- Foroud, Tatiana;
- Koller, Daniel L;
- Lai, Dongbing;
- Sauerbeck, Laura;
- Anderson, Craig;
- Ko, Nerissa;
- Deka, Ranjan;
- Mosley, Thomas H;
- Fornage, Myriam;
- Woo, Daniel;
- Moomaw, Charles J;
- Hornung, Richard;
- Huston, John;
- Meissner, Irene;
- BaileyWilson, Joan E;
- Langefeld, Carl;
- Rouleau, Guy;
- Connolly, E Sander;
- Worrall, Bradford B;
- Kleindorfer, Dawn;
- Flaherty, Matthew L;
- Martini, Sharyl;
- Mackey, Jason;
- La Rosa, Felipe De Los Rios;
- Brown, Robert D;
- Broderick, Joseph P
Background
Genomewide association studies have identified novel genetic factors that contribute to intracranial aneurysm (IA) susceptibility. We sought to confirm previously reported loci, to identify novel risk factors, and to evaluate the contribution of these factors to familial and sporadic IA.Method
We utilized 2 complementary samples, one recruited on the basis of a dense family history of IA (discovery sample 1: 388 IA cases and 397 controls) and the other without regard to family history (discovery sample 2: 1095 IA cases and 1286 controls). Imputation was used to generate a common set of single nucleotide polymorphisms (SNP) across samples, and a logistic regression model was used to test for association in each sample. Results from each sample were then combined in a metaanalysis.Results
There was only modest overlap in the association results obtained in the 2 samples. In neither sample did results reach genomewide significance. However, the metaanalysis yielded genomewide significance for SNP on chromosome 9p (CDKN2BAS; rs6475606; P=3.6×10(-8)) and provided further evidence to support the previously reported association of IA with SNP in SOX17 on chromosome 8q (rs1072737; P=8.7×10(-5)). Analyses suggest that the effect of smoking acts multiplicatively with the SNP genotype, and smoking has a greater effect on risk than SNP genotype.Conclusions
In addition to replicating several previously reported loci, we provide further evidence that the association on chromosome 9p is attributable to variants in CDKN2BAS (also known as ANRIL, an antisense noncoding RNA).