Altered BANK1 expression is not associated with humoral autoimmunity in chronic joint inflammation

The presence of disease-specific autoantibodies in RA but not spondyloarthritis (SpA) suggests that B-cell tolerance is preserved in the latter condition despite chronic joint inflammation. Which factors control B-cell tolerance vs autoimmunity in chronic arthritis remains incompletely understood. As single nucleotide polymorphisms in the B-cell scaffold protein with ankyrin repeats (BANK1) gene have recently been associated with various autoantibody-positive autoimmune diseases including RA, we explored whether altered expression of BANK1 was associated with humoral autoimmunity in arthritis. Peripheral B-cell subsets and inflamed synovial tissue were obtained from active SpA and RA. Quantitative PCR was used to assess the expression of full-length BANK1 and delta2 BANK1, a splice variant lacking exon 2 that counteracts BANK1 function. B-cell subsets, autoantibody titres and clinical disease were monitored upon CIA induction in Bank1 knockout (KO) mice. Whereas full-length BANK1 was not differentially expressed, the BANK1 delta2 splicing variant was decreased in naïve peripheral B cells as well as in synovial tissue of SpA compared with RA. However, no differences were observed in seropositive vs seronegative RA. Performing functional analysis in mice, we found no differences in B-cell subsets and anti-collagen antibodies upon CIA induction between Bank1 KO mice and littermate controls. Accordingly, the incidence and severity of clinical disease were not altered in Bank1 KO mice. This study did not reveal a major role for BANK1 in humoral autoimmunity in chronic arthritis. The decreased levels of BANK1 delta2 in SpA, however, warrant more detailed analysis of the functional consequences of an altered BANK1/BANK1 delta2 balance