Fig 2 - uploaded by Kakita Maiko
Content may be subject to copyright.
TRH test with T3 suppression on the proband's mother The response levels of TSH to TRH were measured before , after 3-day administration of 50μg daily, and additional 3-day administration of 100μg daily of L-T3 on the proband's mother and the control.
Source publication
The syndrome of inappropriate secretion of thyrotropin (SITSH) is a hallmark of resistance to thyroid hormone (RTH) due to mutations in the β isoform of the thyroid hormone receptor (TRβ). Here, we report on a family of RTH due to a TRβ mutation (RTHβ) and presenting occasional SITSH. The proband was a 16 year-old girl with a goiter, detected at a...
Context in source publication
Context 1
... results of TRH test are shown in Fig. 2. The ini- tial and response levels of TSH to TRH were normal without L-T3, compared to the control patient as men- tioned above. However, responses of TSH to TRH, after the 3-day administration of 50μg daily or 100μg daily of L-T3, were higher than the control, suggesting that the pituitary resistance to thyroid hormone also ...
Similar publications
Background
Thyroid hemiagenesis (TH) is a rare congenital disease with absence of a thyroid lobe; most patients have no clinical symptoms. The etiology of TH remains unclear. In this paper, we describe a rare case of TH and congenital absence of the ipsilateral parathyroid gland, found during the operation, combined with the autoimmune disease Hash...
Citations
... For example, the 2016 JTA Guideline recommends measurements at one and three months after the initial assessment [8]. A case of RTHβ presenting occasional thyroid hormone profiles of SITSH was recently reported [49]. The authors speculated that some small occasional variations in thyroid function profiles, such as those usually experienced in the healthy population, occurred near the borderline between the area within reference ranges and that of SITSH. ...
Inappropriate secretion of thyroid-stimulating hormone (IST), also known as central hyperthyroidism, is a clinical condition characterized by elevated free thyroxine and triiodothyronine concentrations concurrent with detectable thyroid-stimulating hormone (TSH) concentrations. Similarly, the term syndrome of IST (SITSH) is widely used in Japan to refer to a closely related condition; however, unlike that for IST, an elevated serum free triiodothyronine concentration is not a requisite criterion for SITSH diagnosis. IST or SITSH is an important indicator of resistance to thyroid hormone β (RTHβ) caused by germline mutations in genes encoding thyroid hormone receptor β (TRβ) and TSH-secreting pituitary adenoma. Recent evidence has accumulated for several conditions associated with IST, including RTH without mutations in the TRβ gene (non-TR-RTH), the phenomenon of hysteresis involving the hypothalamus-pituitary-thyroid axis (HPT-axis), methodological interference, and Cushing’s syndrome after surgical resection. However, little information is available on the systematic pathophysiological aspects of IST in previous review articles. This report presents an overview of the recent advances in our understanding of the etiological aspects of IST that are relevant for diagnosis and treatment. Moreover, the report focuses on the potential mechanism of IST caused by hysteresis in the HPT-axis (lagging TSH recovery) in terms of epigenetic regulation.
... Most mutations in this gene are substitutions of a single amino acid in the ligand binding domain (LBD) [9]. Recently, we found a familial case of heterozygous p.R316C who manifested occasional SITSH [10]. In contrast, Ferrara et al. [11] reported a patient with severe RTH homozygous for the p.R316C mutation. ...
... Next, we searched for RTHβ caused by a deletion, truncation, or frameshift of TRβ to compare with RTHβ caused by a single amino acid substitution on PubMed 3) [21][22][23][24][25][26][27][28][29][30][31][32][33][34][35][36][37][38][39]. The degrees of SITSH in truncations and frameshifts were more severe than those in single amino acid deletions and single amino acid substitutions that were obtained in our previous study [10] (Fig. 4A). We also searched for homozygous patients for RTHβ on PubMed. ...
... In addition, the reported values in the literature were expressed as the percentage to the upper limit of the reference range in each institution in Figs. 4 and 5. Second, the mean values of multiple measurements for the applicable patients adopted in some patients might reduce the reality of the data because some reports provided two or more data sets of thyroid function measured at different times for a patient. Alternatively, thyroid function may fluctuate [10] and some epigenetic factors may influence thyroid function among family members with the same mutation [60]. In addition, there is a case of TSH-secreting pituitary adenoma with cyclic fluctuations in serum TSH levels [61]. ...
Confirmation of sustained syndrome of inappropriate secretion of thyrotropin (SITSH) is a milestone in diagnosis of β type of resistance to thyroid hormone (RTHβ). The differential diagnoses of RTHβ include TSH-producing pituitary adenoma (TSHoma) and familial dysalbuminemic hyperthyroxinemia (FDH), which also present SITSH. Recently, patients with RTHα caused by a mutation in thyroid hormone receptor α were reported and they did not present SITSH but a decline in the serum T4/T3 ratio. This review was aimed to overview thyroid function tests in RTH and related disorders. First, the characteristics of the thyroid function in RTHβ, TSHoma, and FDH obtained from a Japanese database are summarized. Second, the degrees of SITSH in patients with truncations and frameshifts were compared with those in patients with single amino acid deletions and single amino acid substitutions obtained from the literature. Third, the degrees of SITSH in homozygous patients were compared with those in heterozygous patients with cognate mutations. Finally, the FT3/FT4 ratios in RTHα are summarized. In principle, the TSH values in FDH were within the normal range and apparent FT4 values in FDH were much higher than in RTHβ and TSHoma. The FT3/FT4 values in RTHβ were significantly lower than in TSHoma. The degrees of SITSH in patients with truncations and frameshifts were more severe than those in patients with single amino acid deletions and single amino acid substitutions, and those in homozygous patients were more severe than those in heterozygous patients with cognate mutations. The FT3/FT4 ratios in RTHα were higher than 1.0.
... Reports were excluded if they did not include individual values and/or reference intervals for TFTs. FT4 and TSH values in each case reported were adjusted by the upper reference limit in each institution, according to a method (with some modifications) used in a study summarizing the distribution of TSH and FT4 in patients with resistance to thyroid hormone β [18]. The adjusted TSH value was calculated as follows: reported TSH value × 5.0 (upper TSH reference limit in Enshu Hospital)/upper TSH reference limit in the published case. ...
A 74-year-old asymptomatic Japanese man with suspected thyroid dysfunction was referred to our hospital. He had an elevated TSH (53.8 mIU/L; reference interval: 0.5–5.0) despite a free T4 (FT4) level (1.4 ng/dL; reference interval: 0.9–1.6). Further analysis revealed macro-TSH. A notable finding was that a 500-μg TRH stimulation test revealed a blunted free T3 (FT3) response despite a prolonged TSH response. Macro-TSH typically presents with inappropriately marked elevation of serum TSH levels compared with other thyroid hormones, as exhibited in our case. However, the level of TSH elevation that might differentiate macro-TSH from subclinical hypothyroidism is poorly known. We retrospectively analyzed 8,183 concurrent measurements of TSH and FT4 in individuals previously examined in our hospital to define the cut-off value for screening cases of inappropriate TSH elevation. FT4 values were rounded off to one decimal place, and the 97.5th percentile of TSH against each FT4 value was calculated. The data of our patient and that of 30 cases of macro-TSH extracted from the English literature were then assessed. When the approximate curve obtained from the 97.5th percentile of TSH values was defined as the cut-off value [Log10TSH = 0.700 + 1.549/{1 + (FT4/0.844)6.854}], 25 of the 31 (80.6%) macro-TSH cases were identified. In conclusion, we report for the first time a case of macro-TSH demonstrating an abnormal FT3 response to TRH. A cut-off value of TSH adjusted to the FT4 level may be a good method of screening for inappropriate TSH elevation (or inappropriate hyperthyrotropinemia) including those caused by macro-TSH.
... In the present case, cyclic fluctuations in serum TSH levels were noted in the clinical course. A previous study reported the potential of fluctuations between SITSH and the euthyroid status in a case of mild RTH [1]. Since no cases of TSHoma with periodically fluctuating serum TSH levels have ever been reported in the literature, difficulties were associated with distinguishing RTH from TSHoma. ...
A 29-year-old man was referred to our department due to adrenal insufficiency with the inappropriate secretion of TSH (SITSH). Magnetic resonance imaging revealed a pituitary tumor. A weak TSH response in the TRH test, elevated sex hormone binding globulin (SHBG) levels, and the absence of a family medical history of SITSH or TRβ gene mutations supported the diagnosis of TSH-secreting pituitary adenoma (TSHoma). However, complete TSH suppression and a blunted cholesterol response in the T3 suppression test as well as normal glycoprotein α-subunit (α-GSU) levels were not compatible with TSHoma. Since TSH, FT3, and FT4 spontaneously returned to normal ranges after admission, he was discharged. One month after his discharge, thyrotoxicosis with elevated serum TSH levels relapsed. After admission, his serum TSH levels returned to within the normal range. After his discharge from the second admission, his serum TSH levels fluctuated in accordance with serum FT3 and FT4 levels and symptoms, such as palpitations. Ten months after his discharge, he was admitted to our department again due to adrenal insufficiency and thyrotoxicosis with elevated serum TSH levels, suggesting cyclic SITSH. Although resistance to thyroid hormone (RTH) was not completely excluded, the pituitary tumor was removed by transsphenoidal surgery (TSS). A pathological diagnosis confirmed TSHoma. We herein report a case of TSHoma in which serum TSH, FT3, and FT4 levels fluctuated periodically. To the best of our knowledge, this is the first case report of "cyclic TSHoma", which needs to be considered when making a differential diagnosis of SITSH.
Thyroid dysgenesis (TD) accounts for most cases of congenital hypothyroidism. Although mutations in thyroid hormone receptor β (THRB) have been identified in TD, the mutational spectrum of THRB and phenotype-genotype correlations have not been fully elucidated. In this study, we aimed to find mutations of THRB, examine the functions of these mutations, and attempt to elucidate the relationship between THRB and TD. Thus, we screened the exons of THRB in 280 patients with TD and 200 normal subjects in samples collected from China. We performed cell morphology assays, MTT assays, flow cytometric analyses, and a quantitative reverse-transcription polymerase chain reaction in human thyroid follicular epithelial cells (Nthy-ori cell line) to examine the impact of THRB mutations. In two unrelated patients, two novel missense mutations, c.76G>A (p.D26N) and c.107G>A (p.C36Y), were identified in THRB. Functional studies suggested that the C36Y mutant caused changes in morphology, inhibiting cell proliferation and promoting apoptosis in a human thyroid cell line. In addition, we found that messenger RNA expressions of thyroglobulin (TG) and the Na+ /I- symporter (NIS) were decreased in a time-dependent manner in mutant THRB compared with the wild type. To our knowledge, this is the first study to document the prevalence of THRB mutations and the genotype-phenotype spectrum of TD in a Chinese population. We characterized the function of a C36Y mutation, which reduced cell proliferation and increased cell death in thyroid epithelial cells. This study provides further evidence for genetic THRB defects and disease mechanisms in TD.
Resistance to thyroid hormone (RTH) is a rare genetic disease caused by reduced tissue sensitivity to thyroid hormone. The hallmark of RTH is elevated serum levels of thyroid hormone with unsuppressed thyrotropin (TSH). However, the most common form of RTH results from minor defects in the ligand-binding domain or hinge domain of the TRβ gene, resulting in impaired T3-induced transcriptional activity, often showing mild presentation. Early diagnosis can be challenging. The objective of the current study was to characterize this specific group of RTH patients. This was a retrospective study. Patients diagnosed as RTH with TRβ mutations were enrolled in a single institute between 2004 and 2014. A total of 14 patients were diagnosed as RTH with mutation in THβ gene. The median age at diagnosis was 22.5 (IQR: 13.25-32.75). Goiter was the most common clinical finding. TSH was significantly elevated after TRH injection (median peak was 21.83 μIU/l, IQR: 13.59-31.48), 9.2-fold compared to the basal level. We found 10 mutations in TRβ gene, all located in the last four exons, and including one novel mutation, H271D. In vitro study found that H271D mutation reduced TR affinity to T3. Four patients with intact thyroid were diagnosed after 16 years old, defined as late manifestation. Compared to those diagnosed before 10 years old, patients with late manifestation presented with normal growth and mental development. Interestingly, three of them carried R438H mutation. We identified a novel p.H271D mutation in TRβ associated with RTH. Endocrinologists should be alert that RTH is frequently found in euthyroid patients with mild symptoms and often leads to misleading diagnosis as well as inappropriate treatment.
