HLA-B27 ligands were better suited to TAP transport than their N-terminal precursors, and AS-associated subtype ligands were better than those from non-AS-associated subtypes, suggesting a particular capacity of AS-associated subtypes to bind epitopes directly produced in the cytosol.
These data indicate that an AS disease locus may reside on a specific ERAP1 haplotype, and its effect is not multiplicative with contributions from TAP and LMP genes.
Thus, except for the differential effects of tapasin on surface expression, the tapasin, TAP, and immunoproteasome dependency of B*2704 for maturation, surface expression, and T cell recognition are similar to B*2705, indicating that basic immunological features are shared by the two major HLA-B27 allotypes associated to ankylosing spondylitis in human populations.
Allelic TAP polymorphism has been linked to susceptibility to Reiter's syndrome and was suggested to influence disease phenotype in HLA-B27 positive patients with ankylosing spondylitis.
We studied TAP1 and TAP2 polymorphism in two multifactorial HLA-B27-associated diseases, ankylosing spondylitis (N = 30) and reactive arthritis (N = 30), in order to establish whether TAP genes are involved in the different pathogenesis of these diseases.