Patient‐Specific Heterogeneity of Antinuclear Antibodies as Revealed by an Isoelectric Focusing Immunoblot System

Abstract

Ninety-nine sera from patients with different rheumatic diseases (systemic lupus erythematosus, rheumatoid arthritis, progressive systemic sclerosis, and mixed and unidifferentiated connective tissue disease) were applied to a newly developed isoelectric focusing (IEF) immunoblot system for the demonstration of antinuclear antibodies. Nucleoproteins were separated according to their isoelectric points (pI) and immobilized onto nitrocellulose, and binding of serum antibodies was determined by an alkaline phosphatase labelled second antibody. 89.8% of all sera positive in indirect immunofluorescence assays with Hep 2 as substrate showed positive reactivity in IEF immunoblot. Furthermore, 88% of patients'' sera negative on Hep 2 cells gave a positive reaction in IEF immunoblot. The predominant antibody banding pattern observed showed parallel bands in the acidic as well as the neutral pH ranges. Antibody specificities found in the IEF immunoblot system turned out to be patient-specific, but no marker antibody for a discrete disease entity was obtained. Even when monoclonal antibodies or WHO standard sera were applied to nuclear antigen they exhibited heterogeneity in their binding pattern. Bands with the same pI were observed using sera from patients with different rheumatic disease entities. Immunodeletion experiments suggest the recognition of identical antigenic proteins by the different patients'' sera.