Coexistence of resistance to thyroid hormone and papillary thyroid carcinoma

Thyroid hormone resistance: Mechanisms and therapeutic development

As an essential primary hormone, thyroid hormone (TH) is indispensable for human growth, development and metabolism. Impairment of TH function in several aspects, including TH synthesis, activation, transportation and receptor-dependent transactivation, can eventually lead to thyroid hormone resistance syndrome (RTH). RTH is a rare syndrome that manifests as a reduced target cell response to TH signaling. The majority of RTH cases are related to thyroid hormone receptor β (TRβ) mutations, and only a few RTH cases are associated with thyroid hormone receptor α (TRα) mutations or other causes. Patients with RTH suffer from goiter, mental retardation, short stature and bradycardia or tachycardia. To date, approximately 170 mutated TRβ variants and more than 20 mutated TRα variants at the amino acid level have been reported in RTH patients. In addition to these mutated proteins, some TR isoforms can also reduce TH function by competing with primary TRs for TRE and RXR binding. Fortunately, different treatments for RTH have been explored with structure-activity relationship (SAR) studies and drug design, and among these treatments. With thyromimetic potency but biochemical properties that differ from those of primary TH (T3 and T4), these TH analogs can bypass specific defective transporters or reactive mutant TRs. However, these compounds must be carefully applied to avoid over activating TRα, which is associated with more severe heart impairment. The structural mechanisms of mutation-induced RTH in the TR ligand-binding domain are summarized in this review. Furthermore, strategies to overcome this resistance for therapeutic development are also discussed.

Mutational Landscape of Resistance to Thyroid Hormone Beta (RTHβ)

Resistance to thyroid hormone beta (RTHβ) is a syndrome characterized by reduced responsiveness of peripheral tissues to thyroid hormone (TH). In most cases, the disorder is associated with germline pathogenic variants in the thyroid hormone receptor beta (THRB) gene. This paper summarizes the clinical and biochemical presentation of the disease, providing a comprehensive overview on molecular genetic features. Particular care is given in reporting all identified THRB variants with an assessed or unknown clinical significance. Our aim is to offer a useful tool for clinical and genetic specialists in order to ease clinical diagnosis and genetic counseling.

Assessing the clinical and molecular diagnosis of inherited forms of impaired sensitivity to thyroid hormone from a single tertiary center

AIM

Resistance to thyroid hormone (RTH), characterized by persistent hyperthyroxinemia with non-suppressed thyrotropin (TSH), is mostly caused by mutations in thyroid hormone receptor beta gene (THRB). Two differential diagnoses should be considered due to similar clinical and laboratory findings: TSH-producing pituitary adenoma (TPA) and Familial Dysalbuminemic Hyperthyroxinemia (FDH). The aim of this study is to describe our single tertiary center experience in the molecular diagnosis of RTH in Brazilian patients, analyzing their clinical and laboratory characteristics and the most common differential diagnosis.

SUBJECTS AND METHODS

We enrolled 30 subjects with clinical and laboratory features of RTH. Patient´s evaluations included clinical examination, thyroid hormone profile and imaging tests. Sequencing analysis for THRB hot spot region was conducted on all patients, and those without mutations in beta isoform of the thyroid hormone receptor (TRβ) (non-TR-RTH) were investigated for albumin gene (ALB) mutation.

RESULTS

Seventeen patients presented mutations in TRβ (RTHβ); six were non-TR-RTH, three had a diagnosis of FDH with a mutation in ALB, and four were diagnosed with TPA. Two characteristics were different to what is commonly described in the literature: higher serum TSH levels in RTHβ patients when compared to the non-TR-RTH group, but this difference did not extend to free T4 (FT4) level; also the percentage of non-TR-RTH was higher than what was reported in other series.

CONCLUSION

In the present series, most cases were RTHβ with higher levels of TSH. We described three novel mutations in THRB (p.M313V, p.R320G and p.R438P) and the first patients with FDH molecular diagnosis (p.R242H) documented in Brazil.

RESISTANCE TO THYROID HORMONES: A NOVEL MUTATION OF THE THYROID HORMONE RECEPTOR β GENE IN AN ALGERIAN FAMILY

Resistance to thyroid hormone (RTH) is an inherited disease transmitted in an autosomal dominant manner. The diagnosis is suspected when peripheral thyroid hormones are increased contrasting with normal or increased levels of thyroid stimulating hormone. Usually, people harboring the rare syndrome have few or no symptoms. However, in some patients signs of hyperthyroidism may be the revealing anomalies as in the following case: A 75 year-old woman was referred to our department for a benign adrenal incidentaloma. In her medical history she was treated for systemic hypertension and diabetes mellitus for 15 years. Clinical examination did not show any sign of adrenal secretion, but discovered rapid irregular cardiac rhythm with some hyperthyroidism features such as increased sweating and upper limbs and jaw tremor. Electrocardiogram showed atrial fibrillation. Hormonal assessment confirmed hyperthyroidism as FT4 levels were high (mean value: 30.2pmol/L (n= 9-23)), contrasting with non-suppressed TSH levels (13.8µU/mL (n = 0.2 - 4)). Cerebral magnetic resonance imaging was normal. Genetic testing revealed a new heterozygous mutation on exon 10 in the THRβ gene (c.1366T>G) compatible with RTH syndrome. Screening of her children showed the same hormonal profile in five out of ten. These results confirmed RTH and the familial character.