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RESEARCH PRODUCT

Novel Mutations in the NKX2.1 gene and the PAX8 gene in a Boy with Brain-Lung-Thyroid Syndrome

Małgorzata Kumorowicz-czochHelmut GrasbergerSamuel RefetoffPia HermannsJoachim Pohlenz

subject

Male0301 basic medicineCandidate geneEndocrinology Diabetes and MetabolismThyroid Nuclear Factor 1030105 genetics & heredityBiologymedicine.disease_causeThyroid dysgenesisPAX8 Transcription Factor03 medical and health sciencesEndocrinologyChoreaCongenital HypothyroidismInternal MedicinemedicineHumansChildAthetosisGeneRespiratory Distress Syndrome NewbornMutationPsychomotor retardationGeneral Medicinemedicine.diseasePhenotypeCongenital hypothyroidismMutationCancer researchmedicine.symptomPAX8

description

Abstract Objective To elucidate the molecular mechanism which causes thyroid dysgenesis (TD) in a boy with brain-lung-thyroid syndrome. Design, patients, measurements We describe a patient with TD, respiratory disease and cerebral palsy who is heterozygous for mutations in two different genes, the PAX8 (p.E234K) and the NKX2.1 (p.A329GfsX108). In vitro studies were performed to functionally characterize these mutations. Congenital hypothyroidism (CH) was identified by neonatal screening associated with a hypoplastic thyroid gland. Postpartum he developed a brain-lung-thyroid syndrome with severe respiratory failure, symptomatic epilepsy and a considerable psychomotor retardation. The DNA-binding capability and the transcriptional activity of the two mutated transcription factors were investigated in vitro. Results The NKX2.1 mutation did not show any transcriptional activity and had almost no DNA-binding. The PAX8 mutation was normally located to the nucleus and showed a normal transactivation and a normal binding to the known downstream targets. Conclusions The molecular defect explaining the phenotype of brain-lung-thyroid syndrome was identified. To what extent the PAX8 mutation contributes to the phenotype needs to be further investigated. We recommend to screen patients with CH and TD for mutations in all known TD candidate genes.

yearjournalcountryeditionlanguage
2017-09-27Experimental and Clinical Endocrinology & Diabetes
https://doi.org/10.1055/s-0043-119875