The immunohistochemical demonstration of thyroglobulin in human thyroid tumour xenografts using a monoclonal antibody

Summary A monoclonal antibody (RBU/01) was raised against human thyroglobulin and its suitability for the immunohistochemical staining of thyroglobulin was determined on fixed, wax-embedded tissue, using the peroxidase anti-peroxidase (PAP) method. The antibody was then used to demonstrate the expression of human thyroglobulin in sections of a human follicular carcinoma of the thyroid which had been grown in immunodeficient mice. It is concluded that the immunohistochemical evaluation of the xenografts with the antibody provides useful information on this xenograft system as a potential model for thyroid carcinoma.     

The immunohistochemical demonstration of thyroglobulin in human thyroid tumour xenografts using a monoclonal antibody

A monoclonal antibody (RBU/01) was raised against human thyroglobulin and its suitability for the immunohistochemical staining of thyroglobulin was determined on fixed, wax-embedded tissue, using the peroxidase anti-peroxidase (PAP) method. The antibody was then used to demonstrate the expression of human thyroglobulin in sections of a human follicular carcinoma of the thyroid which had been grown in immunodeficient mice. It is concluded that the immunohistochemical evaluation of the xenografts with the antibody provides useful information on this xenograft system as a potential model for thyroid carcinoma.     

Production and properties of novel human thyroid cancer specific monoclonal antibodies.

Monoclonal antibodies (TCM-7, -9 and -12) against human thyroid differentiated cancers were established by screening with human thyroid cancers, normal and benign thyroid tissue, and normal human serum protein. A monoclonal antibody (TCM-9) with strong specificity for human thyroid cancer but not for Graves' disease, adenoma or normal thyroid, was shown to recognize a 300 K protein but not to bind to native or mature human thyroglobulin. When TCM-9 was used in immunohistochemical staining tests on more than 30 types of non-thyroid lesions, no reactivity of TCM-9 was observed except with skin immature teratoma, lip squamous carcinoma and stomach adenocarcinoma, which revealed weak reactivities. TCM-9 also showed strong reactivity with two undifferentiated thyroid cancer cell lines and one tissue specimen. Thus TCM-9 is a novel monoclonal antibody against the thyroid cancer.     

Inhibition of experimental autoimmune thyroiditis in mice by anti-I-A antibodies

Experimental autoimmune thyroiditis is induced in mice by immunization with thyroglobulin emulsified in Freund's complete adjuvant. The disease is characterized both by thyroid infiltration with mononuclear cells and by circulating thyroglobulin antibodies. The magnitude of the thyroid infiltration and the titer of thyroglobulin antibodies are controlled by genes in the I-A subregion of the major histocompatibility complex (H-2). We investigated the in vivo effect of monoclonal anti-Ia antibodies on experimental autoimmune thyroiditis in susceptible mice. Antibodies were given around the time of immunization, later after immunization, and to mice with established disease. Monoclonal antibody produced by the hybridoma line 10-3.6 (anti-I-Ak, s, u, v, z, f) completely prevented both production of thyroglobulin antibodies and thyroid infiltrates, when given shortly before or at the time of antigen administration. This effect was dose-dependent and this monoclonal antibody decreased the severity of the disease when given after the antigen challenge but did not fully suppress established thyroiditis. The same antibody markedly decreased the number of B lymphocytes in the spleen and decreased the thyroglobulin-induced spleen cell proliferation when either given in vivo or added in vitro to cell cultures. Antibodies produced by the hybridoma line 11.2.12 (anti-I-Ak) did not show an inhibitory effect on the disease. These experiments suggest that in this model of murine thyroiditis anti-Ia antibodies act on antigen-presenting cells. Furthermore, only one monoclonal antibody, anti-Ia, suppressed the immune response to thyroglobulin, suggesting a possible role for the isotype and specificity of anti-Ia antibody.     

The PGK epitope of human thyroglobulin: A molecular marker of alternatively spliced thyroglobulin molecules?

Summary Human thyroglobulin (hTg) is the 2748 aa precursor of the thyroid hormones T3 and T4. In autoimmune thyroid diseases, autoantibodies to hTg appeared which showed a restricted epitope specificity for the central region of the molecule (residues 1149–1251). Our hypothesis to explain why this particular region becomes autoantigenic is presented, which involves the existence of truncated, alternatively spliced forms of hTg in the bloodstream. To try to prove this hypothesis, we have undertaken the identification of the peptide epitopes recognized by monoclonal antibodies on the thyroglobulin molecule by multiple peptide synthesis methods; we report here on the identification of the three-residue epitope, Pro-Gly-Lys in position 1282–1284 of the hTg sequence which is recognized by monoclonal antibodies Tg2 and Tg8. Due to their sequence specificity, these antibodies could provide a means to tag the region of the hTg sequence which is suggested to be the site of an alternative processing phenomenon. Our results are discussed in terms of both the specificity of anti-hTg monoclonal antibodies and of the mechanism of appearance of autoantibodies recognizing the central region of hTg.     

Experimental autoimmune thyroiditis in mice chronically treated from birth with anti-IgM antibodies

The role of T lymphocytes in the pathogenesis of experimental autoimmune thyroiditis in mice is well established while the role of B lymphocytes is unclear. Mice with thyroid lesions have thyroglobulin antibodies whereas these antibodies can occur in mice immunized with Tg that do not develop thyroid lesions. To determine whether thyroglobulin antibodies are necessary for the development of the thyroid infiltrates with mononuclear cells, which are characteristic for experimental autoimmune thyroiditis, AKR mice chronically treated from birth with goat anti-mouse IgM antibodies were immunized with mouse thyroglobulin in Freund's complete adjuvant when they were 7 weeks old. Control mice, similarly immunized, were chronically injected from birth with normal goat gamma-globulin. Three weeks after immunization, all mice were sacrificed, thyroglobulin antibodies in the serum were measured by hemagglutination assay and enzyme-linked immunosorbent assay, and thyroid pathology was assessed. The serum concentration of IgG and IgM, the percentage of B and T lymphocytes in the spleen (flow cytometry), and the in vitro proliferative response of spleen lymphocytes to stimulation by PHA, LPS, and Tg were also measured. All mice treated with anti-IgM antibodies did not have detectable thyroglobulin antibodies but 63% of these mice and 88% of control mice (all of which had thyroglobulin antibodies) had thyroid lesions. Mice treated with anti-IgM antibodies that did not have thyroid lesions had a more pronounced depression of B lymphocytes than similarly treated mice that had thyroid lesions. These experiments suggest that thyroglobulin antibodies are not necessary for the development of thyroid infiltrates with mononuclear cells. B lymphocytes could still participate in the production of experimental autoimmune thyroiditis by presenting thyroglobulin to helper T lymphocytes.     

Localization of radiolabeled monoclonal antibodies in thyroid tumor xenografts

Monoclonal antibodies to human thyroglobulin were produced using the hybridoma technique. Two monoclonal antibodies D5I and F9I were radiolabeled with 125I and used for radioimmunolocalization studies in an immunosuppressed animal model bearing xenografts of human thyroid tumor tissue. Biodistribution studies were carried out at various time intervals post-injection. Maximum tumor uptake was obtained at 72 hr after administration of the antibodies. The absolute tumor uptake (ATU) expressed as percentage of injected dose per gram of tissue (% ID/g) was 15.49 +/- 2.47, 4.51 +/- 0.69 and 2.50 +/- 0.41 for D5I, F9I and control Igs respectively. The tumor to blood ratios (T/B) obtained were 3.01 +/- 0.43 for D5I, 0.98+/-0.2 for F9I and 0.47 +/- 0.12 for control Igs. ATU as well as T/B ratio obtained with D5I was significantly higher as compared to F9I and control Igs. The results indicated the potential application of radiolabeled monoclonal antibodies to human thyroglobulin for tumor targetting in patients of differentiated thyroid carcinoma, particularly those metastases which did not concentrate radioiodine.     

Circulating thyroglobulin and antithyroglobulin antibodies after fine needle aspiration of thyroid nodules

Circulating thyroglobulin and antithyroglobulin antibodies were assayed in fifteen patients affected by solitary "cold" nodules of the thyroid who had undergone fine needle aspiration for cytologic diagnosis. The aim of the study was to investigate whether a minor insult to thyroid tissue such as fine needle aspiration is able to release thyroglobulin into the circulation and to induce the formation of antithyroglobulin antibodies. The results obtained are as follows: 1. Circulating thyroglobulin increased substantially after fine needle aspiration in 11 out of 15 patients. 2. Antithyroglobulin antibodies did not appear in any patient during a follow-up period of two months. 3. The magnitude of basal thyroglobulin and thyroglobulin increase after needle aspiration were unrelated to cytologic diagnosis.     

Localization of thyroglobulin antigenicity in rat thyroid sections using antibodies labled with peroxidase or (125)I-radioiodine

In the hope of localizing thyroglobulin within focullar cells of the thyroid gland, antibodies raised against rat thyroglobulin were labeled with the enzyme horseradish peroxidase or with (125)I-radioiodine. Sections of rat thyroids fixed in glutaraldehyde and embedded in glycol methacrylate or Araldite were placed in contact with the labeled antibodies. The sites of antibody binding were detected by diaminobenzidine staining in the case of peroxidase labeling, and radioautography in the case of 125(I) labeling. Peroxidase labeling revealed that the antibodies were bound by the luminal colloid of the thyroid follicles and, within focullar cells, by colloid droplets, condensing vacuoles, and apical vesicles. (125)I labeling confirmed these findings, and revealed some binding of antibodies within Golgi saccules and rough endoplasmic reticulum. This method provides a visually less distinct distribution than peroxidase labeling, but it allowed ready quantitation of the reactions by counts of silver grains in the radioautographs. The counts revealed that the concentration of label was similar in the luminal colloid of different follicles, but that it varied within the compartments of follicular cells. A moderate concentration was detected in rough endoplasmic reticulum and Golgi saccules, whereas a high concentration was found in condensing vacuoles, apical vesicles, and in the luminal colloid. Varying amounts of label were observed over the different types of colloid droplets, and this was attributed to various degrees of lysosomal degradation of thyroglobulin. It is concluded that the concentration of thyroglobulin antigenicity increases during transport from the ribosomal site of synthesis to the follicular colloid, and then decreases during the digestion of colloid droplets which leads to the release of the thyoid hormone.     

Structural differences around hormonogenic sites on thyroglobulins from different species detected by monoclonal antibodies

Thyroxine remains attached to its synthetic site in thyroglobulin until it is released by proteolysis. Strong homology in the primary sequence surrounding thyroxine-forming residues in thyroglobulins from various species suggests a unique three-dimensional structure at hormonogenic sites. To examine this, two thyroxine-binding mouse anti-(chicken thyroglobulin) monoclonal antibodies, 1A10 and 5F6, were used as probes for this region in an enzyme-linked immunosorbent inhibition assay. The thyroxine content of thyroglobulins had a marked positive influence on the monoclonal antibody binding: when the thyroxine content of human thyroglobulin rose by 6.6-fold, cross-reactivities rose 25-fold for the 1A10 monoclonal antibody and 17.6-fold for the 5F6 monoclonal antibody. However, interspecies comparison of thyroglobulin preparations with similar thyroxine content showed lower than expected cross-reactivities for human, pig and sheep thyroglobulins when compared with chicken thyroglobulin. Only when the thyroxine content of heterologous thyroglobulin preparations was two or three times higher did the cross-reactivities equal or surpass that of chicken thyroglobulin. It is concluded that in thyroglobulin there are structural differences in the different animal species near the thyroxine-forming sites bound by these monoclonal antibodies. The known primary sequence similarity does not seem to result, therefore, in identical three-dimensional structures about this site. These differences may reflect species-specific variations in distant regions brought close as a result of chain folding to form the hormonogenic site, such as those around the donor diiodotyrosine residue or in polysaccharide structures. These monoclonal antibodies provide information about the structure of thyroglobulin, which cannot be obtained from knowledge of the amino acid sequence alone.     

Analysis of triiodothyronine and thyroxine-binding autoantibodies in chickens susceptible to autoimmune thyroiditis

This report reveals a surprisingly high incidence of thyroid hormone (T3 and T4) autoantibodies (THA) and thyroglobulin autoantibodies in a closed flock of untreated Cornell strain (CS) White Leghorn chickens. This flock is closely related to the Obese strain chicken, which develops a severe spontaneous autoimmune thyroiditis. A sensitive electrophoretic autoradiographic assay for THA was developed. This assay was applied to the study of autoantibodies to T3 and T4 in the sera of adult female CS chickens. Of 109 females, 29.4% had antibodies to T3 and 18.4% had antibodies to T4. The incidence of thyroglobulin antibodies, determined by passive hemagglutination, was 15.6%. The presence of THA affected RIA measurements because serum T3 and T4 hormone concentrations appeared elevated in those birds with moderate to high antibody levels. There was major variance in the electrophoretic heterogeneity of the THA from individual chickens; i.e., some of the sera contained antibodies to T3 or T4 that appeared to be monoclonal, whereas other sera exhibited polyclonal multi-banded patterns. To determine if antibodies reactive with T3 and T4 (which are haptens) were generated by antibody responses to the T3/T4 sites on the thyroglobulin molecule, competitive binding assays were performed to determine the relative binding affinities of the antibodies for the haptens (T3/T4) and the "hapten-conjugate" (thyroglobulin). In these assays, thyroglobulin competed with the haptens, thus supporting the above hypothesis.     

A circulating thyroid peroxidase-like substance in healthy human peripheral blood

Circulating thyroid peroxidase (TPO)-like substance in healthy human peripheral blood was studied to clarify the immunological role of TPO. By using a highly sensitive radioimmunoassay system combined with murine monoclonal antibodies, TPO-like substance was measurable in 6 out of 84 sera. Characterization of this circulating substance by gel filtration revealed that the molecular weight of a major peak corresponded to that of trypsinized TPO. From these findings it is possible that peripheral blood lymphocytes are exposed to a low level of TPO as well as to thyroglobulin.     

Immunocytochemistry in head and neck aspirates. Diagnostic application on direct smears in 16 problematic cases.

This report describes our experience with immunocytochemical staining of routinely processed smears in the fine needle aspiration (FNA) biopsy diagnosis of 16 tumors of the head and neck. Immunocytochemistry (ICC) was performed on alcohol-fixed or air-dried smears using commercially available monoclonal antibodies followed by a streptavidin-biotinylated peroxidase labeling method. In 12 aspirates with cytologically unclassifiable and undifferentiated cells, immunostaining for cytokeratin, leukocyte common antigen, S-100 protein and vimentin provided conclusive evidence of cell lineage. ICC permitted the correct identification and differential diagnosis of four additional tumors: a positive immunoreaction for thyroglobulin identified a metastatic Hürthle cell carcinoma of the thyroid; a coexpression of two distinct classes of intermediate filaments helped support the FNA diagnoses of a parathyroid adenoma and of a synovial sarcoma; and the double immunoreaction for CD15 and CD30 antigens helped identify Reed-Sternberg cells within an unusually suppurative harvest. Two immunostains were required for proper diagnosis in 13 cases and four in the remaining 3. In all cases but one only unstained slides were used. These data demonstrate that immunostaining can conveniently and advantageously be performed on direct smears of aspirated samples of head and neck lesions, but cases should be carefully selected for this procedure.     

Critical role of iodination for T cell recognition of thyroglobulin in experimental murine thyroid autoimmunity

We have used two clonotypically distinct thyroglobulin (Tg)-specific, I-Ak restricted monoclonal T cell populations to investigate the role of thyroid peroxidase-catalyzed iodination in Tg recognition by autoreactive T cells. The results showed that these T cells could recognize Tg only it it was sufficiently iodinated. Unlike normal mouse Tg, noniodinated mouse Tg was unable to induce significant thyroid lesions but could trigger the production of Tg autoantibodies. In these experiments, the importance of T cell recognition of iodination-related epitopes was emphasized by the inability of serum antibodies to distinguish Tg on the basis of iodine content, whether they were induced with normal or noniodinated Tg. Therefore, thyroid peroxidase-dependent modification of Tg would appear to be central to its recognition by autoreactive T cells and hence its capacity to induce autoimmune thyroid lesions.     

Serum levels and thyroid tissue expression of CA50 and CA 19-9 in patients with thyroid tumor.

A 77-year-old man was admitted to the hospital with a thyroid nodule. The levels of serum tumor-associated carbohydrate antigens (CA 50, CA 19-9) and thyroglobulin (HTG) were markedly increased. We performed total thyroidectomy and right neck lymph node dissection. After treatment, the serum CA 50, CA 19-9 and HTG levels were markedly decreased. Histological examination of the thyroid tumor showed papillary adenocarcinoma and the dissected neck lymph nodes contained metastatic adenocarcinoma. The expression of CA 50 and CA 19-9 (defined by the monoclonal antibodies) was studied by immunoperoxidase staining from the normal and carcinomatous thyroid tissues and the dissected neck lymph node. CA 50 was expressed more strongly by the carcinoma cells than CA 19-9. The positive rates for serum CA 50 and CA 19-9 levels in other patients with papillary adenocarcinoma were not significantly higher compared with patients with benign nodules and normal subjects. But a significant positive correlation was found between the diameter of the carcinoma and the serum levels of CA 50 and CA 19-9. These results suggest that the serum levels of CA 50 and CA 19-9 might not become useful markers for diagnosing carcinoma of the thyroid, but might be useful markers for monitoring the growth or recurrence of papillary adenocarcinoma of the thyroid in patients with high serum levels of CA 50 and CA 19-9.     

Probing the normal and autoimmune B cell repertoire with Epstein-Barr virus. Frequency of B cells producing monoreactive high affinity autoantibodies in patients with Hashimoto's disease and systemic lupus erythematosus

The frequency of cell precursors producing Ig of different classes and Ag-binding activities were determined, using EBV-infection and limiting dilution assays, in healthy subjects and patients with autoimmune disease. A large proportion of circulating B cells from healthy subjects were committed to the production of IgM antibodies that were polyreactive and bound a variety of self- and exogenous Ag, i.e., IgG Fc fragment, ssDNA, thyroglobulin, thyroid microsomal Ag, insulin, and tetanus toxoid. Similar frequencies of these polyreactive antibody-producing cells were found in patients with Hashimoto's disease and SLE. In contrast, significantly higher frequencies of cell precursors producing monoreactive IgG autoantibodies to thyroid Ag (thyroglobulin and thyroid microsomal Ag) and ssDNA were found in Hashimoto's disease and SLE patients, respectively. Calculation of the Kd revealed that monoclonal polyreactive antibodies were in general low affinity (Kd, 10(-3) to 10(-7) mol/liter), whereas monoclonal monoreactive autoantibodies were high affinity (Kd, 10(-9) to 10(-11) mol/liter). The detected frequency and high affinity of the monoreactive autoantibodies in Hashimoto's disease and SLE patients were comparable to those of anti-tetanus toxoid and anti-insulin IgG mAb produced by B cell clones from vaccinated healthy subjects and insulin-treated patients with insulin-dependent diabetes mellitus, respectively. These findings support the hypothesis that the autoimmune B cell repertoire in patients with organ-specific and systemic autoimmunity is shaped by Ag-driven responses rather than merely reflecting a polyclonal B cell activation.     

Simultaneous occurrence of medullary and papillary carcinoma of the thyroid gland identified by fine needle aspiration. A case report

BACKGROUND: Fine needle aspiration (FNA) diagnosis of simultaneous medullary and papillary thyroid carcinoma in independent thyroid lobes is exceedingly rare. CASE: A 36-year-old female presented with a one-month history of dysphagia. Thyroid ultrasound revealed a multinodular goiter. She was clinically and biochemically euthyroid. FNA of the right thyroid nodule was consistent with medullary carcinoma, and FNA of the left thyroid lobe was consistent with papillary carcinoma. Immunohistochemistry revealed strong calcitonin and CEA positivity in the right lobe and lack of staining in the left lobe. Conversely, staining for thyroglobulin was negative on the right lobe and positive on the left lobe. CONCLUSION: The patient developed tumors in separate lobes of the thyroid. Immunoreactivity of calcitonin, CEA and thyroglobulin made a sharp distinction between the two tumors. Therefore, we conclude that these tumors were not linked by either embryology or genetics.     

In vitro studies of the thyroglobulin degradation pathway: endocytosis and delivery of thyroglobulin to lysosomes, release of thyroglobulin cleavage products--iodotyrosines and iodothyronines

Iodinated thyroglobulin stored in the thyroid follicular lumen is subjected to an internalization process and thought to be transferred into the lysosomal compartment for proteolytic cleavage and thyroid hormone release. In the present study, we have designed in vitro models to study: 1) the transfer of endocytosed thyroglobulin into lysosomes, and 2) the intracellular fate of free thyroid hormones and iodinated precursors generated by intralysosomal proteolysis of thyroglobulin. Open follicles prepared from pig thyroid tissue by collagenase treatment were used to probe the delivery of exogenous thyroglobulin to lysosomes via the differentiated apical cell membrane. Open follicles were incubated with pure [125I]thyroglobulin with or without unlabeled thyroglobulin in the presence or in the absence of chloroquine. Subcellular fractionation on a Percoll gradient showed that [125I]thyroglobulin was internalized and present in low (for the major part) and high density thyroid vesicles. In chloroquine-treated open follicles, we observed the appearance of a definite fraction of [125I]thyroglobulin in a lysosome subpopulation having the expected properties of phagolysosomes or secondary lysosomes. In contrast, in control open follicles, the amount of [125I]thyroglobulin or degradation products found in high density vesicles was lower and associated with the bulk of lysosomes, i.e., primary lysosomes. The content in thyroglobulin and degradation products of lysosomes at steady-state was analyzed by Western blot using polyclonal anti-pig thyroglobulin antibodies. Under reducing conditions, immunoreactive thyroglobulin species correspond to polypeptides with molecular weights ranging from 130,000 to less than 20,000. The presence of free thyroid hormones and iodotyrosines inside lysosomes and their intracellular fate was studied in dispersed thyroid cells labeled with [125I]iodide. Neo-iodinated [125I]thyroglobulin gave rise to free [125I]T4 which was secreted into the medium. In addition to released [125I]T4, a fraction of free [125I]T4 was identified inside the cells. Lysosomes isolated from dispersed thyroid cells did not contain significant amounts of free [125I]T4. The free intracellular [125I]T4 fraction seems to represent an intermediate 'hormonal pool' between thyroglobulin-bound T4 and secreted T4. Evidence for such a precursor-product relationship was obtained from pulse-chase experiments. In conclusion: 1) open thyroid follicles have the ability to internalize thyroglobulin by a mechanism of limited capacity and to address the endocytosed ligand to lysosomes.(ABSTRACT TRUNCATED AT 400 WORDS)     

Thyroid autoantigens and their relevance in the pathogenesis of thyroid autoimmunity

Humoral and cellular immune responses are both involved in autoimmune disorders of the thyroid gland. In the last five years, new substantial data have been obtained on the nature and the expression of thyroid cell surface autoantigens and on the demonstration of the functional heterogeneity of autoantibodies to the thyroid stimulating hormone (TSH) receptor. In the present report, attention will be mainly focused on recent studies carried out in our laboratory. The main autoantigens so far identified include the 'microsomal' antigen, thyroglobulin and the TSH receptor. For many years the 'microsomal' antigen (M) was considered a poorly characterized constituent of the cytoplasm of the thyroid cell. In the last five years, several lines of evidence were provided indicating that M is also well represented on the surface of the follicular cell and is identical to thyroid peroxidase (TPO). The use of anti-TPO monoclonal antibodies, presently available, have confirmed this antigenic identity. Microsomal (anti-TPO) antibodies are very useful markers of autoimmune thyroid disorders and are generally present in Hashimoto's thyroiditis, idiopathic myxedema and Graves' disease. TSH receptor antibodies (TRAb) are present in the sera of patients with Graves' disease. TRAb are able to stimulate thyroid adenylate cyclase and also to mimic TSH in its thyroid growth stimulation. Thus, these antibodies may have a pathogenetic role in goiter formation and in thyroid hyperfunction in Graves' disease. TRAb were also shown to inhibit both TSH binding to its receptor and TSH-stimulated adenylate cyclase activity. Recently TRAb, which inhibited TSH-stimulated adenylate cyclase activity, were found in idiopathic myxedema patients and may be responsible for impairment of thyroid function.(ABSTRACT TRUNCATED AT 250 WORDS)     

Independent expression of a regulatory idiotype on heavy and light chains. A further immunochemical analysis with anti-heavy and anti-light chain antibodies

The heavy (H) and light (L) chains of murine monoclonal autoantibody 62 reacting with thyroglobulin independently express idiotypic (Id) determinants that are very similar if not identical with the Id62 expressed on the intact protein. In this report, we describe the production and characterization of rabbit antibodies to isolated H62 and L62 chains to further prove that individual chains express Id62 in an immunogenic form. The results demonstrate that both chains are capable of eliciting antibodies that, after appropriate adsorption, behave like conventional anti-Id62 antibodies prepared against the intact antibody molecule. By direct radioimmunoassay binding, competition of Id binding and Western blot anti-H62 and anti-L62 antibodies identify as Id-positive the same group of IgG1, bind in a reciprocal fashion to H- and L-chains of parental monoclonal antibody 62, and detect Id62-positive polyclonal serum autoantibodies to thyroglobulin. We conclude that monoclonal antibody 62 expresses independently a similar Id on both polypeptide chains and the intact antibody molecule, or its isolated chains, induce qualitatively similar anti-Id responses. These results are discussed in light of the possible structure/function implication such autoantibodies may have within the Id network.