P. Staedt scite author profile

Maternally inherited inactivating GNAS mutations are the most common cause of parathyroid hormone (PTH) resistance and Albright hereditary osteodystrophy (AHO) leading to pseudohypoparathyroidism type Ia (PHPIa) due to Gsα deficiency. Paternally inherited inactivating mutations lead to isolated AHO signs characterizing pseudo-pseudohypoparathyroidism (PPHP). Mutations are distributed throughout the Gsα coding exons of GNAS and there is a lack of genotype–phenotype correlation. In this study, we sequenced exon 1–13 of GNAS in a large cohort of PHPIa- and PPHP patients and identified 58 different mutations in 88 patients and 27 relatives. Thirty-three mutations including 15 missense mutations were newly discovered. Furthermore, we found three hot spots: a known hotspot (p.D190MfsX14), a second at codon 166 (p.R166C), and a third at the exon 5 acceptor splice site (c.435 + 1G>A), found in 15, 5, and 4 unrelated patients, respectively. Comparing the clinical features to the molecular genetic data, a significantly higher occurrence of subcutaneous calcifications in patients harboring truncating versus missense mutations was demonstrated. Thus, in the largest cohort of PHPIa patients described to date, we extend the spectrum of known GNAS mutations and hot spots and demonstrate for the first time a correlation between the genetic defects and the expression of a clinical AHO-feature.

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Analysis of the GNAS1 Gene in Albright’s Hereditary Osteodystrophy

Ahrens

Hiort

Staedt

et al. 2001

The Journal of Clinical Endocrinology & Metabolism

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Albright's hereditary osteodystrophy (AHO) is characterized by phenotypic signs that typically include brachydactyly and sc calcifications occurring with or without hormone resistance toward PTH or other hormones such as thyroid hormone or gonadotropins. Different inactivating mutations of the gene GNAS1 encoding Gsalpha lead to a reduced Gsalpha protein activity in patients with AHO and pseudohypoparathyroidism type Ia or without resistance to PTH (pseudopseudohypoparathyroidism). We investigated 29 unrelated patients with AHO and pseudohypoparathyroidism type Ia or pseudopseudohypoparathyroidism and their affected family members performing functional and molecular genetic analysis of Gsalpha. In vitro determination of Gsalpha protein activity in erythrocyte membranes was followed by the investigation of the whole coding region of the GNAS1 gene using PCR, nonisotopic single strand conformation analysis, and direct sequencing of the PCR products. All patients showed a reduced Gsalpha protein activity (mean 59% compared with healthy controls). In 21/29 (72%) patients, 15 different mutations in GNAS1 including 11 novel mutations were detected. In addition we add five unrelated patients with a previously described 4 bp deletion in exon 7 (Delta GACT, codon 189/190), confirming the presence of a hot spot for loss of function mutations in GNAS1. In eight patients, no molecular abnormality was found in the GNAS1 gene despite a functional defect of Gsalpha. We conclude that biochemical and molecular analysis of Gsalpha and its gene GNAS1 can be valuable tools to confirm the diagnosis of AHO. However, in some patients with reduced activity of Gsalpha, the molecular defect cannot be detected in the exons encoding the common form of Gsalpha.

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Different Pattern of Epigenetic Changes of theGNASGene Locus in Patients With Pseudohypoparathyroidism Type Ic Confirm the Heterogeneity of Underlying Pathomechanisms in This Subgroup of Pseudohypoparathyroidism and the Demand for a New Classification ofGNAS-Related Disorders

Brix

Werner

Staedt

et al. 2014

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A Disruptive Mutation in Exon 3 of the GNAS Gene with Albright Hereditary Osteodystrophy, Normocalcemic Pseudohypoparathyroidism, and Selective Long Transcript Variant Gsα-L Deficiency

Thiele

Werner

Ahrens

et al. 2007

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Objective:The GNAS gene encodes the ␣-subunit of stimulatory G proteins, which play a crucial role in intracellular signal transduction of peptide and neurotransmitter receptors. In addition to transcript variants that differ in their first exon due to different promoters, there are two long (Gs␣-L) and two short (Gs␣-S) splice variants, created by alternative splicing. Heterozygous inactivating maternally inherited mutations of GNAS lead to a phenotype in which Albright hereditary osteodystrophy is associated with pseudohypoparathyroidism type Ia. Methods and Results:The GNAS gene of a 10-yr-old girl with brachymetacarpia, mental retardation, normocalcemic pseudohypoparathyroidism, and hypothyroidism was investigated. We found a heterozygous insertion of an adenosine in exon 3 altering codon 85 and leading to a frame shift inducing a stop codon in exon 4. Molecular studies of cDNA from blood RNA demonstrated normal, biallelic expression of Gs␣-S transcripts, whereas expression of Gs␣-L transcripts from the maternal allele was reduced. Immunoblot analysis revealed a reduced Gs␣-L protein level to about 50%, whereas the protein level of Gs␣-S was unaltered. Furthermore, the Gs␣ protein activity in erythrocyte membranes was diminished to about 75% of normal. Both the reduced activity and the mutation were also found in the mother and the affected younger brother. Conclusion:This report demonstrates the first evidence for a pathogenic mutation in exon 3 of the GNAS gene. The mutation is associated with a phenotype of Albright hereditary osteodystrophy and pseudohypoparathyroidism type Ia due to selective deficiency of Gs␣-L and a partial reduction of Gs␣ activity.

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Luminescenz- und Radioimmunoassay von 17 α-Hydroxyprogesteron aus kleinen Proben

et al. 1984

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P. Staedt

A positive genotype–phenotype correlation in a large cohort of patients with Pseudohypoparathyroidism Type Ia and Pseudo‐pseudohypoparathyroidism and 33 newly identified mutations in the GNAS gene

Analysis of the GNAS1 Gene in Albright’s Hereditary Osteodystrophy

Different Pattern of Epigenetic Changes of theGNASGene Locus in Patients With Pseudohypoparathyroidism Type Ic Confirm the Heterogeneity of Underlying Pathomechanisms in This Subgroup of Pseudohypoparathyroidism and the Demand for a New Classification ofGNAS-Related Disorders

A Disruptive Mutation in Exon 3 of the GNAS Gene with Albright Hereditary Osteodystrophy, Normocalcemic Pseudohypoparathyroidism, and Selective Long Transcript Variant Gsα-L Deficiency

Luminescenz- und Radioimmunoassay von 17 α-Hydroxyprogesteron aus kleinen Proben

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