Objective. The A allele of the PD1.3 single-nucleotide polymorphism (SNP) on the programmed cell death gene PDCD1 was markedly more frequent in patients with systemic lupus erythematosus (SLE) than in unaffected controls in a recent study involving large sets of Swedish, European American, and Mexican families. This study sought to determine the role of PDCD1 in susceptibility to SLE in the Spanish population.Methods. Seven PDCD1 SNPs were studied in 518 SLE patients and 800 healthy control subjects who had been recruited in 5 distant towns spanning continental Spain. Patients and controls were of Spanish ancestry. The diagnosis of SLE was in accordance with the American College of Rheumatology updated classification criteria.Results. The A allele of the PD1.3 polymorphism was significantly less frequent in Spanish female patients with SLE than in Spanish female controls (9.0% versus 13.0%, odds ratio 0.67, 95% confidence interval 0.50-0.89). This difference was consistent across the 5 sets of samples grouped by town of recruitment. The other PDCD1 SNPs were not associated with SLE susceptibility. The haplotype structure of PDCD1 in the Spanish controls was different from that reported in other healthy control populations. Conclusion. Our results confirm the association of PDCD1 with susceptibility to SLE, but the findings show a lack of involvement of the PD1.3 SNP, which is contrary to the role of the PD1.3 A allele observed previously. These contradictory results probably reflect population differences in the haplotype structure of the PDCD1 locus. More research focusing on new polymorphisms and identifying associations in other populations will be needed to clarify the role of PDCD1 in SLE susceptibility.The role of genetics in the etiology of systemic lupus erythematosus (SLE) is firmly established (1,2). However, it has been difficult to identify the causal genetic factors. Many genes that are important for immune function have been studied as candidates. These studies have found clear evidence of an association with SLE for only a few factors: the histocompatibility antigens, some members of the complement cascade, and the low-affinity IgG receptors.A different approach in the investigation of the genetics of SLE that has been followed by 4 research groups is to perform genome-wide linkage analyses in families of patients with SLE (1,2). The results of these studies define a complex picture; none of the genetic
We obtained eight collections of DNA samples from ethnically matched systemic lupus erythematosus (SLE) patients and controls from five European countries totaling 783 patients and 1210 controls. A highly significant cline in the frequency of the PD1.3 A allele was found among controls but not among SLE patients. The frequency of the PD1.3 A allele increased from the Northeast to the Southwest of Europe. The cline was clearly apparent (P ¼ 1.2 Â 10 À6 ) when data from controls of other five SLE susceptibility studies were included in the analysis. This variation has severely biased SLE association studies owing to the lack of parallel changes in SLE patients. As a consequence, the PD1.3 A allele was more common in SLE patients than in controls in the Northeast and Center of Europe, similar to controls in Southeast Europe, and less frequent than in the controls in the Southwest of the Continent. This dissociation in allele frequencies between SLE patients and controls in different subpopulations indicated that programmed cell death 1 variation and disease susceptibility are not independent but the type of relationship is currently unclear. As allele frequency clines are common in other polymorphisms their impact in genetic epidemiology studies should be carefully considered.
The association of the Gln244Arg SNP with SLE susceptibility indicates that common polymorphisms in DNASEI play a role in the genetics of SLE. However, the lack of effect of the Gln244Arg SNP on serum DNase I activity calls into question the direct involvement of this specific SNP.
This study aimed to test the functional effects of the PD1.3 single nucleotide polymorphism (SNP) (rs11568821), which were proposed based on its association to systemic lupus erythematosus (SLE) susceptibility and in electrophoretic mobility shift assays (EMSA) results. We analysed transcriptional effects of the PD1.3 locus by enhancer reporter assays. Results were against the hypothesis that the PD1.3 locus acts as enhancer in transcriptional regulation of PDCD1. In addition, they excluded a differential effect of the PD1.3 alleles. EMSA results confirmed that oligonucleotides with the PD1.3 G allele bind RUNX1 but not those with the A allele. However, binding to PD1.3 G oligonucleotides was much lower than binding to positive control oligonucleotides. Criss-cross experiments showed that this was due to flanking nucleotides in the PD1.3 sequence that negatively affect RUNX1 binding. These results cast doubts on the functional relevance of the PD1.3 SNP and, together with the lack of association in several studies, put into question its role as an SLE susceptibility factor. Investigation of other PDCD1 polymorphisms is needed to uncover the possible effect of this gene on SLE susceptibility.
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