and 70 patients with benign RA according to the Larsen method.

RESULTS

In cohort 1, after stratification according to DRB1 genotypes, patients positive for HLA-DMA*0103 and negative for HLA-DRB1*04 tended to have greater articular damage on hands and wrists (p = 0.07 by Mann-Whitney U test) and reached statistical significance for the Larsen score per year (p = 0.05). This association between HLA-DMA*0103 and articular damage was especially observed in patients with HLA-DRB1*01. Similarly, HLA-DMB*0104 positive patients had higher Larsen score on hands and wrists (p = 0.02). This association was even stronger in DRB1*04 positive patients (p = 0.005). In cohort 2, HLA-DMA*0103 was associated with severe RA in patients negative for HLA-DRB1*04 (OD = 5.4; p = 0.014). HLA-DMB*0104 allele frequency tended to be higher in patients with severe RA but without reaching significance.

CONCLUSION

This is the first study evaluating the role of HLA-DM genes in the severity of RA. Our results suggest that HLA-DMA*0103 and HLA-DMB*0104 alleles may represent new genetic markers of RA severity. The HLA-DMA*0103 allele tends to be associated with patients with RA negative for DRB1*04 and could predict a more severe form of disease especially in HLA-DRB1*01 positive patients. The HLA-DMB*0104 allele could have an additive effect in HLA-DRB1*04 patients. Combined determination of HLA-DM and HLA-DRB1 alleles could facilitate identification of patients likely to have a poor disease course.

Association of TAP and HLA-DM genes with psoriasis in Koreans

To investigate the possible involvement of antigen-processing genes in the pathogenesis of psoriasis, we analyzed the polymorphisms of the TAP1, TAP2, LMP2, LMP7, DMA, and DMB genes in 98 Korean psoriasis patients and compared them with 184 healthy controls. The frequencies of TAP2*B/B [relative risk (RR)=3.6, p<0.0002] and TAP2*B (RR=1.7, p<0.05) were significantly increased, but TAP1*B (RR=0.3, p<0.002) and TAP2*A (RR=0.6, p<0.03) were significantly decreased, in the patients compared to the controls. We performed further analysis on the TAP1 and TAP2 single nucleotide polymorphisms and found significant differences between the patients and controls in TAP1 single nucleotide polymorphism at position 637 and in TAP2 at 665. In HLA-DM, DMA*0102 (RR=2.5, p<0.0003) was significantly increased, but DMA*0101/0101 (RR=0.4, p<0.0004) and DMB*0103/0103 (RR= 0.3, p<0.005) were significantly decreased in the patients compared to the controls. The TAP and HLA-DM alleles were also analyzed according to the age of onset of psoriasis in the patients (types I and II). It was found that the HLA-DM alleles showed a greater association in type I than type II patients. An analysis of the linkage disequilibrium and stratification also indicated that the alleles of TAP and HLA-DM might be independently associated with HLA-Cw*0602 in psoriasis patients. The stratification analysis between DMA*0101/0101 and DMB*0103/0103 showed that a certain factor, controlled by a gene located between DMA and DMB, might provide strong protection against psoriasis, independently of Cw*0602, in our Korean population. In conclusion, our data suggest that the TAP and HLA-DM alleles could lead to genetic susceptibility toward psoriasis in Koreans.

Rheumatoid arthritis in African Colombians from Quibdo

OBJECTIVES

Little data is available on the prevalence and incidence of rheumatoid arthritis (RA) or the genetic and environmental factors that influence RA risk and severity in non-Caucasian populations. The prevalence of RA in Caucasians and some Native American populations is 1% or more; in contrast, low prevalences of RA have been reported in some African populations. We determined the hospital incidence (HI) and period prevalence (PP) of RA in African Colombians in Quibdo, Colombia, by using data collected at the Hospital San Francisco de Asis, a primary-to-tertiary care center. Genetic and immunologic studies of factors that influence RA risk and severity, such as HLA genes, immunoglobulin-A (IgA) rheumatoid factor (RF), and antikeratin antibodies (AKA) were performed. African Colombians with RA also were compared with Mestizo RA patients from Medellín, Colombia.

METHODS

To determine the HI, all the outpatient charts for 1995 were reviewed (n = 3,044). PP during 1996 (Jan-Dec) was assessed by stratified sampling of all African Colombians aged 18 or more having arthralgia. Participants completed a survey and a pretested standard questionnaire, had hands and feet X-rays, and provided a blood sample. Total and IgA RF were measured by turbidimetry and ELISA, respectively; AKA were assessed by indirect immunofluorescence on rat esophagus. HLA-DRB1 and DQB1 alleles were determined by polymerase chain reaction technique with primers of specific sequence and by reverse dot blot.

RESULTS

The HI was 0.65 cases per 1,000 person years. There were 321 individuals with arthralgia (0.3%; 95% CI, 0.28-0.3), 18 of whom fulfilled the American College of Rheumatology criteria for RA (PP in the general population, 0.01%; 95% CI, 0.008-0.02). Lower erosion scores were seen in African Colombian patients compared to Mestizos (n = 56), although duration of disease was similar in each group. No association between any HLA allele and RA risk or RA severity or between autoantibodies and RA severity was observed in African Colombians. Comparisons showed no significant differences between African Colombians and Mestizo patients in the presence of RF (total and IgA), AKA, age at onset, extra-articular manifestations, formal education level, and history of malaria.

CONCLUSIONS

These results suggest that RA in African Colombian patients from Quibdo is rare, may be less severe in terms of radiographic damage than in Colombian Mestizo patients, and lacks association to HLA-DRB1 and DQB1 alleles. Additionally, RF (total and IgA) and AKA are not markers of progression and activity of the disease in this population.

HLA DMA and DMB show no association with rheumatoid arthritis in US Caucasians

HLA DM is a heterodimeric molecule functioning in normal antigen presentation; it is encoded by adjacent HLA-region loci, HLA DMA and DMB, located between DP and DQ. Some previous studies have suggested that HLA susceptibility to rheumatoid arthritis (RA) is associated with certain DMA and DMB alleles. Our aim was to examine whether this association is also present in US Caucasians. We studied 288 US Caucasian subjects with rheumatoid arthritis and 263 US Caucasian control subjects. DMA and DMB typing was achieved by PCR amplification followed by sequence-specific oligonucleotide hybridization and by PCR-restriction fragment length polymorphism. There was no frequency difference for DMA alleles or DMB alleles between RA and control subjects, indicating no association. Neither was a difference apparent when data were analysed in subgroups based on shared-epitope DRB1, on the rheumatoid factor test, on radiographic changes of RA, or on sex. DRB1-DQB1-DMB analyses for linkage disequilibrium showed that the DRB1*0401-DQB1*0301 haplotype had the DMB*0103 allele more often than DMB*0101 (estimated haplotype frequencies 0.08 and 0.039 in RA, respectively). In contrast, the DRB1 *0401-DQB1 *0302 haplotype usually had the DMB*0101 allele (haplotype frequency 0.084 compared to 0.01 for DMB*0103). Thus, neither HLA DMA nor DMB was associated with RA in this population, and not all shared-epitope-bearing haplotypes had the same DMB allele distribution.

Specific overexpression of rheumatoid arthritis-associated HLA-DR alleles and presentation of low-affinity peptides

OBJECTIVE

To compare levels of HLA-DR expression in rheumatoid arthritis (RA) patients and healthy controls for whom an ordered expression according to the DR alleles is demonstrated and to test the functional consequences of this expression on peptide presentation.

METHODS

Using monoclonal antibodies that recognize different DRB1 alleles, DR molecules were quantitated at the surface of the peripheral blood B cells of 23 RA patients and 17 healthy subjects. The functional consequences of the level of DR surface expression was tested using a universal model of antigen presentation and mutated peptides with variable affinities for the T cell receptor.

RESULTS

In healthy subjects, surface HLA-DR molecules were expressed at different levels according to allele (DR53, DR4, and DR11 less than DR1 less than DR7 less than DR15). In RA patients, this hierarchy was not conserved and, furthermore, the density of RA-associated DR4 and DR1 molecules was enhanced in patients compared with the basal density in healthy individuals. We demonstrated that an increased expression of DR molecules at the surface of antigen-presenting cells allowed a noteworthy presentation of low-affinity peptides that under normal conditions are not efficient in generating a T cell response at physiologic surface density of the DR molecules.

CONCLUSION

Our results suggest that the specific overexpression of RA-associated HLA molecules could be responsible for the presentation of low-affinity autopeptides and therefore the activation of peripheral autoreactive T cells.

The down-regulation of HLA-DM gene expression in rheumatoid arthritis is not related to their promoter polymorphism

HLA-DM molecule, a class II-like heterodimer, is a critical factor of HLA class II-dependent Ag presentation. It acts as a molecular chaperone and also functions as a peptide editor favoring the presentation of high-stability peptides. Thus, it appears to skew the peptide repertoire presented to T cells. Variation in HLA-DM expression has considerable effect on Ag presentation and regulation of these genes is likely to be a prerequisite to prevent autoimmunity. In this study, rheumatoid arthritis (RA) was chosen as a model of human autoimmune disease since its genetic susceptibility is known to be associated with the HLA-DR and -DM components. We described a limited nucleotide polymorphism in the HLA-DM promoters with functional impact on basal transcriptional activity and IFN-gamma induction as assessed in vitro. However, no difference of allele frequencies was found between controls and RA patients. Despite of this lack of association, expression of HLA-DM molecules was also investigated. Interestingly, an underexpression of HLA-DM transcripts and protein was shown in peripheral blood B cells from RA patients compared with controls or inflammatory arthritis patients. This underexpression does not affect HLA-DR genes and is responsible for a decrease of the DM:DR ratio in RA patients. This specific HLA-DM down-regulation is likely to have important consequences on Ag presentation and could participate in the autoimmune process in RA.

Nonclassical MHC class II molecules

Major histocompatibility complex (MHC) class II molecules are cell surface proteins that present peptides to CD4(+) T cells. In addition to these wellcharacterized molecules, two other class II-like proteins are produced from the class II region of the MHC, HLA-DM (DM) and HLA-DO (DO) (called H2-M, or H2-DM and H2-O in the mouse). The function of DM is well established; it promotes peptide loading of class II molecules in the endosomal/lysosomal system by catalyzing the release of CLIP peptides (derived from the class II-associated invariant chain) in exchange for more stably binding peptides. While DM is present in all class II- expressing antigen presenting cells, DO is expressed mainly in B cells. In this cell type the majority of DM molecules are not present as free heterodimers but are instead associated with DO in tight heterotetrameric complexes. The association with DM is essential for the intracellular transport of DO, and the two molecules remain associated in the endosomal system. DO can clearly modify the peptide exchange activity of DM both in vitro and in vivo, but the physiological relevance of this interaction is still only partly understood.

The association of HLA-DM genes with rheumatoid arthritis in Eastern France

In this study, the polymorphisms of the HLA DMA and DMB genes in patients with rheumatoid arthritis (RA) were examined.DMA and DMB typing was performed in 120 white RA patients from eastern France and 100 healthy controls, using PCR-SSO (sequence specific oligonucleotide probes) method for DMA determination and PCR-RFLP (restriction fragment length polymorphism) method for DMB typing. All patients and controls had been HLA DRB1* genotyped.DMA*0103 was found significantly increased in RA patients (RA vs. controls: 18.3% vs. 4%) (p(corr) = 0.004; OR: 5.39; CI: 1.67-19.23). A decreased frequency of DMA*0102 was also observed in the RA group (RA vs. controls: 18.3% vs. 31%), but not significantly. There were no differences in the prevalence of DMB alleles between RA and controls. The patients and the controls were then stratified according to the expression of the HLA DRB1* RA-linked alleles (DRB1*01 and *04) and this allowed us to find no linkage disequilibrium between DMA*0103 and DRB1*01 or *04 alleles. Finally, most DMA*0103 patients were positive for rheumatoid factors and had extraarticular involvement such as subcutaneous nodules. Thus, our results suggest that DMA*0103 could be an additional genetic factor for RA susceptibility in French whites.

Analysis of TAP and HLA-DM polymorphism in thai rheumatoid arthritis

Rheumatoid arthritis is an autoimmune disease with a strong association with DR4 in many populations. In the Thai population, rheumatoid arthritis is associated with DRB1*0405. To evaluate the role of polymorphism in TAP and HLA-DM genes, which are important in antigen processing and presentation in predisposition to rheumatoid arthritis, 82 Thai patients with rheumatoid arthritis and 100 unrelated normal controls were studied. TAP and HLA-DM typing was performed by ARMS-PCR and PCR-SSO method, respectively. There was no difference in the distribution of TAP1, TAP2, DMA, and DMB genes between the patients and controls. This study suggested that TAP and HLA-DM genes do not confer susceptibility to rheumatoid arthritis.

Novel therapeutic strategies in scleroderma

Optimal management for scleroderma (systemic sclerosis) is likely to require treatment of the underlying disease process, which remains incompletely understood, and also of the organ-based complications of this heterogeneous condition. Clinical trials evaluating several potential agents have been completed recently, including D-penicillamine and interferon alpha. Unfortunately none of these studies has suggested significant efficacy. This article focuses on new treatment approaches using existing therapeutic agents, such as prostacyclin, and considers the potential usefulness of new agents (eg, relaxin, halofuginone) or strategies such as intensive immunosuppression with peripheral stem cell rescue. Ultimately, a better understanding of disease pathogenesis may facilitate the development of targeted therapy against key events or mediators, but for the present better evaluation of existing agents and a focus on optimizing protocols for organ-based complications, such as pulmonary vascular disease or hypertensive renal crisis, are important goals.

HLA-DMA and HLA-DMB alleles in German patients with type 1 diabetes mellitus

The HLA-DMA and HLA-DMB genes are located in the HLA-D region between DQ and DP. Four variants of DMA (DMA*0101-0104) and five of the DMB (DMB*0101-0105) have so far been identified. HLA-DM molecules are required in the process of peptide loading to HLA class II antigens, both regulating the dissociation of class II-associated invariant chain peptides (CLIP) and the subsequent binding of exogenous peptides to HLA class II molecules. In order to investigate the immunogenetic heterogeneity within the HLA-D susceptibility region, we analysed the distribution of DMA alleles in 125 patients with type 1 diabetes mellitus and 90 healthy controls, and of DMB alleles in 102 patients and 89 healthy controls. Patients and controls were all from central Germany. The polymerase chain reaction (PCR) amplified products were purified and separated on a 10% polyacrylamide gel electrophoresis. Among the four recognized DMA alleles, DMA*0102 was significantly less frequent (12% vs. 28.9%, P<0.01) in patients with type 1 diabetes mellitus. DMB*0101 (70.6% vs. 97.8%, P<5.5x10(-3)) was also reduced in frequency compared to controls. Comparing patients and controls positive for the type 1 diabetes high-risk markers we found a significant association between DMA*0102 and DQA*0501 (9.5% vs. 39.1%, P<0.02), as well as DMB*0101 and DQA*0501 (62.5% vs. 96.2%, P<0.03). In conclusion, DMA*0102 and DMB*0101 contribute to genetic protection to type 1 diabetes mellitus in individuals with high-risk DQA markers in the German population.

Analysis of HLA-DM polymorphism in juvenile dermatomyositis (JDM) patients

Annually approximately 1:200,000 young children and adolescents are affected by juvenile dermatomyositis (JDM). Genetic factors are thought to contribute to the etiology. Since the discovery of the human leukocyte antigen class II associated DM molecule much has been learned about its role in the normal processing of HLA-class II molecules with a limited number of polymorphisms being found. Blood samples were collected from 30 patients who were seen in the clinic and 40 healthy volunteers. Exon 3 of the HLA-DM A and B genes were amplified and specific polymorphisms were identified given allele designations. The DMA*0103 allele was found in 43% of patient alleles versus 8% in the control group, this difference reached significance at a p value of 0.0004. The DMB*0102 allele was found in 20% of patients compared with 3% of the controls with a calculated p value of 0.037. Relative risk (RR) ratios with CI were as follows: DMA*0103 vs control RR = 5.7 and DMB*0102 vs control RR = 8. In conclusion, we feel that the polymorphisms represented in the DMA*0103 and the DMB*0102 alleles are increased in frequency in our JDM patients.

HLA DRB1, DMA, and DMB gene polymorphisms in rheumatoid arthritis

OBJECTIVE

To study the influence of DMA and DMB genes on susceptibility to Rheumatoid Arthritis (RA).

METHODS

HLA-DRB1, DMA and DMB polymorphisms were defined by PCR SSOP in 203 European Mediterranean RA patients and 181 unrelated healthy controls.

RESULTS

No significant difference in the phenotype frequencies of DMA and DMB alleles was observed between patients and controls. We found decreased frequencies of DMA*0102 and DMB*0104 in patients but this did not reach significance. These decreased frequencies could be due to a positive linkage disequilibrium with DRB1*0701, an allele which is underrepresented in RA patients. In stratified analysis with RA susceptibility Epitope positive (SE) DRB1 alleles, there was no significant difference in DMA and DMB phenotype frequencies between SE/SE, SE/X, and X/X patients versus controls. Among SE/X subjects, no significant difference in DM distribution frequencies was observed in DRB1*0101/X, 0102/X, 0401/X, 0404/X and 0405/X groups.

CONCLUSION

DMA and DMB polymorphism does not seem to influence susceptibility to develop RA. Differences in DMA phenotype frequencies between patients and controls are secondary to linkage disequilibrium with DRB1 alleles.