V. B. Petersen

Human Monoclonal Thyroglobulin Autoantibodies of High Affinity. I. Production, Characterisation and Interaction with Murine Monoclonal Thyroglobulin Antibodies

Four hybridomas secreting human thyroglobulin (Tg) autoantibodies of different IgG subclasses and light chain types (IgG1 lambda, IgG1 kappa, IgG2 lambda and IgG2 kappa) were obtained by direct fusion of Hashimoto thyroid lymphocytes with the mouse myeloma X63-Ag.653. The autoantibodies were specific for human Tg and the functional affinities were high (only 2.6-3.9 log10 pM Tg required to give 50% inhibition of binding in ELISA). Using thyroid lymphocytes, 4 lines secreting Tg autoantibodies were obtained from 11 fusions compared with 1 line from 32 fusions of Epstein Barr virus infected blood lymphocytes, which emphasises the importance of using lymphocytes derived from a tissue known to be enriched in thyroid autoantibody secreting precursor B cells. These 4 human Tg autoantibodies, as well as an IgG2 lambda Tg antibody previously derived from Hashimoto blood B cells and an IgG4 kappa monoclonal Tg antibody present in a Hashimoto serum, were used in attempts to probe the interaction between human Tg autoantibodies and the Tg molecule (2 polypeptides of 330 KD). The binding to 125-I Tg by 3/7 murine monoclonal antibodies was inhibited (36-78%) by an IgG2 lambda and an IgG4 kappa human monoclonal Tg autoantibody, indicating an overlap between the epitopes recognised by these 3 murine monoclonal Tg antibodies and 2 monoclonal human Tg autoantibodies. None of the human Tg autoantibodies (or the murine monoclonal Tg antibodies) bound to Tg denatured by reduction and alkylation. Although the number of observations is limited, our study demonstrates that high affinity human monoclonal Tg autoantibodies, like polyclonal serum Tg autoantibodies, recognise non-linear B cell epitopes on conformationally intact human Tg.

A Human-Mouse Hybridoma which Secretes Monoclonal Thyroglobulin Autoantibody with Properties Similar to those of the Donor Patient's Serum Autoantibody

Human monoclonal antibodies produced by Epstein Barr (EB) virus transformation and/or cell fusion are frequently IgM antibodies which tend to cross react with a range of antigens and often bear little relationship to the highly specific IgG antibodies associated with human autoimmune disease. By fusing EB virus transformed B lymphocytes from a Hashimoto patient with a mouse myeloma line and selecting for synthesis of IgG class thyroglobulin (Tg) antibody, we have developed a hybridoma (VB/5) secreting Tg antibody of IgG2 subclass and lambda light chain type which has the characteristics of a monoclonal antibody on isoelectric focussing. The antibody has a high affinity for human Tg and recognises Tg from other primates but not non-primate Tg. However, it does not react with human thyroid peroxidase or a panel of other autoantigens. In terms of affinity constant, functional affinity and affinity heterogeneity, the antibody closely resembles the IgG2 lambda Tg antibody present in the serum of the Hashimoto patient whose B lymphocytes were used to develop the hybridoma. In addition to providing a useful reference standard for Tg antibody IgG subclass assays, VB/5 antibody and the hybridoma line provide a valuable starting point for detailed studies of Tg autoantibodies and the genes coding for the variable regions of their heavy and light chains.

Human Monoclonal Thyroglobulin Autoantibodies of High Affinity. II. Interaction Between Thyroglobulin and Thyroglobulin Autoantibodies of Different IgG Subclasses

The interaction of human thyroglobulin (Tg) autoantibodies of different IgG subclasses with Tg was investigated using four high affinity human monoclonal thyroglobulin (Tg) autoantibodies, secreted by human-mouse hybridomas, of subclasses IgG1 (kappa and lambda) and IgG2 (kappa and lambda) and an IgG4 kappa serum monoclonal Tg antibody. With exception of a low level of interference in binding between one IgG1 lambda Tg antibody and one IgG2 kappa Tg antibody (27% decrease), binding by human monoclonal Tg antibodies of one IgG subclass was unaffected by pre-incubation of 125-I Tg (or Tg on an ELISA plate) with a human monoclonal Tg antibody of a different IgG subclass. Furthermore, preincubation of Tg-coated ELISA plates with an IgG1 human monoclonal Tg antibody had little effect on binding to Tg by IgG2, IgG3 and IgG4 Tg antibodies present in the sera of 6 Hashimoto patients. Comparable observations were made using an IgG2 monoclonal Tg antibody and serum Tg antibodies of subclasses IgG1, IgG3 and IgG4. Binding of an IgG1 kappa Tg antibody was inhibited (> 80%) by pre-incubation of Tg with an IgG1 lambda Tg antibody derived by fusion of lymphocytes from the same Hashimoto patient. In contrast, pre-incubation of Tg with an IgG2 kappa Tg antibody had little effect on subsequent binding by an IgG2 lambda Tg antibody derived from lymphocytes of a different Hashimoto patient.(ABSTRACT TRUNCATED AT 250 WORDS)

Potential role of PHA in producing human monoclonal thyroid autoantibodies of different subclasses

A human monoclonal autoantibody to thyroglobulin (Tg) of subclass IgG2 was developed by fusing a mouse myeloma with Tg antibody secreting Epstein-Barr virus (EBV)-infected B lymphocytes from a Hashimoto patient. Subsequent studies showed that EBV-infected B lymphocytes from this patient synthesized IgG2 Tg antibody while unfractionated blood lymphocytes cultured with pokeweed mitogen secreted IgG1, IgG2, and IgG4 Tg antibodies in amounts proportional to those present in the patients serum. To investigate this discrepancy further, we cultured EBV-infected lymphocytes from blood, lymph nodes, and thyroid tissue in medium alone and with increasing concentrations of PHA. In individuals with thyroid autoantibodies predominantly of subclass IgG1, PHA enhanced the levels of total Tg antibody synthesis without affecting the IgG subclass distribution. However, in patients with serum autoantibodies of subclasses IgG1, 2, and 4, the increased levels of total Tg antibody synthesis were associated with increased amounts of thyroid autoantibodies of all of these subclasses; in some instances IgG1 and IgG4 autoantibodies were only synthesized in cultures containing PHA. These observations suggest that addition of the T-cell mitogen PHA to cultures of EBV-infected lymphocytes may ensure activation of B-cell precursors committed to synthesizing the IgG subclasses characteristic of serum antibody in the lymphocyte donor. Since Tg antibodies of subclasses IgG2 and IgG4 recognize different epitopes on Tg, the ability to produce human monoclonal antibodies of different IgG subclasses may simultaneously ensure the development of antibodies to different epitopes on the same antigen.