Systematic review of thyroid function in NKX2-1-related disorders: Screening and diagnosis.

BACKGROUND: NKX2-1-related disorders (NKX2-1-RD) are rare conditions affecting lung, thyroid, and brain development, primarily caused by pathogenic variants or deletions in the NKX2-1 gene. Congenital hypothyroidism (CH) is a common endocrine manifestation, leading to irreversible intellectual disability if left untreated. OBJECTIVES: The aim was to evaluate the current evidence for the use of screening and diagnostic techniques for endocrine alterations in patients with NKX2-1-RD. METHODS: This systematic review was reported following the PRISMA guidelines. Two separate research questions in PICO format were addressed to cover initial screening and diagnosis procedures for endocrine diseases in patients with NKX2-1-RD. Eligibility criteria focused on patients with genetic confirmation of the disease and hypothyroidism. Various databases were searched, and data were extracted and assessed independently by two reviewers. RESULTS: Out of 1012 potentially relevant studies, 46 were included, for a total of 113 patients. CH was the most frequent endocrine alteration (45% of patients). Neonatal screening was reported in only 21% of patients based on blood TSH measurements. TSH thresholds varied widely across studies, making hypothyroidism detection ranges difficult to establish. Diagnostic tests using serum TSH were used to diagnose hypothyroidism or confirm its presence. 35% of patients were diagnosed at neonatal age, and 42% at adult age. Other hormonal dysfunctions identified due to clinical signs, such as anterior pituitary deficiencies, were detected later in life. Thyroid scintigraphy and ultrasonography allowed for the description of the thyroid gland in 30% of cases of hypothyroidism. Phenotypic variability was observed in individuals with the same variants, making genotype-phenotype correlations challenging. CONCLUSION: This review highlights the need for standardized protocols in endocrine screening for NKX2-1-RD, emphasizing the importance of consistent methodology and hormone threshold levels. Variability in NKX2-1 gene variants further complicates diagnostic efforts. Future research should concentrate on optimizing early screening protocols and diagnostic strategies.

A Novel Missense Variant in the NKX2-1 Homeodomain Prevents Transcriptional Rescue by TAZ.

Background: Brain-lung-thyroid syndrome (BLTS) is caused by NKX2-1 haploinsufficiency, resulting in chorea/choreoathetosis, respiratory problems, and hypothyroidism. Genes interacting with NKX2-1 mutants influence its phenotypic variability. We report a novel NKX2-1 missense variant and the modifier function of TAZ/WWTR1 in BLTS. Methods: A child with BLTS underwent next-generation sequencing panel testing for thyroid disorders. His family was genotyped for NKX2-1 variants and screened for germline mosaicism. Mutant NKX2-1 was generated, and transactivation assays were performed on three NKX2-1 target gene promoters. DNA binding capacity and protein-protein interaction were analyzed. Results: The patient had severe BLTS and carried a novel missense variant c.632A>G (p.N211S) in NKX2-1, which failed to bind to specific DNA promoters, reducing their transactivation. TAZ cotransfection did not significantly increase transcription of these genes, although the variant retained its ability to bind to TAZ. Conclusions: We identify a novel pathogenic NKX2-1 variant that causes severe BLTS and is inherited through germline mosaicism. The mutant lacks DNA-binding capacity, impairing transactivation and suggesting that NKX2-1 binding to DNA is essential for TAZ-mediated transcriptional rescue.

Carcinoma erysipeloides of laryngeal origin.

The term "carcinoma erysipeloides" (CE) designates an uncommon form of cutaneous metastasis. CE is most often associated with carcinoma of the breast. However, there have been reports of CE from carcinoma of the uterus, prostate, lung, ovary, stomach, tonsils, thyroid, pancreas, rectum, parotid glands and melanoma. To our knowledge, CE of laryngeal origin has not been previously reported. We describe a patient diagnosed with human immunodeficiency virus and hepatitis C virus coinfection who developed a supraglottic laryngeal squamous cell carcinoma and erythematous cutaneous lesions. A skin biopsy demonstrated invasion of dilated dermal lymphatics by clusters of atypical squamous cells with polymorphic nuclei and extensive infiltration of the dermis by tumor cells. The histology of the metastatic cells was similar to that of the laryngeal carcinoma.

Mutations in the iodotyrosine deiodinase gene and hypothyroidism.

DEHAL1 has been identified as the gene encoding iodotyrosine deiodinase in the thyroid, where it controls the reuse of iodide for thyroid hormone synthesis. We screened patients with hypothyroidism who had features suggestive of an iodotyrosine deiodinase defect for mutations in DEHAL1. Two missense mutations and a deletion of three base pairs were identified in four patients from three unrelated families; all the patients had a dramatic reduction of in vitro activity of iodotyrosine deiodinase. Patients had severe goitrous hypothyroidism, which was evident in infancy and childhood. Two patients had cognitive deficits due to late diagnosis and treatment. Thus, mutations in DEHAL1 led to a deficiency in iodotyrosine deiodinase in these patients. Because infants with DEHAL1 defects may have normal thyroid function at birth, they may be missed by neonatal screening programs for congenital hypothyroidism.

Central Hypothyroidism and Novel Clinical Phenotypes in Hemizygous Truncation of TBL1X.

Transducin ß-like 1 X-linked (TBL1X) gene encodes a subunit of the nuclear corepressor-silencing mediator for retinoid and thyroid hormone receptor complex (NCoR-SMRT) involved in repression of thyroid hormone action in the pituitary and hypothalamus. TBL1X defects were recently associated with central hypothyroidism and hearing loss. The current study aims to describe the clinical and genetic characterization of a male diagnosed with central hypothyroidism through thyroid hormone profiling, TRH test, brain MRI, audiometry, and psychological evaluation. Next-generation sequencing of known genes involved in thyroid disorders was implemented. The 6-year-old boy was diagnosed with central hypothyroidism [free T4: 10.42 pmol/L (normal: 12 to 22 pmol/L); TSH: 1.57 mIU/L (normal: 0.7 to 5.7 mIU/L)], with a mildly reduced TSH response to TRH. He was further diagnosed with attention-deficit/hyperactivity disorder (ADHD) at 7 years, alternating episodes of encopresis and constipation, and frequent headaches. MRI showed a normal pituitary but detected a Chiari malformation type I (CMI). At 10 years, audiometry identified poor hearing threshold at high frequencies. Sequencing revealed a nonsense hemizygous mutation in TBL1X [c.1015C>T; p.(Arg339Ter)] largely truncating its WD-40 repeat domain involved in nuclear protein-protein interactions. In conclusion, to our knowledge, we identified the first severely truncating TBL1X mutation in a patient with central hypothyroidism, hypoacusia, and novel clinical features like ADHD, gastrointestinal dysmotility, and CMI. Given the relevance of TBL1X and NCoR-SMRT for the regulation of transcriptional programs at different tissues (pituitary, cochlea, brain, fossa posterior, and cerebellum), severe mutations in TBL1X may lead to a distinct syndrome with a phenotypic spectrum wider than previously reported.

TAZ/WWTR1 Mediates the Pulmonary Effects of NKX2-1 Mutations in Brain-Lung-Thyroid Syndrome.

Context: Identification of a frameshift heterozygous mutation in the transcription factor NKX2-1 in a patient with brain-lung-thyroid syndrome (BLTS) and life-threatening lung emphysema. Objective: To study the genetic defect that causes this complex phenotype and dissect the molecular mechanism underlying this syndrome through functional analysis. Methods: Mutational study by DNA sequencing, generation of expression vectors, site-directed mutagenesis, protein-DNA-binding assays, luciferase reporter gene assays, confocal microscopy, coimmunoprecipitation, and bioinformatics analysis. Results: We identified a mutation [p.(Val75Glyfs*334)] in the amino-terminal domain of the NKX2-1 gene, which was functionally compared with a previously identified mutation [p.(Ala276Argfs*75)] in the carboxy-terminal domain in other patients with BLTS but without signs of respiratory distress. Both mutations showed similar protein expression profiles, subcellular localization, and deleterious effects on thyroid-, brain-, and lung-specific promoter activity. Coexpression of the coactivator TAZ/WWTR1 (transcriptional coactivator with PDZ-binding motif/WW domain-containing transcription regulator protein 1) restored the transactivation properties of p.(Ala276Argfs*75) but not p.(Val75Glyfs*334) NKX2-1 on a lung-specific promoter, although both NKX2-1 mutants could interact equally with TAZ/WWTR1. The retention of residual transcriptional activity in the carboxy-terminal mutant, which was absent in the amino-terminal mutant, allowed the functional rescue by TAZ/WWTR1. Conclusions: Our results support a mechanistic model involving TAZ/WWTR1 in the development of human congenital emphysema, suggesting that this protein could be a transcriptional modifier of the lung phenotype in BLTS.

The Brain-Lung-Thyroid syndrome (BLTS): A novel deletion in chromosome 14q13.2-q21.1 expands the phenotype to humoral immunodeficiency.

Genetic defects of NKX2-1 are classically associated with hypothyroidism, benign chorea and neonatal respiratory distress. The purpose of this study was to identify the genetic pathogenesis of the "NKX2-1 triad" in a 10 year-old female presenting additional features barely described in the disorder. In the neonatal period, she presented with generalized hypotonia and respiratory distress, with later episodes of frequent wheezing. At 3 month-age developmental dysplasia of the hip was diagnosed and at 10 months, primary hypothyroidism was detected and treated. Subsequently, delayed achievement of developmental milestones and then subtle choreic movements of extremities were identified at 2 years of age. Furthermore, delayed teeth eruption and agenesis of some dental pieces, short stature and joint hyperlaxity were also noticed. At 10 years, a poor immune response to polysaccharide antigens and hypogammaglobulinemia, including all IgG subclasses were detected. Surprisingly, no mutations were identified in the complete coding region of NKX2-1 by PCR and Sanger sequencing. MLPA showed a de novo loss of gene dosage in all 3 probes located in NKX2-1 exons. A CGH-array identified a deletion of 3.32 Mb in chromosome 14q13.2-q21.1 containing 20 genes, including NKX2-1, PAX9 and two candidate genes (NFKB1A and PPP2R3C) involved in immune response. The Brain-Lung-Thyroid syndrome (OMIM#610978; ORPHA:209905) associated with other clinical phenotypes should suggest monoallelic deletions of chromosome 14 causing haploinsufficiency of NKX2-1, and other contiguous genes like PAX9 (hypodontia) or other dosage-sensitive genes in the chromosomal vicinity that emerge as candidates for hypogammaglobulinemia, mainly NFKBIA.

Frequent and Rare HABP2 Variants Are Not Associated with Increased Susceptibility to Familial Nonmedullary Thyroid Carcinoma in the Spanish Population.

BACKGROUND/AIMS: A genomic HABP2 variant was proposed to be responsible for familial nonmedullary thyroid carcinoma (FNMTC). However, its involvement has been questioned in subsequent studies. We aimed to identify genetic HABP2 mutations in a series of FNMTC patients and investigate their involvement in the disease. METHODS: HABP2 was sequenced from 6 index patients. Presence of the variants was investigated in all members of one family. Somatic BRAF and RAS "hotspot" mutations were investigated by the IdyllaTM BRAF Mutation Test and/or Sanger sequencing. RESULTS: Two HABP2 variants (p.E393Q and p.G534E) were identified in the index patient from one family with papillary thyroid carcinoma (PTC) (follicular variant). The prevalence of p.E393Q in Spanish control alleles was 0.5% and that of p.G534E was 5.1%. However, neither change cosegregated with the phenotype in 3 affected members and 5 healthy members of the kindred. Interestingly, all 3 members affected by PTC harbored the p.V600E somatic mutation in BRAF. CONCLUSIONS: The variant G534E is prevalent in the Spanish population (5.1%); however, p.E393Q is rare (< 1%) and none cosegregated with the FNMTC phenotype. The presence of the noninheritable V600E BRAF mutation in this family supports Knudson's "double-hit" hypothesis for cancer development and suggests the involvement of more than 1 gene in the clinical expression of FNMTC.

Inactivating mutations in the gene for thyroid oxidase 2 (THOX2) and congenital hypothyroidism.

BACKGROUND: Several genetic defects are associated with permanent congenital hypothyroidism. Immunologic, environmental, and iatrogenic (but not genetic) factors are known to induce transient congenital hypothyroidism, which spontaneously resolves within the first months of life. We hypothesized that molecular defects in the thyroid oxidase system, which is composed of at least two proteins, might be involved in the pathogenesis of permanent or transient congenital hypothyroidism in babies with defects in iodide organification, for which the oxidase system is required. METHODS: Nine patients were recruited who had idiopathic congenital hypothyroidism (one with permanent and eight with transient hypothyroidism) and an iodide-organification defect and who had been identified by the screening program for congenital hypothyroidism. The DNA of the patients and their relatives was analyzed for mutations in the genes for thyroid oxidase 1 (THOX1 ) and 2 (THOX2 ). RESULTS: The one patient with permanent and severe thyroid hormone deficiency and a complete iodide-organification defect had a homozygous nonsense mutation in the THOX2 gene that eliminates all functional domains of the protein. Three of the eight patients with mild transient congenital hypothyroidism and a partial iodide-organification defect had heterozygous mutations in the THOX2 gene that prematurely truncate the protein, thus abolishing its functional domains. CONCLUSIONS: Biallelic inactivating mutations in the THOX2 gene result in complete disruption of thyroid-hormone synthesis and are associated with severe and permanent congenital hypothyroidism. Monoallelic mutations are associated with milder, transient hypothyroidism caused by insufficient thyroidal production of hydrogen peroxide, which prevents the synthesis of sufficient quantities of thyroid hormones to meet the large requirement for thyroid hormones at the beginning of life.

New phenotypes in thyroid dyshormonogenesis: hypothyroidism due to DUOX2 mutations.

Hydrogen peroxide (H(2)O(2)) is an essential compound for the synthesis of thyroid hormone. Its presence in the follicular lumen is required by thyroperoxidase for the iodination of tyrosil residues of thyroglobulin, the initial step in the synthesis of T(3) and T(4). The biochemical requirement of H(2)O(2) for thyroid hormone production has been known for decades and an H(2)O(2)-generating system was predicted to exist in the thyroid gland. In recent years, different research groups have unraveled the molecular nature of the system. Two homologous proteins, the dual oxidases 1 and 2, DUOX1 and DUOX2 (formerly THOX1 and 2, for thyroid oxidases), were identified and shown to contain functional domains typical of NADPH oxidoreductases. However, in vitro reconstitution of H(2)O(2) production could not be obtained in nonthyroidal cell lines expressing these proteins. Evidence of DUOX involvement in thyroidal H(2)O(2) production came from the identification of a DUOX2 nonsense homozygote mutation, which resulted in the absence of all functional domains of the protein, in a patient with permanent and severe congenital hypothyroidism (CH). Recently, an experimental demonstration of H(2)O(2) production by DUOX2 was achieved by coexpression with a novel 'maturation factor' for DUOX2 (DUOXA2). Transient CH has also been linked to heterozygote nonsense DUOX2 mutations, showing for the first time that transitory CH can have a genetic origin. These findings also establish that partial dyshormonogenetic defects can behave biochemically as transient forms of CH. Novel missense and splice-site DUOX2 mutations in compound heterozygosity have been recently reported in association with a wide spectrum of hypothyroid phenotypes, ranging from very mild to severe. Functional analysis of these point mutations using available assays opens now the possibility to ascertain whether transiency or permanency of DUOX2 phenotypes relate exclusively to monoallelic or biallelic inactivation of the gene, or if the degree of pathogenic severity of mutations may also influence the timely outcome of this type of hypothyroidism.