Abstract
BackgroundNephrolithiasis (NL) affects 1 in 11 individuals worldwide and causes significant morbidity and cost. Common variants in the calcium sensing receptor gene (CaSR) have been associated with NL. Rare inactivating CaSR variants classically cause hyperparathyroidism, hypercalcemia and hypocalciuria. However, NL and familial hypercalciuria have been paradoxically associated with select inactivating CaSR variants in three kindreds from Europe and Australia.MethodsTo discover novel NL-associated CaSR variants from a geographically distinct cohort, 57 Pakistani families presenting with pediatric onset NL were recruited. The CaSR locus was analyzed by directed or exome sequencing.ResultsWe detected a heterozygous and likely pathogenic splice variant (GRCh37 Chr3:122000958A>G; GRCh38 Chr3:12228211A>G; NM_000388:c.1609-2A>G) in CaSR in one family with recurrent calcium oxalate stones. This variant would be predicted to cause exon skipping and premature termination (p.Val537Metfs*49). Moreover, a splice variant of unknown significance in an alternative CaSR transcript (GRCh37 Chr3:122000929G>C; GRCh38 Chr3:122282082G >C NM_000388:c.1609-31G >C NM_001178065:c.1609-1G >C) was identified in two additional families.ConclusionsSequencing of the CaSR locus in Pakistani stone formers reveals a novel loss-of-function variant, expanding the connection between the CaSR locus and nephrolithiasis.
Highlights
Nephrolithiasis (NL) affects 1 in 11 individuals during their lifetime [1, 2]
Inactivating calcium sensing receptor gene (CaSR) variants are associated with hyperparathyroidism, hypercalcemia, Ullah et al BMC Medical Genomics (2021) 14:266 and hypocalciuria with dominant (OMIM: 145980) and recessive (OMIM: 239200) modes of inheritance [10]
These kindreds suggest that the functions of the calcium sensing receptor in serum calcium homeostasis and parathyroid hormone regulation can be uncoupled from its role in renal calcium excretion
Summary
Nephrolithiasis (NL) affects 1 in 11 individuals during their lifetime [1, 2]. NL is associated with significantThe calcium sensing receptor (CaSR) gene regulates calcium homeostasis [8], and rare variants in CaSR cause calcium disorders [9, 10]. NL has been observed in three atypical kindreds from Europe and Australia with dominant inactivating variants (L650P, F881L, K336del), hypercalcemia, and familial hypercalciuria [29, 30] These kindreds suggest that the functions of the calcium sensing receptor in serum calcium homeostasis and parathyroid hormone regulation can be uncoupled from its role in renal calcium excretion. These position-specific inactivating variants are exceedingly rare, given that a deleterious CaSR variant was not detected in a worldwide cohort of 697 NL families using gene panel or exome sequencing [4,5,6,7].
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