Genome-wide association studies (GWASs) have discovered numerous single nucleotide polymorphisms (SNPs) associated with human complex disorders. However, functional characterization of the disease-associated SNPs remains a formidable challenge. Here we explored regulatory mechanism of a SNP on chromosome 9p21 associated with endometriosis by leveraging “allele-specific” functional genomic approaches. By re-sequencing 1.29 Mb of 9p21 region and scrutinizing DNase-seq data from the ENCODE project, we prioritized rs17761446 as a candidate functional variant that was in perfect linkage disequilibrium with the original GWAS SNP (rs10965235) and located on DNase I hypersensitive site. Chromosome conformation capture followed by high-throughput sequencing revealed that the protective G allele of rs17761446 exerted stronger chromatin interaction with ANRIL promoter. We demonstrated that the protective allele exhibited preferential binding affinities to TCF7L2 and EP300 by bioinformatics and chromatin immunoprecipitation (ChIP) analyses. ChIP assays for histone H3 lysine 27 acetylation and RNA polymerase II reinforced the enhancer activity of the SNP site. The allele specific expression analysis for eutopic endometrial tissues and endometrial carcinoma cell lines showed that rs17761446 was a cis-regulatory variant where G allele was associated with increased ANRIL expression. Our work illuminates the allelic imbalances in a series of transcriptional regulation from factor binding to gene expression mediated by chromatin interaction underlie the molecular mechanism of 9p21 endometriosis risk locus. Functional genomics on common disease will unlock functional aspect of genotype-phenotype correlations in the post-GWAS stage.
Aims Type 1 diabetes (T1D) is an autoimmune disease that affects many children worldwide. Genetic factors and environmental triggers play crucial interacting roles in the aetiology. This study aimed to assess the contribution of HLA‐DRB1‐DQA1‐DQB1 alleles, haplotypes, and genotypes to the risk of T1D among Saudis. Methods A total of 222 children with T1D and 342 controls were genotyped for HLA‐DRB1, ‐DQA1, and ‐DQB1 using reverse sequence‐specific oligonucleotide (rSSO) Lab Type high definition (HD) kits. Alleles, haplotypes, and diplotypes were compared between cases and controls using the SAS statistical package. Results DRB1*03:01‐DQA1*05:01‐DQB1*02:01 (32.4%; OR = 3.68; Pc < .0001), DRB1*04:05‐DQA1*03:02‐DQB1*03:02 (6.6%; OR = 6.76; Pc < .0001), DRB1*04:02‐DQA1*03:01‐DQB1*03:02 (6.0%; OR = 3.10; Pc = .0194), DRB1*04:01‐DQA1*03:01‐DQB1*03:02 (3.7%; OR = 4.22; Pc = .0335), and DRB1*04:05‐DQA1*03:02‐DQB1*02:02 (2.7%; OR = 6.31; Pc = .0326) haplotypes were significantly increased in cases compared to controls, whereas DRB1*07:01‐DQA1*02:01‐DQB1*02:02 (OR = 0.41; Pc = .0001), DRB1*13:01‐DQA1*01:03‐DQB1*06:03 (OR = 0.05; Pc < .0001), DRB1*15:01‐DQA1*01:02‐DQB1*06:02 (OR = 0.03; Pc < .0001), and DRB1*11:01‐DQA1*05:05‐DQB1*03:01 (OR = 0.07; Pc = .0291) were significantly decreased. Homozygous DRB1*03:01‐DQA1*05:01‐DQB1*02:01 genotypes and combinations of DRB1*03:01‐DQA1*05:01‐DQB1*02:01 with DRB1*04:05‐DQA1*03:02‐DQB1*03:02, DRB1*04:02‐DQA1*03:01‐DQB1*03:02, and DRB1*04:01‐DQA1*03:01‐DQB1*03:02 were significantly increased in cases than controls. Combinations of DRB1*03:01‐DQA1*05:01‐DQB1*02:01 with DRB1*07:01‐DQA1*02:01‐DQB1*02:02 and DRB1*13:02‐DQA1*01:02‐DQB1*06:04 showed low OR values but did not remain significantly decreased after Bonferroni correction. Conclusions HLA‐DRB1‐DQA1‐DQB1 alleles, haplotypes, and diplotypes in Saudis with T1D are not markedly different from those observed in Western and Middle‐Eastern populations but are quite different than those of East Asians.
BackgroundThe Erythrocyte Binding Antigen (EBA) 175 has been considered as one of the most important Plasmodium falciparum (P. falciparum) merozoite ligands that mediate invasion of the erythrocytes through their sialated receptor: Glycophorin A (GPA). The effect of the EBA 175 dimorphic alleles (F and C) on the severity of the disease is not yet fully understood. Therefore this study was designed to assess the distribution of the divergent dimorphic alleles of P. falciparum EBA-175 (F and C) in three different geographical areas in Sudan and the possible association of this dimorphism with the severity of the disease.MethodsA sum of 339 field isolates of P. falciparum obtained from patients in three different geographical areas in Sudan were screened for the dimorphic alleles (F, C) of the EBA-175 using nested PCR.ResultsThe percentage of F, C, and mixed F/C alleles were; 41%, 51%, and 8% respectively. F and C alleles showed significantly different distributions in the various geographic areas (p = 0.00). There was no significant association between malaria clinical manifestation and P. falciparum EBA-175 F and C alleles frequencies.ConclusionsThis study showed a significant differential distribution of F and C alleles in different geographical malaria endemic areas. No significant association was observed between F and C alleles and different malaria phenotypes.
BackgroundSplenic epidermoid cyst is a benign tumor-like lesion affecting the spleen and sometimes occurs in familial form. The causality of such rare diseases remain challenging, however recently, with the emergence of exome re-sequencing, the genetics of many diseases have been unveiled. In the present study, we performed a combinatorial approach of genome-wide parametric linkage and exome analyses for a moderate-sized Japanese family with frequent occurrence of splenic epidermoid cyst to identify the genetic causality of the disease.MethodsTwelve individuals from the family were subject to SNP typing and exome re-sequencing was done for 8 family members and 4 unrelated patients from Kosovo. Linkage was estimated using multi-point parametric linkage analysis assuming a dominant mode of inheritance. All of the candidate variants from exome analysis were confirmed by direct sequencing.ResultsThe parametric linkage analysis suggested two loci on 1q and 14q with a maximal LOD score of 2.5 . Exome generated variants were prioritized based on; impact on the protein coding sequence, novelty or rareness in public databases, and position within the linkage loci. This approach identified three variants; variants of HMCN1 and CNTN2 on 1q and a variant of DDHD1 on 14q. The variant of HMCN1 (p.R5205H) showed the best co-segregation in the family after validation with Sanger sequencing. Additionally, rare missense variants (p.A4704V, p.T5004I, and p.H5244Q) were detected in three unrelated Kosovo patients. The identified variants of HMCN1 are on conserved domains, particularly the two variants on calcium-binding epidermal growth factor domain.ConclusionsThe present study, by combining linkage and exome analyses, identified HMCN1 as a genetic causality of splenic epidermoid cyst. Understanding the biology of the disease is a key step toward developing innovative approaches of intervention.Electronic supplementary materialThe online version of this article (doi:10.1186/s12881-014-0115-4) contains supplementary material, which is available to authorized users.
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