TSBAb (TSH-Stimulation Blocking Antibody) and TSAb (Thyroid Stimulating Antibody) in TSBAb-Positive Patients with Hypothyroidism and Graves' Patients with Hyperthyroidism
Two TRAbs: TSBAb and TSAb. TSBAb causes hypothyroidism. TSAb causes Graves’ hyperthyroidism. TSBAb and TSAb block TSH-binding to cells as TRAb, measured as TSH-binding inhibitory immunoglobulin (TBII). We reevaluate TSBAb and TSAb. We studied TSBAb, TSAb, and TBII over 10 years in 34 TSBAb-positives with hypothyroidism and in 98 TSAb-positives with hyperthyroidism. Half of the 34 TSBAb-positives with hypothyroidism continued to have persistently positive TSBAb, continued to have hypothyroidism, and did not recover from hypothyroidism. Ten of the 98 TSAb-positives with hyperthyroidism continued to have positive TSAb and continued to have hyperthyroidism. TSBAb had disappeared in 15 of the 34 TSBAb-positives with hypothyroidism. With the disappearance of TSBAb, recovery from hypothyroidism was noted in 13 (87%) of the 15 patients. TSAb had disappeared in 73 of the 98 TSAb-positives with hyperthyroidism. With the disappearance of TSAb, remissions of hyperthyroidism were noted in 60 (82%) of the 73. Two of the 34 TSBAb-positives with hypothyroidism developed TSAb-positive Graves’ hyperthyroidism. Two of the 98 TSAb-positive Graves’ patients with hyperthyroidism developed TSBAb-positive hypothyroidism. TSBAb and TSAb are TRAbs. TSBAb-hypothyroidism and TSAb-hyperthyroidism may be two aspects of one disease (TRAb disease). Two forms of autoimmune thyroiditis: atrophic and goitrous. We followed 34 TSBAb-positive patients with hypothyroidism (24 atrophic and 10 goitrous) over 10 years. All of the 10 TSBAb-positive goitrous patients recovered from hypothyroidism and 19 (79%) of the 24 TSBAb-positive atrophic patients continued to have hypothyroidism.
Abstract.
Although abnormal thyroid-stimulating and -blocking antibodies have been demonstrated in hyperthyroid and hypothyroid patients with autoimmune thyroid disorders, a direct correlation is not always observed. Thyroid-stimulating antibody, thyrotropinbinding inhibitory immunoglobulin, and thyroid-stimulating blocking antibody levels were determined in three hypothyroid patients who subsequently developed hyperthyroidism. Thyroid-stimulating antibodies levels were normal in one, elevated in another, and unmeasured in the third hypothyroid patient, but became elevated in all patients with the onset of hyperthyroidism. There was discordance, however, in one patient who had markedly elevated thyroid-stimulating antibodies and TSH-binding inhibitory immunoglobulin levels when she was hypothyroid. The data indicate that thyroidal responses to the abnormal stimulating antibodies may differ among patients with autoimmune thyroid disease.
Abstract
The prognosis of atrophic hypothyroidism with blocking type TSH-binding inhibitor immunoglobulin was studied. Among 45 patients (16 males and 29 females) with overt hypothyroidism (serum TSH >40 mU/l) without goitre, thyroid autoantibody to microsomal antigen was positive in 38 or 84.4%, and 4 or 8.9% had TSH-binding inhibitor immunoglobulin, which was shown to be a TSH-stimulation blocking antibody by cAMP production assay using cultured porcine thyroid cells. Thyroidal radioactive iodine uptake was low and thyroid hormone replacement therapy was required. Long-term follow up of 2 patients with strongly positive TSH-binding inhibitor immunoglobulin for 2 to 7 years, however, revealed recovery of the thyroid function after steroid therapy or spontaneously with iodide restriction, respectively, correlating with decrease in both TSH-binding inhibitor immunoglobulin and TSH-stimulation blocking antibody activities. Thyroidal radioactive iodine uptake became normal and histological examination of the thyroid in one patient revealed well-preserved thyroid follicles with lymphocytic infiltration. Recovery of thyroid function can be expected with a decrease in TSH-binding inhibitor immunoglobulin activity in atrophic hypothyroidism, which is not necessarily the end stage of chronic thyroiditis.
Abstract
We investigated why TSH receptor (TSHR) adenovirus immunization induces hyperthyroidism more commonly in BALB/c than in C57BL/6 mice. Recent modifications of the adenovirus model suggested that using adenovirus expressing the TSHR A subunit (A-subunit-Ad), rather than the full-length TSHR, and injecting fewer viral particles would increase the frequency of hyperthyroidism in C57BL/6 mice. This hypothesis was not fulfilled; 65% of BALB/c but only 5% of C57BL/6 mice developed hyperthyroidism. TSH binding inhibitory antibody titers were similar in each strain. Functional TSHR antibody measurements provided a better indication for this strain difference. Whereas thyroid-stimulating antibody activity was higher in C57BL/6 than BALB/c mice, TSH blocking antibody activity was more potent in hyperthyroid-resistant C57BL/6 mice. F1 hybrids (BALB/c × C57BL/6) responded to A-subunit-Ad immunization with hyperthyroidism and TSHR antibody profiles similar to those of the hyperthyroid-susceptible parental BALB/c strain. In contrast, ELISA of TSHR antibodies revealed that the IgG subclass distribution in the F1 mice resembled the disease-resistant C57BL/6 parental strain. Because the IgG subclass distribution is dependent on the T helper 1/T helper 2 cytokine balance, this paradigm can likely be excluded as an explanation for susceptibility to hyperthyroidism. In summary, our data for BALB/c, C57BL/6, and F1 strains suggest that BALB/c mice carry a dominant gene(s) for susceptibility to induction of a thyroid-stimulating antibody/TSH blocking antibody balance that results in hyperthyroidism. Study of this genetic influence will provide useful information on potential candidate genes in human Graves’ disease.
Abstract.
A receptor assay using [125I]bTSH-binding to guinea-pig testis membrane was developed. Unlabelled hCG and FSH inhibited [125I]bTSH binding. In patients with Graves' disease and in untreated hyperthyroid patients, almost all long-acting thyroid stimulators and thyroid-stimulating antibodies, respectively did not inhibit [125I]bTSH binding, which on the other hand was inhibited by thyroid stimulation blocking antibodies in patients with primary hypothyroidism. When the inhibitory effect on the binding of [125I]hCG and 125I-synthetic α-subunit peptide (α26-46) of hCG to testis membrane was examined, bTSH resulted in a significant inhibition. However, all three kinds of TSH receptor antibodies had no inhibitory effect. This study demonstrated 1. interaction of α-subunit of TSH and hCG with the testicular receptor; 2. binding of thyroid stimulation-blocking antibody and lack of binding of thyroid-stimulating antibody to the testicular TSH receptor in spite of binding of these TSH receptor antibodies to the thyroidal TSH receptor, and 3. lack of binding of thyroid-stimulating antibody and thyroid stimulation-blocking antibody to the testicular gonadotropin receptor.
ZusammenfassungDie Verfahrensanweisung zur Radioiodtherapie beim differenzierten Schilddrüsenkarzinom (Version 4) wurde von einer repräsentativen Expertengruppe im informellen Konsens verabschiedet und entspricht damit einer Leitlinie der ersten Stufe (S1) nach den Kriterien der Arbeitsgemeinschaft der Wissenschaftlichen Medizinischen Fachgesellschaften (AWMF). Die Verfahrensanweisung ergänzt die S2-Leitlinie zur operativen Behandlung maligner Schilddrüsenerkrankungen um die nuklearmedizinischen Aspekte. Bezüglich der Indikationsstellung zur ablativen Radioiodtherapie beim kleinen papillären Schilddrüsenkarzinom und beim minimal invasiven follikulären Schilddrüsenkarzinom ohne Angioinvasion, bezüglich der empirischen Bemessung der 131I-Therapieaktivität sowie bezüglich der exogenen versus endogenen TSH-Stimulation bei der ablativen Radio-iodtherapie werden Handlungskorridore beschrieben. Der Text enthält die Auswertungen aus der National Cancer Database und der SEER-Database (jeweils USA), wonach die ablative Radioiodtherapie bereits in einer Niedrig-Risiko Konstellation die Überlebensrate verbessert. Der statistische Nachweis eines solchen Nutzens setzt ein nationales Krebsregister mit Langzeitdaten voraus.
Changes of TSH-Stimulation Blocking Antibody (TSBAb) and Thyroid Stimulating Antibody (TSAb) Over 10 Years in 34 TSBAb-Positive Patients with Hypothyroidism and in 98 TSAb-Positive Graves’ Patients with Hyperthyroidism: Reevaluation of TSBAb and TSAb in TSH-Receptor-Antibody (TRAb)-Positive Patients