A Novel Long-Range Deletion Spanning CDC73 and Upper-Stream Genes Discovered in a Kindred of Familial Primary Hyperparathyroidism

PurposeTo confirm the exact break-point of a novel long-range deletion discovered in one female parathyroid carcinoma (PC) patient who has a strong family history suggesting familial hyperparathyroidism, and to investigate the expression of parafibromin in the patient’s affected lesion.MethodsClinical information of one female patient as well as five of her relatives were collected. Their genomic DNA extracted from peripheral blood went through Sanger sequencing and multiplex ligation-dependent probe amplification (MLPA). After completing whole genome sequencing (WGS), clone sequencing was also performed, whose result was aligned with standard human genome database after Sanger sequencing.ResultsThe medical history of recurrent hypercalcemia after parathyroidectomy and histopathological investigation confirmed that the female patient with the diagnosis of PC. WGS displayed a novel 130kb long-range deletion spanning UCHL5 to CDC73 which was later confirmed by clone sequencing. MLPA showed similar results in four of her five relatives, suggesting these people to be carriers of the same long-range deletion, and three among them had a history of primary hyperparathyroidism (PHPT) ahead of the proband’s first visit.ConclusionWe discovered a novel 130kb long-range deletion spanning CDC73 in a family of five-person, and the existence of the deletion was related to PHPT and PC. Our discovery validated the role of CDC73 mutation in the occurrence of PHPT and PC, which provided new information to the genetic studies of PC.

Should the GCM2 gene be tested when screening for familial primary hyperparathyroidism?

Objective Primary hyperparathyroism (PHPT) is a disease with either sporadic or inherited presentation. Germline mutations responsible for this disease can be found in different genes, the most frequently involved being MEN1, CDC73 = HRPT2 and CASR. During the last few years, new genes have been described as responsible for the development of PHPT such as GCM2. These genes are not systematically included in PHPT genetic screening yet. The aim of this work was to assess the importance of GCM2 genetic analysis in PHPT to determine if this gene should be included in gene panel investigated for this disease. Design and methods The TENGEN network (French Oncogenetic Network of Neuroendocrine Tumors) collected and interpreted allelic variants according to the clinical characteristics of the GCM2-positive patients identified through genetic testing performed in French laboratories (713 patients with PHPT). Results From 713 patients with PHPT included in this study, 85 (6.6%) carried at least one GCM2 variant. A total of 12 variants classified as uncertain significance or likely pathogenic were reported in 47 patients. Their mean age at PHPT diagnosis was 49 years. Additionally, the investigation of a large family showed that GCM2 variants could be associated with low penetrance. Conclusion We provide a description and interpretation for GCM2 variants identified in a French population. We suggest that this gene should be included in genetic screening of patients with PHPT and propose the follow-up of asymptomatic patients carrying such variants for calcemia.

New Concepts About Familial Isolated Hyperparathyroidism

ContextFamilial isolated hyperparathyroidism (FIHP) is defined as familial primary hyperparathyroidism (FH) without a characteristic extraparathyroidal feature of a more complex hyperparathyroid syndrome. New concepts of FIHP have been developed within this definition. FIHP has been difficult to study due to small kindreds and mildly symptomatic cases.Evidence AcquisitionSearches were through PubMed for FIHP, other FH syndromes, and the gene(s) mutated in each.Evidence SynthesisWithin its definition, the current concept of FIHP has clinical and mutational components that can include incomplete expressions of multiple endocrine neoplasia type 1 (MEN1) familial hypocalciuric hypercalcemia, hyperparathyroidism-jaw tumor syndromes, or their mutations. Newest concepts of FIHP focus on kindreds without mutation of the MEN1, CASR, or CDC73 genes; 17% have germline activating mutation of the gene for the GCM2 transcription factor. The FIHP kindreds with or without GCM2 mutation contain a median of only two cases of primary hyperparathyroidism. The small kindred size in both subgroups of FIHP is probably caused by a low rate of screening among relatives. Persons with FIHP and GCM2 mutation present as adults with mild hypercalcemia and multiple parathyroid tumors.ConclusionThe current concept of FIHP led to a focus on small kindreds without mutation of MEN1, CASR, or CDC73. These assisted in identifying germline activating GCM2 mutations in 17% of kindreds. Clinical and mutational characterization in more cases is needed to determine if there are any unique clinical features of FIHP, with or without mutation of GCM2.