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Context Pseudohypoparathyroidism type 1B (PHP1B), also referred to as inactivating PTH/PTHrP signaling disorder (iPPSD), is characterized by proximal renal tubular resistance to parathyroid hormone (PTH) leading to hypocalcemia, hyperphosphatemia, and elevated PTH values. Autosomal dominant PHP1B (AD-PHP1B) with loss of methylation at the maternal GNAS A/B:TSS-DMR (transcription start site-differentially methylated region) alone can be caused by maternal deletions involving STX16. Objective Characterize a previously not reported AD-PHP1B family with loss of methylation at GNAS A/B:TSS-DMR, but without evidence for a STX16 deletion on the maternal allele and assess GNAS-AS2:TSS-DMR methylation. Methods DNA from 24 patients and 10 controls were investigated. AD-PHP1B patients without STX16 deletion from a single family (n = 5), AD-PHP1B patients with STX16 deletion (n = 9), sporPHP1B (n = 10), unaffected controls (n = 10), patUPD20 (n = 1), and matUPD20 (n = 1). Methylation and copy number analyses were performed by pyrosequencing, methylation-sensitive multiplex ligation-dependent probe amplification, and multiplex ligation-dependent probe amplification. Results Molecular cloning of polymerase chain reaction–amplified, bisulfite-treated genomic DNA from healthy controls revealed evidence for 2 distinct GNAS-AS2:TSS-DMR subdomains, named AS2-1 and AS2-2, which showed 16.0 ± 2.3% and 31.0 ± 2.2% methylation, respectively. DNA from affected members of a previously not reported AD-PHP1B family without the known genetic defects revealed incomplete loss of methylation at GNAS A/B:TSS-DMR, normal methylation at the 3 well-established maternal and paternal DMRs, and, surprisingly, increased methylation at AS2-1 (32.9 ± 3.5%), but not at AS2-2 (30.5 ± 2.9%). Conclusion The distinct methylation changes at the novel GNAS-AS2:TSS-DMR will help characterize further different PHP1B/iPPSD3 variants and will guide the search for underlying genetic defects, which may provide novel insights into the mechanisms underlying GNAS methylation.

A Novel Familial PHP1B Variant With Incomplete Loss of Methylation at GNAS-A/B and Enhanced Methylation at GNAS-AS2