Yumi Asakura

Compound heterozygous mutations of cytochrome P450 oxidoreductase gene (POR) in two patients with Antley-Bixler syndrome.

Antley–Bixler syndrome (ABS) is characterized by skeletal defects including craniosynostosis and radiohumeral synostosis. Although mutations in the FGFR2 gene have been found in some patients called ABS, genetic heterogeneity of this syndrome has been proposed. We have previously reported three ABS patients with unique abnormalities in steroidogenesis (apparent decreased activity of 17α‐hydroxylase, 17,20‐lyase, and 21‐hydroxylase). Decreased activity of lanosterol 14α‐demethylase has also been described in an ABS patient. Since all these enzymes require cytochrome P450 oxidoreductase (encoded by POR) as an electron donor, we studied POR in two unrelated ABS patients with abnormal steroidogenesis. Direct sequencing of POR revealed that both patients had compound heterozygous mutations (1329insC and R454H in a male patient, 1698insC and R454H in a female patient). The two insertional mutations were assumed to generate truncated and unstable mRNAs. The R454H mutation was assumed to be deleterious because the R454 resides in the FAD‐binding domain and is highly conserved among diverse species. Our results demonstrate that mutations in POR cause the ABS phenotype with autosomal recessive inheritance and with characteristic abnormalities in steroidogenesis.

Transcription Factor Mutations and Congenital Hypothyroidism: Systematic Genetic Screening of a Population-Based Cohort of Japanese Patients

CONTEXT Gene mutations of transcription factors that are predominantly expressed in the thyroid gland cause congenital hypothyroidism (CH). The prevalence of CH due to transcription factor mutations remains undetermined. OBJECTIVE This study was designed to define the prevalence of CH due to mutations of PAX8, NKX2-1 [encoding thyroid transcription factor (TTF)-1], FOXE1 (encoding TTF-2), and NKX2-5 among patients with permanent primary CH and in the general population in Japan. SUBJECTS AND METHODS We enrolled 102 CH patients that represent 353,000 newborns born in Kanagawa prefecture from October 1979 to June 2006. We sequenced PAX8, NKX2-1, FOXE1, and NKX2-5 using PCR-based methods. Additionally, deletion/duplication of PAX8, NKX2-1, and FOXE1 was screened by multiplex ligation-dependent probe amplification. Molecular functions of putative mutations were verified in vitro. RESULTS We identified a novel small duplication of PAX8 (p.K80_A84dup) in two half-sibling patients with thyroid hypoplasia. We also found a novel NKX2-1 variation (p.H60W) in a sporadic nonsyndromic CH patient. In vitro experiments showed that K80_A84dup PAX8 had impaired transactivation of the thyroglobulin promoter. H60W TTF-1 exhibited a comparable transactivating capacity with wild-type TTF-1, suggesting a benign variation. We estimate the prevalence of PAX8 mutations to be 2.0% (two in 102) among Japanese CH patients and one in 176,000 (two in 353,000) in the general Japanese population. CONCLUSIONS Using a population-based sample, we confirmed that a minor subset of CH patients has transcription factor mutations, but they are rare. In our cohort, PAX8 mutations were the leading cause of such a rare condition.

Molecular Basis of Thyroid Dyshormonogenesis: Genetic Screening in Population-Based Japanese Patients

CONTEXT Inborn errors of thyroid hormone biosynthesis are collectively referred to as thyroid dyshormonogenesis (DH). Seven genes have been implicated in DH, including the dual oxidase 2 gene (DUOX2), the thyroglobulin gene (TG), and the thyroid peroxidase gene (TPO). OBJECTIVE We aimed to define the prevalence and phenotypic spectrum of DH with single gene mutations. SUBJECTS AND METHODS A population-based cohort of 102 patients with permanent congenital hypothyroidism was enrolled. Fourteen were diagnosed as DH and were analyzed for the seven causative genes including DUOX2, TG, and TPO. Several common mutations were screened in the remaining 88 patients. Pathogenicity of single amino acid mutations was verified in vitro. RESULTS We identified four, five, and two patients with seemingly biallelic mutations in DUOX2, TG, and TPO, respectively. We also found two patients having one heterozygous DUOX2 mutation and one uncommon single-nucleotide polymorphism (SNP) p.H678R (rs57659670, allele frequency 0.035) and another two patients with homozygous p.H678R. Expression experiments and RT-PCR revealed that p.H678R is a functional SNP with theoretical 40% loss of function, supporting a role of p.H678R in the onset of DH. As for clinical phenotypes, patients with inactive DUOX2 alleles (mutations and/or p.H678R) showed characteristic time-dependent improvement of thyroid function and morphology. All three evaluated patients had a negative result in the perchlorate test. CONCLUSIONS Mutations (or a functional SNP) in DUOX2, TG, or TPO were observed in 93% (95% confidence interval = 70-99%) of DH patients. Inactive DUOX2 alleles cause a broader phenotypic spectrum than currently accepted.

POR R457H is a global founder mutation causing Antley–Bixler syndrome with autosomal recessive trait

Masanori Adachi,* Yumi Asakura, Mari Matsuo, Toshiyuki Yamamoto, Keiichi Hanaki, and Wiebke Arlt Department of Endocrinology & Metabolism, Clinical Research Institute, Kanagawa Children’s Medical Center, Yokohama, Japan Department of Medical Genetics, Clinical Research Institute, Kanagawa Children’s Medical Center, Yokohama, Japan Department of Women’s & Children’s Family Nursing, Faculty of Medicine, Tottori University, Tottori, Japan Division of Medical Sciences, Institute of Biomedical Research, The Medical School University of Birmingham, Birmingham, UK

Mass screening of newborns for congenital hypothyroidism of central origin by free thyroxine measurement of blood samples on filter paper

OBJECTIVE To evaluate the effectiveness of mass screening of newborns for congenital hypothyroidism of central origin (CH-C) by measurement of free thyroxine (FT(4)) and thyroid-stimulating hormone (TSH). DESIGN Questionnaire-based survey of CH-C patients born between 1999 and 2008 in Kanagawa prefecture, Japan. METHODS TSH and FT(4) levels in dried blood spots on filter paper were measured using ELISA kits, and CH-C was diagnosed at FT(4) levels below a cutoff of 0.7 ng/dl (9.0  pmol/l). Survey results were collated with the database created by the screening organizer. RESULTS Twenty-four CH-C patients (18 males) were identified, 14 of whom had multiple pituitary hormone deficiencies (group M), eight had isolated CH-C (group I), and two had undetermined pituitary involvement (group U). In groups M, I, and U, the number of patients with FT(4) levels below the cutoff value at screening was five (36%), seven (88%), and one (50%) respectively; other patients had been diagnosed clinically. Thus, 13 patients were true positives, while nine were false negatives, yielding screening sensitivity of 59.1% and positive predictive value of 11.5%. The calculated sensitivity was 81.8% at a higher cutoff value of 0.9  ng/dl (11.6  pmol/l). The overall incidence of CH-C was estimated at 1 in 30, 833 live births, while that of CH of thyroidal origin (CH-T) is 1 in 3472 live births in Kanagawa prefecture (CH-T/CH-C, 8.9). CONCLUSIONS Newborn screening with combined FT(4) and TSH measurements can identify a significant number of CH-C patients before manifestation of clinical symptoms, but a more appropriate FT(4) cutoff value should be considered.

A novel mutation in the GATA3 gene in a family with HDR syndrome (hypoparathyroidism, sensorineural deafness and renal anomaly syndrome)

We report here on a girl and her father with HDR syndrome (Hypoparathyroidism, sensorineural Deafness and Renal anomaly syndrome). The proband, an 11 year-old girl, complained of periodic tetany lasting for 6 years, and also used a hearing aid because of sensorineural hearing impairment. Furthermore, she had hemimegalencephaly, and had been taking an anti-epileptic agent to treat psychomotor seizures for 6 years. Endocrine assessment showed modest hypocalcemia, hyperphosphatemia and hypophosphaturia with lower normal parathyroid hormone concentration, and she had no renal abnormalities. Her father, who was 40 years old at the time of the investigation, had sensorineural hearing impairment, a lower than normal calcium level and normal renal function. Direct sequencing after PCR amplification of genomic DNA revealed a novel insertional mutation (405insC) in the GATA3 gene of both patients. This mutation was hypothesized to disrupt dual zinc fingers as well as one transactivating domain. The present findings lend additional support to the notion that the phenotype cannot be precisely estimated from the genotype in HDR syndrome.

Del(X)(p21.1) in a mother and two daughters: genotype-phenotype correlation of Turner features

Abstract. We report a mother and two daughters with partial Xp monosomy. Clinical assessment for Turner phenotype revealed that the three females manifested low-normal to mild short stature (–1.6 to approximately –2.3 SD) and variable degrees of skeletal features, such as cubitus valgus, short 4th matacarpals, and Madelung deformity, but no soft tissue or visceral anomalies or gonadal dysfunction. Cytogenetic studies for lymphocytes showed that the karyotype was 45,X[3]/46,X,del(X)(p21.1)[27] in the mother and non-mosaic 46,X,del(X)(p21.1) in the two daughters. Fluorescence in situ hybridization and microsatellite analyses for 19 loci/regions on the X chromosome demonstrated that the del(Xp) chromosome was missing SHOX and had the breakpoint between DMD and CYBB. The results are consistent with the recently proposed notion that haploinsufficiency of SHOX results in not only short stature, but also Turner skeletal features in association with maturational effects of gonadal estrogens. The lack of soft tissue or visceral anomalies suggests the presence of the putative lymphogenic gene on the del(Xp) chromosome; the preservation of ovarian function appears to be compatible with meiotic pairing failure being relatively mild.

Gradual Loss of ACTH Due to a Novel Mutation in LHX4: Comprehensive Mutation Screening in Japanese Patients with Congenital Hypopituitarism

Mutations in transcription factors genes, which are well regulated spatially and temporally in the pituitary gland, result in congenital hypopituitarism (CH) in humans. The prevalence of CH attributable to transcription factor mutations appears to be rare and varies among populations. This study aimed to define the prevalence of CH in terms of nine CH-associated genes among Japanese patients. We enrolled 91 Japanese CH patients for DNA sequencing of POU1F1, PROP1, HESX1, LHX3, LHX4, SOX2, SOX3, OTX2, and GLI2. Additionally, gene copy numbers for POU1F1, PROP1, HESX1, LHX3, and LHX4 were examined by multiplex ligation-dependent probe amplification. The gene regulatory properties of mutant LHX4 proteins were characterized in vitro. We identified two novel heterozygous LHX4 mutations, namely c.249-1G>A, p.V75I, and one common POU1F1 mutation, p.R271W. The patient harboring the c.249-1G>A mutation exhibited isolated growth hormone deficiency at diagnosis and a gradual loss of ACTH, whereas the patient with the p.V75I mutation exhibited multiple pituitary hormone deficiency. In vitro experiments showed that both LHX4 mutations were associated with an impairment of the transactivation capacities of POU1F1 andαGSU, without any dominant-negative effects. The total mutation prevalence in Japanese CH patients was 3.3%. This study is the first to describe, a gradual loss of ACTH in a patient carrying an LHX4 mutation. Careful monitoring of hypothalamic–pituitary -adrenal function is recommended for CH patients with LHX4 mutations.

Nonclassic TSH resistance: TSHR mutation carriers with discrepantly high thyroidal iodine uptake

CONTEXT Inactivating mutations in the TSH receptor gene (TSHR) cause TSH resistance. Most patients with TSH resistance have low to normal thyroidal radioiodine uptake (RAIU), which is consistent with the physiological knowledge that TSH stimulates iodine uptake. To date, only one TSHR mutation-carrying family with discrepantly high RAIU has been reported. OBJECTIVE We aimed to test whether TSHR mutation carriers with high RAIU are observed in a cohort of Japanese patients with congenital hypothyroidism (CH). SUBJECTS AND METHODS Twenty-four Japanese CH patients with high RAIU were screened for TSHR mutations. The capacities of mutant TSHR to activate Gs- and Gq-coupled signaling pathways were evaluated in vitro. RESULTS Two patients were found to have biallelic TSHR mutations: p.[T145I]+[R450H] in one and p.[R450H]+[I661fs] in the other. The two subjects had permanent CH with slightly high RAIU (41.8 and 43.0%, reference 8-40) but did not have goiter. One had a slightly high perchlorate discharge rate (10%, reference <10). Expression experiments revealed that T145I-TSHR retained partial ability to transduce both Gs- and Gq-coupled pathways, whereas I661fs-TSHR could transduce neither of them. R450H-TSHR had partial ability to transduce Gs-coupled signaling but had abrogated ability to transduce Gq-coupled signaling, indicating that coupling to Gq was dominantly affected. CONCLUSIONS We show that 8% of Japanese CH patients with high RAIU (two in 24) has inactivating TSHR mutations. Expression of this apparently discrepant phenotype, which we term nonclassic TSH resistance, is presumably associated with the characteristic signaling property of the mutant TSHR, namely the Gq-dominant coupling defect.

Increased Na reabsorption via the Na–Cl cotransporter in autosomal recessive pseudohypoaldosteronism

BackgroundThe autosomal recessive form of pseudohypoaldosteronism type 1 (AR-PHA1) is caused by loss-of-function mutations in the epithelial sodium channel subunit genes and is characterized by a multisystemic and lifelong severe salt-wasting tendency. However, we observed a male AR-PHA1 patient who exhibited less frequent salt wasting with advancing age, despite the cessation of daily salt supplementation.ObjectiveTo elucidate the mechanism for the above phenomenon.MethodsWe evaluated the sodium-reabsorption ability of his distal nephrons (from the distal convoluted tubules to the collecting ducts) and compared it to that of a patient with the dominant form of PHA1 (AD-PHA1) carrying a heterozygous NR3C2 (mineralocorticoid receptor) gene mutation. In addition, immunoblotting of the thiazide-sensitive Na+–Cl− cotransporter (NCC) protein was conducted using urine samples from the AR- and AD-PHA1 patients.ResultsThe levels of sodium reabsorption that occurred via the distal nephrons were almost identical in the two PHA1 patients, despite their different molecular pathogeneses. Immunoblotting showed an increased urinary NCC protein level in the AR-PHA1 patient.ConclusionTaken together, increased sodium reabsorption via the upregulation of the expression of NCC might have been responsible, at least in part, for the clinical improvement seen in an AR-PHA1 patient.