Fine specificity and subclasses of IgG anti-actin autoantibodies differ in health and disease

Current opinions suggest that autoantibodies occurring in autoimmune diseases are generated by B-cells which primarily produce polyspecific natural autoantibodies, through either polyclonal activation or specific antigen selection of these B-cells. In this study, we compared the immunological properties (polyspecificity, fine specificity and IgG subclasses) between natural anti-actin antibodies (N-AAA) and disease-associated AAA (D-AAA). IgG AAA from sera of healthy donors, patients with autoimmune hepatitis type 1 (AIH-1) and patients with primary biliary cirrhosis (PBC) were affinity-purified on actin immunoadsorbent and tested initially for polyspecificity against various cytoskeleton proteins by enzyme-linked immunosorbent assay (ELISA). Fine specificity was studied by Western blotting using proteolytic peptides of actin and by ELISA using synthetic 12 mer peptides, spanning the 221-377 aa sequence of actin. Results showed that both N-AAA and D-AAA are polyspecific. Nevertheless, D-AAA from both diseases showed a specific reactivity pattern as compared to N-AAA, against the 16 kDa C-terminal (229-377 aa) proteolytic peptide of actin and more specifically against the P36 synthetic peptide (351-362 aa). Quantitation of AAA IgG subclasses revealed that IgG1 and IgG3 were specifically increased in D-AAA from AIH-1 and PBC, respectively, as compared to N-AAA. We conclude that D-AAA are differentiated from N-AAA in terms of fine specificity and IgG subclasses, probably through specific antigen selection of B-cells primarily producing N-AAA.