Clinical Characteristics of Children with THRA Mutations: Variable Phenotype and Good Response to Recombinant Human Growth Hormone Therapy.

INTRODUCTION: Mutations in the thyroid hormone receptor alpha (THRA) gene are a rare cause of thyroid hormone resistance, which leads to a pleomorphic phenotypic spectrum. Hormonal profiles are variable and subtle, making laboratory diagnoses challenging. Genetic evaluation can be a helpful tool in diagnosing these cases. CASE PRESENTATION: Three patients (P1, P2, and P3) from unrelated families presented to their endocrinologists with short stature and abnormalities in thyroid function results. P1 showed hypoactivity and mild thyroid-stimulating hormone (TSH) elevation. P2 presented with a mild developmental delay and a hormonal profile initially interpreted as central hypothyroidism. Patient P3 had severe symptoms, including hypotonia, developmental delay, normal TSH, hypercholesterolemia, severe hypertriglyceridemia, high amylase levels, and mild pericardial effusion. All the patients had low free thyroxine (FT4) levels, mild constipation, and short stature. The patients underwent exome sequencing analysis that identified three different heterozygous variants in the THRA gene (P1 and P2 had missense variants, and P3 had a stop codon variant). All patients were treated with levothyroxine replacement, improving their clinical symptoms, such as constipation, and neurological symptoms. P1 and P2 were also treated with the recombinant human growth hormone (rhGH). The improvements in growth velocity and height standard deviation scores (SDS) were remarkable. Notably, P1 had a total height gain of 2.5 SDS, reaching an adult height within the normal range. CONCLUSION: THRA gene defects can lead to growth disorders with different phenotypes. Children with THRA mutations can benefit from adequate treatment with levothyroxine and may respond well to rhGH treatment.

Structural insights revealed by two novel THRB mutations.

PURPOSE: Among the inheritable forms of impaired sensitivity to thyroid hormone, resistance to thyroid hormone (RTH) due to mutations in the thyroid hormone receptor beta gene (THRB) is the first and best known described defect, revealing a wide phenotypic variability with an incompletely understood physiopathology. The objective of this study was to evaluate two novel mutations in THRB, N331H and L346R, in an attempt to provide a rational understanding of the harmful effects caused by them. METHODS: The mutations of two patients with RTHß were reproduced for analysis of gene transactivation by dual-luciferase reporter assay, and for molecular modeling for crystallography-based structural assessment. Serum measurements of TSH and FT4 were performed to compare the thyrotrophic resistance to thyroid hormone between RTHß patients and controls. RESULTS: Both mutants showed impaired gene transactivation, with greater damage in L346R. Molecular modeling suggested that the damage occurring in N331H is primarily due to reduced strength of the hydrogen bonds that stabilize T3 in its ligand-binding cavity (LBC), whereas in L346R, the damage is more marked and is mainly due to changes in hydrophobicity and molecular volume inside the LBC. Hormonal dosages indicated that the L346R mutant exhibited greater thyrotrophic resistance than N331H. CONCLUSIONS: This study provides a rational understanding of the effects of mutations, indicating deleterious structural changes in the LBC in both THR, and discloses that not only the position of the mutation but, notably, the nature of the amino acid exchange, has a cardinal role in the functional damage of the receptor.

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 (TRß) (non-TR-RTH) were investigated for albumin gene (ALB) mutation. RESULTS: Seventeen patients presented mutations in TRß (RTHß); 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 RTHß 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 RTHß 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.

E449X mutation in the thyroid hormone receptor β associated with autoimmune thyroid disease and severe neuropsychomotor involvement / Mutação E449X no receptor β do hormônio tireoidiano associada com doença tireoidiana auto-imune e retardo neuropscicomotor grave

OBJECTIVE: To report the clinical and molecular aspects of a patient with a diagnosis of Resistance to Thyroid Hormone (RTH) harboring the E449X mutation associated with autoimmune thyroid disease and severe neuropsychomotor retardation. METHODS: We present a case report including clinical and laboratory findings, and molecular analysis of a Brazilian patient with RTH. RESULTS: A 23-year old male presented hyperactivity disorder, attention deficit, delayed neuropsychomotor development, and goiter. Since the age of 1 year and 8 months, his mother had sought medical care for her son for the investigation of delayed neuropsychomotor development associated with irritability, aggressiveness, recurrent headache, profuse sudoresis, intermittent diarrhea, polyphagia, goiter, and low weight. Laboratory tests revealed normal TSH, increased T3, T4, antithyroglobulin and antimicrosomal antibody titers. Increasing doses of levothyroxine were prescribed, reaching 200 µg/day, without significant changes in his clinical-laboratory picture. Increasing doses of tiratricol were introduced, with a clear clinical improvement of aggressiveness, hyperactivity, tremor of the extremities, and greater weight gain. Molecular study revealed a nonsense mutation in exon 10, in which a substitution of a guanine to tyrosine in nucleotide 1345 (codon 449) generates the stop codon TAA, confirming the diagnosis of RTH. CONCLUSION: This patient has severe neuropsychomotor retardation not observed in a single previous report with the same mutation. This may reflect the lack of a genotype-phenotype correlation in affected cases with this syndrome, suggesting that genetic variability of factors other than β receptor of thyroid hormone (TRβ) might modulate the phenotype of RTH.

OBJETIVOS: Descrever aspectos clínicos e moleculares de um paciente com resistência ao hormônio tireoidiano (RHT) portador da mutação E449X associada a doença tireoideana auto-imune e retardo neuropscicomotor grave. MÉTODOS: Relatamos um caso incluindo achados clínicos, laboratoriais e análise molecular de um paciente brasileiro com RHT. RESULTADOS: Paciente masculino, 23 anos de idade, apresentou-se com distúrbio de hiperatividade, déficit de atenção, retardo no desenvolvimento neuropsicomotor e bócio. Desde 1 ano e 8 meses de idade, sua mãe procurou assistência médica para investigação do retardo do desenvolvimento neuropsicomotor associado com irritabilidade, agressividade, cefaléia recorrente, sudorese profusa, diarréia intermitente, polifagia, bócio e perda de peso. Avaliação laboratorial evidenciou TSH normal e aumento do T3, T4 e anticorpos antimicrossomal e antitireoglobulina. Doses crescentes de levotiroxina foram prescritas, máximo de 200 µg/dia, sem significativas alterações em seu quadro clínico-laboratorial. Doses crescentes de tiratricol foram introduzidas com melhora clínica evidente da agressividade, da hiperatividade, do tremor de extremidades e maior ganho de peso. O estudo molecular revelou uma mutação nonsense no éxon 10, no qual a substituição da guanina pela tirosina no nucleotídeo 1345 (códon 449) gerou um stop códon TAA, confirmando o diagnóstico da RHT. CONCLUSÃO: Este paciente tem um grave retardo neuropiscomotor não observado em um relato único anterior com a mesma mutação. Isto pode refletir a falta de relação genotipo-fenótipo nos casos afetados com esta síndrome sugerindo que a variabilidade genética de outros fatores, além do receptor do hormônio tireoidiano (HT), possa modular o fenótipo da RHT.