OXGR1 is a candidate disease gene for human calcium oxalate nephrolithiasis

Nephrolithiasis (NL) affects 1 in 11 individuals worldwide, leading to significant patient morbidity. NL is associated with nephrocalcinosis (NC), a risk factor for chronic kidney disease. Causative genetic variants are detected in 11% to 28% of NL and/or NC, suggesting that additional NL/NC-associa...

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Veröffentlicht in:Genetics in medicine 2023-03, Vol.25 (3), p.100351-100351, Article 100351
Hauptverfasser: Majmundar, Amar J., Widmeier, Eugen, Heneghan, John F., Daga, Ankana, Wu, Chen-Han Wilfred, Buerger, Florian, Hugo, Hannah, Ullah, Ihsan, Amar, Ali, Ottlewski, Isabel, Braun, Daniela A., Jobst-Schwan, Tilman, Lawson, Jennifer A., Zahoor, Muhammad Yasir, Rodig, Nancy M., Tasic, Velibor, Nelson, Caleb P., Khaliq, Shagufta, Schönauer, Ria, Halbritter, Jan, Sayer, John A., Fathy, Hanan M., Baum, Michelle A., Shril, Shirlee, Mane, Shrikant, Alper, Seth L., Hildebrandt, Friedhelm
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container_issue 3
container_start_page 100351
container_title Genetics in medicine
container_volume 25
creator Majmundar, Amar J.
Widmeier, Eugen
Heneghan, John F.
Daga, Ankana
Wu, Chen-Han Wilfred
Buerger, Florian
Hugo, Hannah
Ullah, Ihsan
Amar, Ali
Ottlewski, Isabel
Braun, Daniela A.
Jobst-Schwan, Tilman
Lawson, Jennifer A.
Zahoor, Muhammad Yasir
Rodig, Nancy M.
Tasic, Velibor
Nelson, Caleb P.
Khaliq, Shagufta
Schönauer, Ria
Halbritter, Jan
Sayer, John A.
Fathy, Hanan M.
Baum, Michelle A.
Shril, Shirlee
Mane, Shrikant
Alper, Seth L.
Hildebrandt, Friedhelm
description Nephrolithiasis (NL) affects 1 in 11 individuals worldwide, leading to significant patient morbidity. NL is associated with nephrocalcinosis (NC), a risk factor for chronic kidney disease. Causative genetic variants are detected in 11% to 28% of NL and/or NC, suggesting that additional NL/NC-associated genetic loci await discovery. Therefore, we employed genomic approaches to discover novel genetic forms of NL/NC. Exome sequencing and directed sequencing of the OXGR1 locus were performed in a worldwide NL/NC cohort. Putatively deleterious, rare OXGR1 variants were functionally characterized. Exome sequencing revealed a heterozygous OXGR1 missense variant (c.371T>G, p.L124R) cosegregating with calcium oxalate NL and/or NC disease in an autosomal dominant inheritance pattern within a multigenerational family with 5 affected individuals. OXGR1 encodes 2-oxoglutarate (α-ketoglutarate [AKG]) receptor 1 in the distal nephron. In response to its ligand AKG, OXGR1 stimulates the chloride-bicarbonate exchanger, pendrin, which also regulates transepithelial calcium transport in cortical connecting tubules. Strong amino acid conservation in orthologs and paralogs, severe in silico prediction scores, and extreme rarity in exome population databases suggested that the variant was deleterious. Interrogation of the OXGR1 locus in 1107 additional NL/NC families identified 5 additional deleterious dominant variants in 5 families with calcium oxalate NL/NC. Rare, potentially deleterious OXGR1 variants were enriched in patients with NL/NC compared with Exome Aggregation Consortium controls (χ2 = 7.117, P = .0076). Wild-type OXGR1-expressing Xenopus oocytes exhibited AKG-responsive Ca2+ uptake. Of 5 NL/NC-associated missense variants, 5 revealed impaired AKG-dependent Ca2+ uptake, demonstrating loss of function. Rare, dominant loss-of-function OXGR1 variants are associated with recurrent calcium oxalate NL/NC disease.
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NL is associated with nephrocalcinosis (NC), a risk factor for chronic kidney disease. Causative genetic variants are detected in 11% to 28% of NL and/or NC, suggesting that additional NL/NC-associated genetic loci await discovery. Therefore, we employed genomic approaches to discover novel genetic forms of NL/NC. Exome sequencing and directed sequencing of the OXGR1 locus were performed in a worldwide NL/NC cohort. Putatively deleterious, rare OXGR1 variants were functionally characterized. Exome sequencing revealed a heterozygous OXGR1 missense variant (c.371T&gt;G, p.L124R) cosegregating with calcium oxalate NL and/or NC disease in an autosomal dominant inheritance pattern within a multigenerational family with 5 affected individuals. OXGR1 encodes 2-oxoglutarate (α-ketoglutarate [AKG]) receptor 1 in the distal nephron. In response to its ligand AKG, OXGR1 stimulates the chloride-bicarbonate exchanger, pendrin, which also regulates transepithelial calcium transport in cortical connecting tubules. Strong amino acid conservation in orthologs and paralogs, severe in silico prediction scores, and extreme rarity in exome population databases suggested that the variant was deleterious. Interrogation of the OXGR1 locus in 1107 additional NL/NC families identified 5 additional deleterious dominant variants in 5 families with calcium oxalate NL/NC. Rare, potentially deleterious OXGR1 variants were enriched in patients with NL/NC compared with Exome Aggregation Consortium controls (χ2 = 7.117, P = .0076). Wild-type OXGR1-expressing Xenopus oocytes exhibited AKG-responsive Ca2+ uptake. Of 5 NL/NC-associated missense variants, 5 revealed impaired AKG-dependent Ca2+ uptake, demonstrating loss of function. 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In response to its ligand AKG, OXGR1 stimulates the chloride-bicarbonate exchanger, pendrin, which also regulates transepithelial calcium transport in cortical connecting tubules. Strong amino acid conservation in orthologs and paralogs, severe in silico prediction scores, and extreme rarity in exome population databases suggested that the variant was deleterious. Interrogation of the OXGR1 locus in 1107 additional NL/NC families identified 5 additional deleterious dominant variants in 5 families with calcium oxalate NL/NC. Rare, potentially deleterious OXGR1 variants were enriched in patients with NL/NC compared with Exome Aggregation Consortium controls (χ2 = 7.117, P = .0076). Wild-type OXGR1-expressing Xenopus oocytes exhibited AKG-responsive Ca2+ uptake. Of 5 NL/NC-associated missense variants, 5 revealed impaired AKG-dependent Ca2+ uptake, demonstrating loss of function. 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subjects Alpha-ketoglutarate
Calcium Oxalate
Genetics
Humans
Mutation, Missense - genetics
Nephrolithiasis
Nephrolithiasis - genetics
Receptors, Purinergic P2 - genetics
Receptors, Purinergic P2 - metabolism
Sulfate Transporters - genetics
title OXGR1 is a candidate disease gene for human calcium oxalate nephrolithiasis
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