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Journal of Clinical Endocrinology & Metabolism, Vol 80, 1000-1005, Copyright © 1995 by Endocrine Society
ARTICLES |
JC Jaume, AB Parkes, JH Lazarus, R Hall, G Costante, SM McLachlan and B Rapoport
Thyroid Molecular Biology Unit, Veterans Administration Medical Center, San Francisco, California 94121.
It is not known whether epitopes recognized by autoantibodies in an individual remain constant or change over time, especially during perturbations of the humoral immune response. To address this question, we studied the epitopic profile ("fingerprint") of autoantibodies to thyroid peroxidase (TPO) in the sera of 19 women during the postpartum period. Fingerprints were determined in competition studies using 4 recombinant F(ab). At delivery and at 3 time intervals over the subsequent 9-12 months, the pool of F(ab) inhibited autoantibody binding to TPO by 80-100%, consistent with the definition by these F(ab) of a TPO immunodominant region (A1, A2, B1, and B2 domains). Despite a wide spectrum among individuals, the TPO epitopic fingerprints for all 19 women were relatively unchanged throughout the postpartum period. Fingerprint constancy occurred regardless of fluctuations in serum TPO autoantibody levels. When assessed numerically as a ratio of inhibition by the A domain F(ab) to inhibition by the B domain F(ab), the A/B domain ratios in individual women ranged from 0.2 (predominantly B domain) to more than 3.0 (predominantly A domain). However, for each individual woman, the A/B epitopic ratio was conserved throughout the study interval. Our TPO autoantibody epitopic fingerprint data have potential implications for understanding the humoral autoimmune response in man. First, the present study indicates a remarkable lack of spreading of B cell epitopes during a state of perturbation of the immune system over a period of 1 yr. Second, and perhaps more important, despite marked variations in TPO epitopic profiles among different individuals, their constancy over time suggests that TPO autoantibody fingerprints may be inherited.
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