Biallelic ATP2B1 variants as a likely cause of a novel neurodevelopmental malformation syndrome with primary hypoparathyroidism

被引:0
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作者
Patrick Yap
Lisa G. Riley
Purvi M. Kakadia
Stefan K. Bohlander
Ben Curran
Meer Jacob Rahimi
Salam Alburaiky
Ian Hayes
Henry Oppermann
Cristin Print
Sandra T. Cooper
Polona Le Quesne Stabej
机构
[1] University of Auckland,Department of Molecular Medicine and Pathology
[2] Genetic Health Service New Zealand - Northern hub,Rare Diseases Functional Genomics, Kids Research
[3] The Children’s Hospital at Westmead and The Children’s Medical Research Institute,Specialty of Child & Adolescent Health, Sydney Medical School
[4] University of Sydney,Leukaemia and Blood Cancer Research Unit, Department of Molecular Medicine and Pathology
[5] University of Auckland,Institute of Human Genetics
[6] University of Leipzig Hospitals and Clinics,Kids Neuroscience Centre, Kids Research
[7] Children’s Hospital at Westmead,undefined
[8] The Children’s Medical Research Institute,undefined
来源
European Journal of Human Genetics | 2024年 / 32卷
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摘要
ATP2B1 encodes plasma membrane calcium-transporting-ATPase1 and plays an essential role in maintaining intracellular calcium homeostasis that regulates diverse signaling pathways. Heterozygous de novo missense and truncating ATP2B1 variants are associated with a neurodevelopmental phenotype of variable expressivity. We describe a proband with distinctive craniofacial gestalt, Pierre-Robin sequence, neurodevelopmental and growth deficit, periventricular heterotopia, brachymesophalangy, cutaneous syndactyly, and persistent hypocalcemia from primary hypoparathyroidism. Proband-parent trio exome sequencing identified compound heterozygous ATP2B1 variants: a maternally inherited splice-site (c.3060+2 T > G) and paternally inherited missense c.2938 G > T; p.(Val980Leu). Reverse-transcription-PCR on the proband’s fibroblast-derived mRNA showed aberrantly spliced ATP2B1 transcripts targeted for nonsense-mediated decay. All correctly-spliced ATP2B1 mRNA encoding p.(Val980Leu) functionally causes decreased cellular Ca2+ extrusion. Immunoblotting showed reduced fibroblast ATP2B1. We conclude that biallelic ATP2B1 variants are the likely cause of the proband’s phenotype, strengthening the association of ATP2B1 as a neurodevelopmental gene and expanding the phenotypic characterization of a biallelic loss-of-function genotype.
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页码:125 / 129
页数:4
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