Nódulos tiroideos en pediatría: predictores de malignidad / Pediatric thyroid nodules: predictors of malignancy

Introducción: La caracterización de los nódulos tiroideos en pediatría no ha sido aún bien comunicada. El riesgo de malignidad es mayor que en adultos por lo que requieren una evaluación exhaustiva. Objetivo: caracterizar una cohorte de pacientes pediátricos con nódulos tiroideos e identificar predictores de malignidad. Pacientes y métodos: se analizaron los hallazgos demográficos, clínicos, bioquímicos, ecográficos y citológicos de una cohorte prospectiva de 106 pacientes <19 años que consultó por nódulo tiroideo a nuestro centro entre 2008-2017. 89 pacientes alcanzaron el diagnóstico de nódulo benigno o maligno por cirugía y 17 luego de un seguimiento clínico mínimo de 2 años. Retrospectivamente se analizaron las diferencias entre los nódulos benignos y malignos. Resultados: la edad mediana fue 13,9 años, con franco predominio de mujeres puberales. 88% presentó una función tiroidea normal. 88/106 nódulos fueron benignos. El carcinoma papilar de tiroides (CPT) fue la única lesión maligna hallada (17%). El análisis estadístico mostró una asociación significativa de CPT con TSH >2,5mU/l, nódulo sólido, márgenes irregulares, microcalcificaciones y adenopatías cervicales patológicas. Un resultado citológico Bethesda V/VI tuvo un valor predictivo (VP) positivo de 87,5% y VP negativo de 96,4%. Conclusiones: El nódulo tiroideo en pediatría es más frecuentemente maligno. La evaluación sistemática permitió identificar ciertos hallazgos clínicos, bioquímicos, ecográficos y citológicos predictores de malignidad que deben ser considerados al decidir el enfoque diagnóstico

Introduction: Published data on pediatric thyroid nodule´s characterization is scarce. With higher risk of malignancy than in adults, they require an exhaustive diagnostic work-up. Objective: To characterize a pediatric cohort with thyroid nodules to identify predictors of malignancy. Patients and methods: Demographic, clinical, biochemical, ultrasonographical and cytological data were analyzed prospectively in 106 patients <19 years that consulted with a thyroid nodule to our center (2008-2017). 89 patients reached final diagnosis (benign or malignant nodule) after surgery and 17 after a minimum follow-up of 2years. Differences between benign and malignant nodules were analyzed retrospectively. Results: median age was 13.9 years, with predominant pubertal females. 88% was euthyroid. 88/106 nodules were benign. Thyroid papillary carcinoma (TPC) was the only malignancy found (17%). Statistical analysis showed significant association of TPC with TSH levels >2.5mU/l, solid nodules, irregular margins, microcalcifications and pathologic adenopathies. Cytological results Bethesda V/VI showed positive and negative predictive values of 87.5% and 96.4% respectively. Conclusions: Pediatric thyroid nodules are more frequently malignant. The systematic evaluation of our cohort allowed the identification of clinical, biochemical ultrasonographical and cytological predictors of malignancy that have to be considered when deciding the diagnostic approach

Pilot Neonatal Screening Program for Central Congenital Hypothyroidism: Evidence of Significant Detection.

BACKGROUND/AIM: Congenital hypothyroidism (CH) is a heterogeneous entity. Neonatal screening programs based on thyrotropin (TSH) determination allow primary CH diagnosis but miss central CH (CCH). CCH causes morbidity, alerts to other pituitary deficiencies, and is more prevalent than previously thought. We aimed at developing a pilot neonatal screening program for CCH detection. PATIENTS AND METHODS: A prospective 2-year pilot neonatal screening study based on simultaneous dried blood specimen TSH and thyroxine (T4) measurements was implemented in term newborns aged 2-7 days. Those with T4 ≤4.5 µg/dL (-2.3 SDS) and TSH <10 mIU/L were recalled (suspicious of CCH) and underwent clinical and biochemical assessment performed by expert pediatric endocrinologists. RESULTS: A total of 67,719 newborns were screened. Primary CH was confirmed in 24 (1: 2,821). Forty-four newborns with potential CCH were recalled (recall rate 0.07%) at a mean age of 12.6 ± 4.8 days. In this group, permanent CCH was confirmed in 3 (1: 22,573), starting L-T4 treatment at a mean age of 12.3 ± 6.6 days; 14 boys showed T4-binding globulin deficiency (1: 4,837); 24 had transient hypothyroxinemia (21 non-thyroidal illness and 3 healthy); and 3 died before the confirmation stage. According to initial free T4 measurements, CCH patients had moderate hypothyroidism. CONCLUSIONS: Adding T4 to TSH measurements enabled the identification of CCH as a prevalent condition and contributed to improving the care of newborns with congenital hypopituitarism and recognizing other thyroidal disorders.

Hipotiroidismo congénito transitorio por defectos bialélicos del genDUOX2. Dos casos clínicos / Transient congenital hypothyroidism due to biallelic defects of DUOX2 gene. Two clinical cases

El hipotiroidismo congénito afecta a 1:2000-3000 recién nacidos detectados por pesquisa neonatal. Las oxidasas duales, DUOX1 y 2, generan agua oxigenada, lo que constituye un paso crítico en la síntesis hormonal. Se han comunicado mutaciones en el gen DUOX2 en casos de hipotiroidismo congénito transitorio y permanente. Se describen dos hermanos con hipotiroidismo congénito detectados por pesquisa neonatal, con glándula tiroides eutópica y tiroglobulina elevada. Recibieron levotiroxina hasta su reevaluación en la infancia con suspensión del tratamiento. Su función tiroidea fue normal y se consideró el cuadro como transitorio por un posible defecto de organificación. Ambos pacientes eran heterocigotos compuestos para una mutación en el exón 9 del alelo paterno (c.1057_1058delTT, p.F353PfsX36 o p.F353fsX388) y otra en el exón 11 del alelo materno (c.1271T>G, p.Y425X) del gen DUOX2. Nuestro hallazgo confirma que la magnitud del defecto de DUOX2 no se relaciona con el número de alelos afectados, lo que sugiere mecanismos compensadores en la generación de peróxido.

Congenital hypothyroidism affects 1:2000-3000 newborns detected by neonatal screening programs. Dual oxidases, DUOX1 and 2, generate hydrogen peroxide needed for the thyroid hormone synthesis. Mutations in the DUOX2 gene have been described in transient and permanent congenital hypothyroidism. Two brothers with congenital hypothyroidism detected by neonatal screening with eutopic gland and elevated thyroglobulin are described. They were treated with levothyroxine until it could be suspended in both during childhood, assuming the picture as transient. Organification disorder was confirmed. Both patients were compounds heterozygous for a mutation in exon 9 of the paternal allele (c.1057_1058delTT, p.F353PfsX36 or p.F353fsX388) and in exon 11 of the maternal allele (c.1271T > G, p.Y425X) of DUOX2 gene. Our finding confirms that the magnitude of the defect of DUOX2 is not related to the number of inactivated alleles, suggesting compensatory mechanisms in the peroxide supply

[Transient congenital hypothyroidism due to biallelic defects of DUOX2 gene. Two clinical cases]. / Hipotiroidismo congénito transitorio por defectos bialélicos del gen DUOX2. Dos casos clínicos.

Congenital hypothyroidism affects 1:2000-3000 newborns detected by neonatal screening programs. Dual oxidases, DUOX1 and 2, generate hydrogen peroxide needed for the thyroid hormone synthesis. Hipotiroidismo congénito transitorio por defectos bialélicos del gen DUOX2. Dos casos clínicos Transient congenital hypothyroidism due to biallelic defects of DUOX2 gene. Two clinical cases Mutations in the DUOX2 gene have been described in transient and permanent congenital hypothyroidism. Two brothers with congenital hypothyroidism detected by neonatal screening with eutopic gland and elevated thyroglobulin are described. They were treated with levothyroxine until it could be suspended in both during childhood, assuming the picture as transient. Organification disorder was confirmed. Both patients were compounds heterozygous for a mutation in exon 9 of the paternal allele (c.1057_1058delTT, p.F353PfsX36 or p.F353fsX388) and in exon 11 of the maternal allele (c.1271T > G, p.Y425X) of DUOX2 gene. Our finding confirms that the magnitude of the defect of DUOX2 is not related to the number of inactivated alleles, suggesting compensatory mechanisms in the peroxide supply.

El hipotiroidismo congénito afecta a 1:2000-3000 recién nacidos detectados por pesquisa neonatal. Las oxidasas duales, DUOX1 y 2, generan agua oxigenada, lo que constituye un paso crítico en la síntesis hormonal. Se han comunicado mutaciones en el gen DUOX2 en casos de hipotiroidismo congénito transitorio y permanente. Se describen dos hermanos con hipotiroidismo congénito detectados por pesquisa neonatal, con glándula tiroides eutópica y tiroglobulina elevada. Recibieron levotiroxina hasta su reevaluación en la infancia con suspensión del tratamiento. Su función tiroidea fue normal y se consideró el cuadro como transitorio por un posible defecto de organificación. Ambos pacientes eran heterocigotos compuestos para una mutación en el exón 9 del alelo paterno (c.1057_1058delTT, p.F353PfsX36 o p.F353fsX388) y otra en el exón 11 del alelo materno (c.1271T>G, p.Y425X) del gen DUOX2. Nuestro hallazgo confirma que la magnitud del defecto de DUOX2 no se relaciona con el número de alelos afectados, lo que sugiere mecanismos compensadores en la generación de peróxido.

Differentiated Thyroid Cancer in Children: Prevalence and Predictors in a Large Cohort with Thyroid Nodules Followed Prospectively.

We retrospectively analyzed the findings of a prospective cohort of 75 children referred for thyroid nodules between 2008 and 2013. Prevalence of papillary differentiated thyroid carcinoma was 18.7%. Thyrotropin >2.5 mIU/L, multinodular goiter, solid nodules, irregular margins, and pathologic lymphadenopathies were identified as independent predictors of malignancy.

Prevalence and etiology of congenital hypothyroidism detected through an argentine neonatal screening program (1997-2010).

INTRODUCTION: We retrospectively assessed the incidence of congenital hypothyroidism (CH) detected through our neonatal screening program between 1997 and 2010. We describe the diagnostic characteristics of the detected population and verify the impact of a TSH cutoff (CO) change. PATIENTS AND METHODS: Screening was based on TSH determination on dried blood spot on filter paper samples (IFMA) using a 15 mU/l blood CO until 12/2002 (P1) and 10 mU/l thereafter (P2). Patients were classified as having transient or permanent CH (athyreotic, ectopic, eutopic, with goiter and unknown etiology). Global and diagnostic-related incidences were calculated for the whole studied period with the same CO, and P1 and P2 were compared. RESULTS: Incidences of permanent CH were 1:3,108 (P1) and 1:2,367 (P2). The lower CO detected 22 extra CH, 13 of them definitive (70% with eutopic glands). Only a significant increase (p < 0.05) in eutopic CH was found, partially related to the lower CO applied. A statistically significant association with time was seen for total definitive and ectopic cases (p < 0.05). CONCLUSION: Our findings revealed some changes in the detected population partially related to the CO applied, with only eutopic dysfunctional disorders being more prevalent in the later years. Total permanent CH and ectopic thyroid disorders showed a trend toward higher detection over time, but their prevalence has not changed significantly in our screening program.

New insights into thyroglobulin gene: molecular analysis of seven novel mutations associated with goiter and hypothyroidism.

The thyroglobulin (TG) gene is organized in 48 exons, spanning over 270 kb on human chromosome 8q24. Up to now, 62 inactivating mutations in the TG gene have been identified in patients with congenital goiter and endemic or non-endemic simple goiter. The purpose of the present study was to identify and characterize new mutations in the TG gene. We report 13 patients from seven unrelated families with goiter, hypothyroidism and low levels of serum TG. All patients underwent clinical, biochemical and imaging evaluation. Single-strand conformation polymorphism (SSCP) analysis, endonuclease restriction analysis, sequencing of DNA, genotyping, population screening, and bioinformatics studies were performed. Molecular analyses revealed seven novel inactivating TG mutations: c.378C>A [p.Y107X], c.2359C>T [p.R768X], c.2736delG [p.R893fsX946], c.3842G>A [p.C1262Y], c.5466delA [p.K1803fsX1833], c.6000C>G [p.C1981W] and c.6605C>G [p.P2183R] and three previously reported mutations: c.886C>T [p.R277X], c.6701C>A [p.A2215D] and c.7006C>T [p.R2317X]. Six patients from two families were homozygous for p.R277X mutation, four were compound heterozygous mutations (p.Y107X/p.C1262Y, p.R893fsX946/p.A2215D, p.K1803fsX1832/p.R2317X), one carried three identified mutations (p.R277X/p.C1981W-p.P2183R) together with a hypothetical micro deletion and the remaining two siblings from another family with typical phenotype had a single p.R768X mutated allele. In conclusion, our results confirm the genetic heterogeneity of TG defects and the pathophysiological importance of altered TG folding as a consequency of truncated TG proteins and missense mutations located in ACHE-like domain or that replace cysteine.

Severe congenital non-autoimmune hyperthyroidism associated to a mutation in the extracellular domain of thyrotropin receptor gene / Hipertireoidismo congênito não autoimune grave associado com uma mutação no domínio extracelular do gene receptor da tirotrofina

Activating mutations in the TSH Receptor (TSHR) gene have been identified as the molecular basis for congenital non-autoimmune hyperthyroidism. We describe the clinical findings and molecular characterization in a girl who presented severe non-autoimmune hyperthyroidism since birth, born to a mother with autoimmune thyroid disease. She was treated with methylmercaptoimidazol and β-blockers, but remained hyperthyroid and required total thyroidectomy. To characterize the presence of an activating mutation, the whole coding sequence and intron-exon boundaries of TSHR gene were analyzed. The patient was heterozygous for p.Ser281Asn mutation and p.Asp727Glu polymorphism. This recurrent mutation, p.Ser281Asn, characterized in vitro by increased basal production of cAMP, is the unique germline activating gene variant described so far in the extracellular domain of TSH receptor. Interestingly, the patient's mother presented hyperthyroidism but without any TSHR gene activating mutation. Although congenital non-autoimmune hyperthyroidism is a rare condition, it should be investigated when severe disease persists, even in a newborn from an autoimmune hyperthyroid mother, in order to differentiate it from the more common congenital autoimmune disease. Arq Bras Endocrinol Metab. 2012;56(8):513-8.

Mutações ativadoras no gene receptor de TSH (TSHR) foram identificadas como a base molecular do hipertireoidismo congênito não autoimune. Descrevemos os achados clínicos e a caracterização molecular de uma menina que apresentou hipertireoidismo autoimune grave desde o nascimento, nascida de uma mãe com desordem tiroidiana autoimune. Tratada com metilmercaptoimidazol e β-bloqueadores, ela permaneceu com hipertiroidismo e necessitou de tiroidectomia total. A fim de caracterizar a presença da mutação ativadora, foram analisados toda a sequência codificadora assim como os extremos dos íntrons e éxons do gene TSHR. A paciente era heterozigota para a mutação p.Ser281Asn e para o polimorfismo p.Asp727Glu. Essa mutação recorrente, p.Ser281Asn, caracterizada in vitro pelo aumento da produção basal de cAMP, é a única variante genética ativadora da linhagem germinativa descrita até hoje no domínio extracelular do receptor de TSH. Interessantemente, a mãe da paciente apresentou hipertireoidismo sem qualquer mutação ativadora do gene TSHR. Embora o hipertireoidismo congênito não autoimune seja uma condição rara, ele deve ser investigado quando há persistência da doença grave, mesmo em um recém-nascido de uma mãe com hipertireoidismo autoimune, a fim de se diferenciar o caso da forma mais comum da doença autoimune congênita. Arq Bras Endocrinol Metab. 2012;56(8):513-8.

Congenital goitrous hypothyroidism: mutation analysis in the thyroid peroxidase gene.

BACKGROUND: Iodide organification defect (IOD) is characterized by a reduced ability of the thyroid gland to retain iodide resulting in hypothyroidism. Mutations in thyroid peroxidase (TPO) gene appear to be the most common cause of IOD and are commonly inherited in an autosomal recessive fashion. The TPO gene is located on the chromosome 2p25. It comprises 17 exons, covers approximately 150 kb of genomic DNA and codes 933 amino acids. OBJECTIVES: In this study, we characterize the clinical and molecular basis of seven patients from four unrelated families with congenital hypothyroidism (CH) because of IOD. DESIGN AND METHODS: All patients underwent clinical, biochemical and imaging evaluation. The promoter and the complete coding regions of the human TPO along with the flanking intronic regions were analysed by single-strand conformation polymorphism analysis and direct DNA sequencing. Segregation analysis of mutations was carried out, and the effect of the novel missense identified mutations was investigated by 'in silico' studies. RESULTS: All subjects had congenital and persistent primary hypothyroidism. Three novel mutations: c.796C>T [p.Q266X], c.1784G>A [p.R595K] and c.2000G>A [p.G667D] and a previously reported mutation: c.1186_1187insGGCC [p.R396fsX472] have been identified. Four patients were compound heterozygous for p.R396fsX472/p.R595K mutations, two patients were homozygous for p.R595K, and the remaining patient was a compound heterozygous for p.Q266X/p.G667D. CONCLUSIONS: Our findings confirm the genetic heterogeneity of TPO defects and the importance of the implementation of molecular studies to determinate the aetiology of the CH with dyshormonogenesis.

Severe congenital non-autoimmune hyperthyroidism associated to a mutation in the extracellular domain of thyrotropin receptor gene.

Activating mutations in the TSH Receptor (TSHR) gene have been identified as the molecular basis for congenital non-autoimmune hyperthyroidism. We describe the clinical findings and molecular characterization in a girl who presented severe non-autoimmune hyperthyroidism since birth, born to a mother with autoimmune thyroid disease. She was treated with methylmercaptoimidazol and ß-blockers, but remained hyperthyroid and required total thyroidectomy. To characterize the presence of an activating mutation, the whole coding sequence and intron-exon boundaries of TSHR gene were analyzed. The patient was heterozygous for p.Ser281Asn mutation and p.Asp727Glu polymorphism. This recurrent mutation, p.Ser281Asn, characterized in vitro by increased basal production of cAMP, is the unique germline activating gene variant described so far in the extracellular domain of TSH receptor. Interestingly, the patient's mother presented hyperthyroidism but without any TSHR gene activating mutation. Although congenital non-autoimmune hyperthyroidism is a rare condition, it should be investigated when severe disease persists, even in a newborn from an autoimmune hyperthyroid mother, in order to differentiate it from the more common congenital autoimmune disease.

Variable clinical presentation and outcome in pediatric patients with resistance to thyroid hormone (RTH).

Resistance to thyroid hormone (RTH) is characterized by elevated levels of thyroid hormones, normal or slightly increased TSH levels respondent to TRH, resistance to thyroid hormone administration, and variable clinical expression. To describe the diverse clinical and biochemical findings of six children from five unrelated families with molecular diagnosis of RTH (0.5-12.7 years) and their follow-up (3-20 years). All RTH patients and 4 affected parents' harbored mutations in exons 9 or 10 of the thyroid receptor ß gene: p.M313T (de novo), pN331D, p.L341P, p.L346F, and p.P453L. At consultation 5/6 had goiter, 4/6 tachycardia, and 3/5 learning disabilities. Median hormone levels were: T(4) 257.4 nmol/l (NR: 77.2-180.2); FreeT(4) 39.9 pmol/(NR:10.3-28.3); T(3) 4.28 nmol/l (NR:1.23-3.39) TSH 2.8 mUI/l (NR: 0.5-5) always responsive to TRH. TSH levels remained detectable after supraphysiologic T(3) administration while SHBG levels showed a paradoxical decrease in 4/6. Thyroid antibodies, initially present in two subjects, became positive in other two during follow-up. All patients grew normally and presented variable symptoms that were treated according to need. Two patients developed psychiatric disorders. Only one of the four affected parents exhibited clinical signs of RTH (tachycardia and depression). Parent's thyroid profile showed similar TSH and T(3) levels but lower T(4) and FT(4) than their children. RTH has a distinctive biochemical profile with highly variable clinical manifestations and outcomes. Its recognition and molecular characterization avoid misleading diagnosis. Treatment has to be instituted according to each subject's own clinical requirements.

Differentiated thyroid carcinoma: presentation and follow-up in children and adolescents.

UNLABELLED: To review our Pediatric Endocrinology Division's experience with differentiated thyroid carcinoma (DTC) we analyzed retrospectively the records of patients with DTC that had been seen between June 1988 and June 2008. RESULTS: Forty-five patients (median age 13.7 years, 36 female) were diagnosed (papillary: 40, follicular: 5) with DTC presenting as a solitary nodule (n: 25), thyroid nodule with cervical adenopathy (n: 9) and multinodular goiter (n: 11). All underwent total thyroidectomy with resection of suspicious cervical lymph nodes (CLN). DTC was multicentric in 59% and revealed extrathyroidal extension in 44%. Initially, 44% had CLN metastases and 24% distant metastases. All patients underwent thyroid remnant ablation with 131I and suppressive treatment. Median follow-up was 5.1 years with a disease-free survival rate at 5 years of follow-up of 75%. Eleven percent presented recurrences. CONCLUSION: Pediatric DTC has an aggressive behavior at presentation. Higher preoperative TSH levels were significantly associated with a more advanced disease at diagnosis. CLT was present concomitantly in a quarter of the patients and further studies are needed to establish differences in these patients' outcome. Diagnostic approach, total thyroidectomy, 131I treatment and thyrotropin suppression allowed a good progression-free survival rate.

Clinical, biochemical, and molecular findings in Argentinean patients with goitrous congenital hypothyroidism.

We describe the clinical, biochemical, and molecular findings of a cohort of Argentinean patients with congenital hypothyroidism (CH) and goiter studied to characterize iodide organification and thyroglobulin (TG) defects. 20 CH patients (16 unrelated) were grouped according to serum TG levels and a perchlorate discharge test (PDT) in: group 1 (G1): nine patients with high TG and PDT > 10% who were studied for tiroperoxidase (TPO), dual oxidase 2 (DUOX2), and dual oxidase A2 (DUOXA2) defects and group 2 (G2): 11 patients with low TG and PDT < 10% studied for TG defects. Goiter characteristics, outcome, and TT4 and TT3 levels without treatment were compared between groups. 6/9 G1 patients harbored mutations in TPO gene and 3/9 in DUOX2 gene. In G2, mutations of TG gene were found in 3/11 homozygous, 5/11 compound heterozygous, and 3/11 heterozygous patients. Goiter was only evidenced by thyroid scan in the neonatal period in both groups; was moderately enlarged in patients diagnosed during infancy. In the late detected patients, goiter was big and nodular in G1 while diffuse and moderate in G2. Early detected patients grew and developed normally while those diagnosed late were severely mentally retarded in G1 and only mildly retarded in G2. Thyroid hormone levels of G1 were significantly lower than those of G2 P < 0.01. Molecular approach to characterize defects in organification and TG defects was optimized by TG measurements and PDT. Clinical and biochemical differences based on molecular findings will allow further investigations on genotype-phenotype relationships.

17alpha-hydroxyprogesterone and cortisol serum levels in neonates and young children: influence of age, gestational age, gender and methodological procedures.

To determine the influence of age, gestational age, gender and methodological protocol on serum 17OHP and cortisol concentrations. 17OHP in non-extracted (NE) and extracted (E) sera was measured by RIA in 319 full-term (FT) (1 d-5 yr) infants, 38 pre-term (PT) and in 19 neonates with classical CAH at diagnosis. 17OHP (NE- and E-) decreased with age in normal children. The extraction procedure significantly reduced 17OHP by eliminating interfering steroids in children < 1 year. Sexual dimorphism was only observed in NE-17OHP. 17OHP in PT was always higher than in FT up to 2 months of age (p < 0.001). Neither NE- nor E-17OHP in CAH overlapped with those of FT or PT (p < 0.001) allowing to omit the extraction procedure to confirm CAH diagnosis. Cortisol levels were within normal range in neonates with CAH, thus not adding useful information about adrenal function. Chronological and gestational age, gender, and extraction for 17OHP measurement are important factors to know when assessing adrenal function during the first year of life.

Molecular analysis of congenital goitres with hypothyroidism caused by defective thyroglobulin synthesis. Identification of a novel c.7006C>T [p.R2317X] mutation and expression of minigenes containing nonsense mutations in exon 7.

BACKGROUND: Thyroglobulin (TG) deficiency is an autosomal-recessive disorder that results in thyroid dyshormonogenesis. A number of distinct mutations have been identified as causing human hypothyroid goitre. OBJECTIVES: The purpose of this study was to identify and characterize new mutations in the TG gene in an attempt to increase the understanding of the genetic mechanism responsible for this disorder. A total of six patients from four nonconsanguineous families with marked impairment of TG synthesis were studied. METHODS: Single-strand conformation polymorphism (SSCP) analysis, sequencing of DNA, genotyping, expression of chimeric minigenes and bioinformatic analysis were performed. RESULTS: Four different inactivating TG mutations were identified: one novel mutation (c.7006C>T [p.R2317X]) and three previously reported (c.886C>T [p.R277X], c.6701C>A [p.A2215D] and c.6725G>A [p.R2223H]). Consequently, one patient carried a compound heterozygous for p.R2223H/p.R2317X mutations; two brothers showed a homozygous p.A2215D substitution and the remaining three patients, from two families with typical phenotype, had a single p.R277X mutated allele. We also showed functional evidences that premature stop codons inserted at different positions in exon 7, which disrupt exonic splicing enhancer (ESE) sequences, do not interfere with exon definition and processing. CONCLUSIONS: In this study, we have identified a novel nonsense mutation p.R2317X in the acetylcholinesterase homology domain of TG. We have also observed that nonsense mutations do not interfere with the pre-mRNA splicing of exon 7. The results are in accordance with previous observations confirming the genetic heterogeneity of TG defects.

Thyroid disorders of neonates born to mothers with Graves' disease.

Maternal hyperthyroidism implies the risk of thyroid abnormalities in the newborn. We describe retrospectively the clinical presentation, treatment and follow up of 28 children born of hyperthyroid mothers. Patients were subdivided as follows: Group A (neonatal hyperthyroidism) (n=9): born from eight hyperthyroid mothers and one thyroidectomized mother. Children born from untreated mothers consulted between 1 and 7 days of life, while those born from treated mothers consulted between 8 and 17 days. Eight needed treatment. All remitted completely. Group B (primary hypothyroidism) (n=14): born from treated mothers, detected by neonatal screening. Eleven had transient hypothyroidism and three needed treatment. Group C (hypothalamic-pituitary hypothyroidism) (n=5): born from uncontrolled hyperthyroid mothers and found during follow up (age 9-28 days). The infants were treated with thyroid hormone, and recovered before 8 months of life. Every child born from a mother with autoimmune thyroid disease needs paediatric endocrinological assessment for detection of possible thyroid disorders.

Genotyping of resistance to thyroid hormone in South American population. Identification of seven novel missense mutations in the human thyroid hormone receptor beta gene.

Thyroid Hormone Receptor beta (THRB) defects, typically transmitted as autosomal dominant traits, cause Resistance to Thyroid Hormone (RTH). We analyzed the THRB gene in thirteen South American patients with clinical evidence RTH from eleven unrelated families. Sequence analysis revealed seven novel missense mutations. Four novel mutations were identified in exon 9. The first, a c.991A>G transition which originates a substitution of asparagine by aspartic acid (p.N331D). The second nucleotide alteration consists of a guanine to cytosine transversion at position 1003 (c.1003G>C) and results in substitution of the alanine at codon 335 by proline (p.A335P). The third mutation, a c.1022T>C transition produces a change of leucine by proline (p.L341P). The fourth mutation detected in exon 9 was a c.1036C>T transition which replaces the leucine at codon 346 by phenylalanine (p.L346F). The sequencing of the exon 10 detected three novel missense mutations. The first, a c.1293A>G transition changing isoleucine 431 for methionine (p.I431M). The second, the cytosine at position 1339 was replaced by adenine (c.1339C>A) resulting in the replacement of proline by threonine (p.P447T). The third mutation detected in exon 10 was a c.1358C>T transition resulting in the substitution of proline at codon 453 by leucine (p.P453L). Finally, sequencing analysis of the THRB gene revealed three substitutions previously described (p.A268G, p.P453T and p.F459C). The p.P453T was found in two patients. In conclusion, we report thirteen patients with RTH caused by heterozygous mutations of the THRB gene. Seven of the identified mutations correspond to novel substitutions.

Recurrence of the p.R277X/p.R1511X compound heterozygous mutation in the thyroglobulin gene in unrelated families with congenital goiter and hypothyroidism: haplotype analysis using intragenic thyroglobulin polymorphisms.

Thyroglobulin (TG) functions as the matrix for thyroid hormone synthesis. Thirty-five different loss-of-function mutations in the TG gene have been reported. These mutations are transmitted in an autosomal recessive mode. The objective of this study is to analyze the recurrence of the p.R277X/p.R1511X compound heterozygous mutation in the TG gene in two unrelated families (one Argentinian and another Brazilian) with congenital hypothyroidism, goiter and impairment of TG synthesis. The first and last exon of the TG gene, the exons where previously mutations and single nucleotide polymorphisms (SNPs) were detected, as well as the TG promoter, were analyzed by automatic sequencing in one affected member of the each family. Four microsatellite markers localized in introns 10, 27, 29 and 30 of the TG gene, one insertion/deletion intragenic polymorphism and 15 exonic SNPs were used for haplotype analysis. A p.R277X/p.R1511 compound heterozygous mutation in the TG gene was found in two members of an Argentinian family. The same mutations had been also reported previously in two members of a Brazilian family. We constructed mutation-associated haplotypes by genotyping members of the two families. Our results suggest that the cosegregating haplotype is different in each one of these families. Different haplotypes segregated with the p.R277X and p.R1511 mutations demonstrating the absence of a founder effect for these mutations between Argentinian and Brazilian populations. However, haplotyping of Argentinian patients showed the possibility that the p.R277X alleles might be derived from a common ancestral chromosome.

Two compound heterozygous mutations (c.215delA/c.2422T-->C and c.387delC/c.1159G-->A) in the thyroid peroxidase gene responsible for congenital goitre and iodide organification defect.

BACKGROUND: Iodide organification defects are frequently but not always associated with mutations in the thyroid peroxidase (TPO) gene and characterized by a positive perchlorate discharge test. These mutations phenotypically produce a congenital goitrous hypothyroidism, with an autosomal recessive mode of inheritance. OBJECTIVES: In the present study we extended our initial molecular studies in six unrelated patients heterozygous for the TPO mutations, in order to identify the second mutation in this autosomal recessive disease. METHODS: The promoter and the complete coding regions of the human TPO and DUOXA2 genes, along with the flanking regions of each intron were analysed by direct DNA sequencing. RESULTS: Four different inactivating TPO mutations were identified in two patients: two novel mutations (c.215delA [p.Q72fsX86] and c.1159G-->A [p.G387R]) and two previously reported (c.387delC [p.N129fsX208] and c.2422T-->C [p.C808R]), confirming the inheritance of two different compound heterozygous mutations, c.215delA/c.2422T-->C and c.387delC/c.1159G-->A. The remaining four patients did not show additional inactivating mutations in the TPO gene and all had only the wild type sequencing in the DUOXA2 gene. CONCLUSIONS: We have reported two patients with iodide organification defect caused by two compound heterozygous mutations, c.215delA/c.2422T-->C [p.Q72fsX86/p.C808R] and c.387delC/c.1159G-->A [p.N129fsX208/p.G387R], in the TPO gene and four patients with monoallelic TPO defect. Identification of the molecular basis of this disorder might be helpful for understanding the pathophysiology of congenital hypothyroidism.

Congenital hypothyroidism with goitre caused by new mutations in the thyroglobulin gene.

CONTEXT: Thyroid dyshormonogenesis is associated with mutations in the thyroglobulin (TG) gene and characterized by normal organification of iodide and low serum TG. These mutations give rise to congenital goitrous hypothyroidism, transmitted in an autosomal recessive mode. OBJECTIVES: The aim of this study was to identify new mutations in the TG gene in an attempt to increase the understanding of the molecular basis of this disorder. Three unrelated patients with marked impairment of TG synthesis were studied. METHODS: The promoter and the complete coding regions of the TG gene, along with the flanking intronic regions, were analysed by direct DNA sequencing. RESULTS: Four different inactivating TG mutations, three novel mutations (c.548G>A, p.C164Y; c.759-760insA, p.L234fsX237; c.6701C>A, p.A2215D) and one previously identified mutation (c.886C>T, p.R277X) were identified. Multiple sequence alignment study revealed that the wild-type cysteine residue at position 164 is strictly conserved in the TG of all the species analysed, whereas the wild-type alanine residue at position 2215 is well conserved in the TG and acetylcholinesterase (AChE) of all the species analysed except in rabbit AChE, in which it is substituted by glutamic acid. CONCLUSIONS: We report three patients with congenital hypothyroidism with goitre caused by two compound heterozygous mutations, p.C164Y/p.L234fsX237 and p.R277X/p.A2215D, and one homozygous mutation, p.R277X, in the TG gene. To our knowledge this is the first report of the presence of a nucleotide insertion mutation in the TG gene.