Genetics, Natural History, and Pathophysiology of Behcet's Disease
Kastner, Daniel   
National Institute of Arthritis and Musculoskeletal and Skin Diseases

In collaboration with Dr. Ahmet Gul from Istanbul University, we have now performed the largest genome-wide association study to date in search of additional variants contributing to Behcet's disease. In our study we genotyped patients with Behcet's disease and geographically matched controls from Turkey using a high-throughput SNP genotype bead array (Illumina, San Diego). After stringent quality control, the study included 1228 cases and 1303 controls, and 311,637 SNPs with call rates over 95%, overall P-values for deviation from Hardy-Weinberg equilibrium greater than 10 to the negative fifth power, and minor allele frequencies greater than 1%. After correcting for population stratification, we identified 305 SNPs with corrected P-values for association less than 10 to the negative fourth power. Of these, 248 were located on chromosome 6 within the MHC, with a minimum P-value = 1.14 x 10 to the negative 42. Regression analysis, correcting for the association due to HLA-B51, suggested at least one additional independent genetic factor located within the MHC region. Of the 57 non-MHC SNPs with P <10 to the negative fourth power, one, located in the 5 region of CPLX1, exhibited genome-wide significance (P = 5.92 x 10 to the negative eighth power;the threshold for genome-wide significance is P <1.6 x 10 to the negative seventh power). CPLX1 encodes complexin-1, which is known to be a regulator of exocytosis during synaptic vesicle membrane fusion. We have found that this gene is also highly expressed in leukocytes and may therefore play a role in exocytosis in leukocytes. Future experiments will address the role of the CPLX1 variants in Behcet's disease. The second most strongly disease-associated SNP (with P = 3.97 x 10 to the negative seventh power) was an intronic variant of the immunoregulatory cytokine, IL-10. Its minor allele frequency was 38.2% in cases, 31.3% in controls, and the allelic odds ratio was 1.36 (95% CI=1.21-1.53). We genotyped additional SNPs from the CPLX1 and IL10 gene regions in the same individuals and identified additional SNPs that supported both associations identified in the original genome-wide association study. In the IL10 gene region, another intronic SNP reached genome-wide significance (P = 5.74 x 10 to the negative eighth power). The IL10 disease-associated SNPs are part of a haplotype that includes promoter region variants that have been previously suggested to influence IL-10 gene expression. We genotyped healthy blood donors and measured IL-10 production from their stimulated monocytes. We found significantly lower IL-10 production in donors homozygous for the Behcet's disease-associated alleles compared with donors without the disease-associated alleles. These data suggest that a genetically encoded-deficient IL-10 response to inflammation contributes to Behcet's disease. We are currently preparing a manuscript describing the results of this genome-wide association study.