Our findings indicate that current methods to precisely classify mutants with only a slight increase of the basal activity as constitutively active are limited. The results concerning the level of the basal activity can be influenced by the vector and/or the cell system. A comprehensive clinical characterization of the respective patients appears as a necessary and promising adjunct for the activity classification of these borderline mutations.
Considering the different diagnostic circumstances, therapeutic strategies and the limitations of a systematic analysis of case reports due to the restricted number of case reports and limited follow-up we found no consistent relation of the TSHR mutation's IVA determined by LRA with the CC of patients with SNAH. This may also be due to the action of genetic, epigenetic, and environmental modifiers.
Background: Germline thyrotropin receptor (TSHR) mutations are associated with sporadic congenital nonautoimmune hyperthyroidism and familial nonautoimmune hyperthyroidism. Somatic TSHR mutations are associated with toxic thyroid nodules (TTNs). The objective of the study was to define a relation of the clinical appearance and the in vitro activity (IVA) of the TSHR mutations described by several authors for these thyroid disorders. Methods: We analyzed the IVAs published as linear regression analysis (LRA) of the constitutive activity as a function of the TSHR expression and the basal cyclic adenosine monophosphate (cAMP) values to determine differences between exclusively somatic, exclusively familial, and shared sporadic and somatic TSHR-mutations. Further, we investigated correlations of the LRAs/basal cAMP values with clinical activity characteristics (CACs) of TTNs, such as largest diameter of the TTN and the age of the patient at thyroid surgery. Results: Shared sporadic and somatic mutations showed higher median LRA (14.5) and higher median basal cAMP values (fivefold) than exclusively familial mutations (6.1, p ¼ 0.0002; 2.9-fold, p < 0.0001, respectively). Moreover, mutations shared between sporadic congenital nonautoimmune hyperthyroidism and toxic thyroid nodules (TTNs) showed higher median LRA/basal cAMP values ( p < 0.0001) than exclusively somatic mutations in TTNs (5.1; 3.89-fold, respectively). Exclusively somatic mutations and exclusively familial mutations showed no significant difference in their median LRA values ( p ¼ 0.786) but a significant difference for basal cAMP values ( p ¼ 0.0006). The two examined CACs showed no correlation with the IVA characterized by LRA/ basal cAMP values or with the presence or absence of a TSHR-mutation. Conclusions: This systematic analysis of published constitutively activating TSHR-mutations, their CACs, and their IVA provides evidence for higher IVA of shared sporadic and somatic TSHR mutations as compared with familial TSHR mutations. CACs of somatic TSHR mutations in TTNs did not have a clear association with the IVA as characterized by LRA or basal cAMP values.
Prolonged TSH suppression was reported in a patient with nonautoimmune hyperthyroidism. These observations were made during L-thyroxine treatment and it was not possible to investigate a possible increase in serum TSH concentrations to levels observed in untreated hypothyroidism. We describe nonautoimmune familial hyperthyroidism identified in an Israeli woman, which is remarkable for the prolonged inappropriate TSH suppression after thyroid ablation. After 2 radioiodine treatments for several years, her TSH was always lower than 0.03 mU/l with 1.6 μg/kg/day (100 μg) thyroxine. 14 years after the radioiodine treatments, she discontinued thyroxine for 3.5 months and developed myxoedema with fT4 <6.0 and fT3 1.3 pmol/l and TSH of only 4.4 mU/l, which rose to only 8.6 after TRH. Genomic analysis showed a germline substitution M626I in the TSHR gene. Both exons of the thyroid-releasing hormone receptor revealed no mutations in this gene. Functional in vitro characterization of M626I showed a cell surface expression of 70% compared with the wt (100%), a significant increase of basal activity (5-fold over wt basal), which was confirmed by linear regression analysis (LRA) (slope: M626I=7, wt=1). No TRH-receptor mutation was detected. Therefore, this is the first patient with nonautoimmune hyperthyroidism with unequivocal evidence for inappropriately prolonged TSH suppression documented by a clearly insufficient TSH increase during clinical hypothyroidism. The in vitro characterization of the TSH-receptor mutation did not show any explanations for the prolonged TSH suppression. Therefore, other possible candidate genes remain to be investigated for potential explanations for this prolonged TSH suppression.
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