Objective: To use a candidate gene approach for the identification of genetic markers that are significantly linked to and associated with ankylosing spondylitis (AS).
Methods: We searched for novel polymorphisms in the ANKH gene (human homolog of the murine progressive ankylosis gene) and genotyped 2 polymorphic sites, one in the 5'-noncoding region and the other in the promoter region of ANKH, using DNA from affected (n = 273) and unaffected (n = 112) individuals from 124 AS families. We used these ANKH and other nearby polymorphisms to perform linkage and family-based association analyses.
Results: We identified 2 novel polymorphic sites: one in the 5'-noncoding region of ANKH involving 1-2 copies of an 8-bp repeat (denoted as ANKH-OR), and the other in the promoter region involving different copy numbers of a triplet repeat (denoted as ANKH-TR). ANKH-OR and ANKH-TR were in complete linkage disequilibrium. Five markers (D5S1953, ANKH-TR, ANKH-OR, D5S1954, and D5S1963) were used for both the linkage and association analyses. Multipoint linkage analysis of 124 AS families showed a modest level of significance (nonparametric linkage score 2.15; P = 0.015) at the ANKH region. The contribution of ANKH to AS susceptibility (lambda(s)) was 1.9. A family-based association study on the same AS families revealed that both ANKH-OR allele 1 and ANKH-TR allele 7 were significantly associated with disease, assuming an additive model (for ANKH-OR allele 1, P = 0.03; for ANKH-TR allele 7, P = 0.04).
Conclusion: Our results indicate that ANKH-OR and ANKH-TR are novel genetic markers that are significantly associated with AS.