Gitelman-Like Syndrome Caused by Pathogenic Variants in mtDNA

Publication date

2022-02

Authors

Viering, Daan
Schlingmann, Karl-Peter
Hureaux, Marguerite
Nijenhuis, Tom
Mallett, Andrew
Chan, Melanie
van Beek, Andre
van Eerde, Albertien MORCID 0000-0001-5953-5956ISNI 0000000393754858
Coulibaly, Jean-Marie
Vallet, Marion

Editors

Advisors

Supervisors

Document Type

Article

Collections

Open Access logo

License

taverne

Abstract

Background Gitelman syndrome is the most frequent hereditary salt-losing tubulopathy characterized by hypokalemic alkalosis and hypomagnesemia. Gitelman syndrome is caused by biallelic pathogenic variants in SLC12A3, encoding the Na 1-Cl 2 cotransporter (NCC) expressed in the distal convoluted tubule. Pathogenic variants of CLCNKB, HNF1B, FXYD2, or KCNJ10 may result in the same renal phenotype of Gitelman syndrome, as they can lead to reduced NCC activity. For approximately 10 percent of patients with a Gitelman syndrome phenotype, the genotype is unknown. Methods We identified mitochondrial DNA (mtDNA) variants in three families with Gitelman-like electrolyte abnormalities, then investigated 156 families for variants in MT-TI and MT-TF, which encode the transfer RNAs for phenylalanine and isoleucine. Mitochondrial respiratory chain function was assessed in patient fibroblasts. Mitochondrial dysfunction was induced in NCC-expressing HEK293 cells to assess the effect on thiazide-sensitive 22Na 1 transport. Results Genetic investigations revealed four mtDNA variants in 13 families: m.591C>T (n57), m.616T>C (n51), m.643A>G (n51) (all in MT-TF), and m.4291T>C (n54, in MT-TI). Variants were near homoplasmic in affected individuals. All variants were classified as pathogenic, except for m.643A>G, which was classified as a variant of uncertain significance. Importantly, affected members of six families with an MT-TF variant additionally suffered from progressive chronic kidney disease. Dysfunction of oxidative phosphorylation complex IV and reduced maximal mitochondrial respiratory capacity were found in patient fibroblasts. In vitro pharmacological inhibition of complex IV, mimicking the effect of the mtDNA variants, inhibited NCC phosphorylation and NCC-mediated sodium uptake. Conclusion Pathogenic mtDNA variants in MT-TF and MT-TI can cause a Gitelman-like syndrome. Genetic investigation of mtDNA should be considered in patients with unexplained Gitelman syndrome-like tubulopathies.

Keywords

blood pressure, chronic kidney disease, chronic kidney failure, epithelial sodium transport, genetic renal disease, Gitelman-s syndrome, human genetics, ion transport, mitochondria, Na transport, Taverne, Nephrology, Journal Article

Citation

Viering, D, Schlingmann, K-P, Hureaux, M, Nijenhuis, T, Mallett, A, Chan, M, van Beek, A, van Eerde, A, Coulibaly, J-M, Vallet, M, Decramer, S, Pelletier, S, Klaus, G, Kömhoff, M, Beetz, R, Patel, C, Shenoy, M, Steenbergen, E, Anderson, G, Bongers, E, Bergmann, C, Panneman, D, Rodenburg, R, Kleta, R, Houillier, P, Konrad, M, Vargas-Poussou, R, Bockenhauer, D & de Baaij, J 2022, 'Gitelman-Like Syndrome Caused by Pathogenic Variants in mtDNA', Journal of the American Society of Nephrology, vol. 33, no. 2, pp. 305-325. https://doi.org/10.1681/ASN.2021050596