Mutations in the gene encoding the inwardly-rectifying renal potassium channel, ROMK, cause the antenatal variant of Bartter syndrome: Evidence for genetic heterogeneity

Lothar Károlyi; Martin Konrad; Arnold Köckerling; Andreas Ziegler; Dorthe K. Zimmermann; Bernd Roth; Christian Wieg; Karl Heinz Grzeschik; Manuela C. Koch; Hannsjörg W. Seyberth; Rosa Vargas; Lionel Forestier; Genevieve Jean; Michele Deschaux; Gian Franco Rizzoni; Patrick Niaudet; Corinne Antignac; Delphine Feldmann; Frederique Lorridon; Emmanuel Cougoureux; France Laroze; Jean Luc Alessandri; Louis David; Pascal Saunier; Georges Deschenes; Friedhelm Hildebrandt; Martin Vollmer; Willem Proesmans; Matthias Brandis; Lambertus P.W.J. Van Den Heuvel; Henny H. Lemmink; Willy Nillesen; Leo A.H. Monnens; Nine V.A.M. Knoers; Lisa M. Guay-Woodford; Christopher J. Wright; Gilbert Madrigal; Steven C. Hebert

doi:10.1093/hmg/6.1.17

Mutations in the gene encoding the inwardly-rectifying renal potassium channel, ROMK, cause the antenatal variant of Bartter syndrome: Evidence for genetic heterogeneity

Lothar Károlyi, Martin Konrad, Arnold Köckerling, Andreas Ziegler, Dorthe K. Zimmermann, Bernd Roth, Christian Wieg, Karl Heinz Grzeschik, Manuela C. Koch, Hannsjörg W. Seyberth, Rosa Vargas, Lionel Forestier, Genevieve Jean, Michele Deschaux, Gian Franco Rizzoni, Patrick Niaudet, Corinne Antignac, Delphine Feldmann, Frederique Lorridon, Emmanuel CougoureuxFrance Laroze, Jean Luc Alessandri, Louis David, Pascal Saunier, Georges Deschenes, Friedhelm Hildebrandt, Martin Vollmer, Willem Proesmans, Matthias Brandis, Lambertus P.W.J. Van Den Heuvel, Henny H. Lemmink, Willy Nillesen, Leo A.H. Monnens, Nine V.A.M. Knoers, Lisa M. Guay-Woodford^*, Christopher J. Wright, Gilbert Madrigal, Steven C. Hebert

^*Corresponding author for this work

Institute of Medical Biometry and Statistic

176 Citations (Scopus)

Abstract

Inherited renal tubular disorders associated with hypokalemic alkalosis (Bartter-like syndromes) can be subdivided into at least three clinical phenotypes: (i) the hypocalciuric-hypomagnesemic Gitelman variant; (ii) the classic variant; and (iii) the antenatal hypercalciuric variant (also termed hyperprostaglandin E syndrome). Mutations in the Na-Cl cotransporter (NCCT) underlie the pathogenesis of the Gitelman variant and mutations in the Na-K-2Cl cotransporter (NKCCZ) have recently been identified in the antenatal hypercalciuric variant. We now describe mutations in the gene encoding the inwardly-rectifying potassium channel, ROMK, in eight kindreds with the antenatal variant of Bartter syndrome. These findings indicate that antenatal Bartter syndrome is genetically heterogeneous and provide new insights into the molecular pathogenesis of Bartter-like syndromes.

Original language	English
Journal	Human Molecular Genetics
Volume	6
Issue number	1
Pages (from-to)	17-26
Number of pages	10
ISSN	0964-6906
DOIs	https://doi.org/10.1093/hmg/6.1.17
Publication status	Published - 01.1997

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Károlyi, L., Konrad, M., Köckerling, A., Ziegler, A., Zimmermann, D. K., Roth, B., Wieg, C., Grzeschik, K. H., Koch, M. C., Seyberth, H. W., Vargas, R., Forestier, L., Jean, G., Deschaux, M., Rizzoni, G. F., Niaudet, P., Antignac, C., Feldmann, D., Lorridon, F., ... Hebert, S. C. (1997). Mutations in the gene encoding the inwardly-rectifying renal potassium channel, ROMK, cause the antenatal variant of Bartter syndrome: Evidence for genetic heterogeneity. Human Molecular Genetics, 6(1), 17-26. https://doi.org/10.1093/hmg/6.1.17

@article{f51690f07b9b4041a85d7c861dd1c5d0,

title = "Mutations in the gene encoding the inwardly-rectifying renal potassium channel, ROMK, cause the antenatal variant of Bartter syndrome: Evidence for genetic heterogeneity",

abstract = "Inherited renal tubular disorders associated with hypokalemic alkalosis (Bartter-like syndromes) can be subdivided into at least three clinical phenotypes: (i) the hypocalciuric-hypomagnesemic Gitelman variant; (ii) the classic variant; and (iii) the antenatal hypercalciuric variant (also termed hyperprostaglandin E syndrome). Mutations in the Na-Cl cotransporter (NCCT) underlie the pathogenesis of the Gitelman variant and mutations in the Na-K-2Cl cotransporter (NKCCZ) have recently been identified in the antenatal hypercalciuric variant. We now describe mutations in the gene encoding the inwardly-rectifying potassium channel, ROMK, in eight kindreds with the antenatal variant of Bartter syndrome. These findings indicate that antenatal Bartter syndrome is genetically heterogeneous and provide new insights into the molecular pathogenesis of Bartter-like syndromes.",

author = "Lothar K{\'a}rolyi and Martin Konrad and Arnold K{\"o}ckerling and Andreas Ziegler and Zimmermann, {Dorthe K.} and Bernd Roth and Christian Wieg and Grzeschik, {Karl Heinz} and Koch, {Manuela C.} and Seyberth, {Hannsj{\"o}rg W.} and Rosa Vargas and Lionel Forestier and Genevieve Jean and Michele Deschaux and Rizzoni, {Gian Franco} and Patrick Niaudet and Corinne Antignac and Delphine Feldmann and Frederique Lorridon and Emmanuel Cougoureux and France Laroze and Alessandri, {Jean Luc} and Louis David and Pascal Saunier and Georges Deschenes and Friedhelm Hildebrandt and Martin Vollmer and Willem Proesmans and Matthias Brandis and {Van Den Heuvel}, {Lambertus P.W.J.} and Lemmink, {Henny H.} and Willy Nillesen and Monnens, {Leo A.H.} and Knoers, {Nine V.A.M.} and Guay-Woodford, {Lisa M.} and Wright, {Christopher J.} and Gilbert Madrigal and Hebert, {Steven C.}",

year = "1997",

month = jan,

doi = "10.1093/hmg/6.1.17",

language = "English",

volume = "6",

pages = "17--26",

journal = "Human Molecular Genetics",

issn = "0964-6906",

number = "1",

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Károlyi, L, Konrad, M, Köckerling, A, Ziegler, A, Zimmermann, DK, Roth, B, Wieg, C, Grzeschik, KH, Koch, MC, Seyberth, HW, Vargas, R, Forestier, L, Jean, G, Deschaux, M, Rizzoni, GF, Niaudet, P, Antignac, C, Feldmann, D, Lorridon, F, Cougoureux, E, Laroze, F, Alessandri, JL, David, L, Saunier, P, Deschenes, G, Hildebrandt, F, Vollmer, M, Proesmans, W, Brandis, M, Van Den Heuvel, LPWJ, Lemmink, HH, Nillesen, W, Monnens, LAH, Knoers, NVAM, Guay-Woodford, LM, Wright, CJ, Madrigal, G & Hebert, SC 1997, 'Mutations in the gene encoding the inwardly-rectifying renal potassium channel, ROMK, cause the antenatal variant of Bartter syndrome: Evidence for genetic heterogeneity', Human Molecular Genetics, vol. 6, no. 1, pp. 17-26. https://doi.org/10.1093/hmg/6.1.17

Mutations in the gene encoding the inwardly-rectifying renal potassium channel, ROMK, cause the antenatal variant of Bartter syndrome: Evidence for genetic heterogeneity. / Károlyi, Lothar; Konrad, Martin; Köckerling, Arnold et al.
In: Human Molecular Genetics, Vol. 6, No. 1, 01.1997, p. 17-26.

Research output: Journal Articles › Journal articles › Research › peer-review

TY - JOUR

T1 - Mutations in the gene encoding the inwardly-rectifying renal potassium channel, ROMK, cause the antenatal variant of Bartter syndrome: Evidence for genetic heterogeneity

AU - Károlyi, Lothar

AU - Konrad, Martin

AU - Köckerling, Arnold

AU - Ziegler, Andreas

AU - Zimmermann, Dorthe K.

AU - Roth, Bernd

AU - Wieg, Christian

AU - Grzeschik, Karl Heinz

AU - Koch, Manuela C.

AU - Seyberth, Hannsjörg W.

AU - Vargas, Rosa

AU - Forestier, Lionel

AU - Jean, Genevieve

AU - Deschaux, Michele

AU - Rizzoni, Gian Franco

AU - Niaudet, Patrick

AU - Antignac, Corinne

AU - Feldmann, Delphine

AU - Lorridon, Frederique

AU - Cougoureux, Emmanuel

AU - Laroze, France

AU - Alessandri, Jean Luc

AU - David, Louis

AU - Saunier, Pascal

AU - Deschenes, Georges

AU - Hildebrandt, Friedhelm

AU - Vollmer, Martin

AU - Proesmans, Willem

AU - Brandis, Matthias

AU - Van Den Heuvel, Lambertus P.W.J.

AU - Lemmink, Henny H.

AU - Nillesen, Willy

AU - Monnens, Leo A.H.

AU - Knoers, Nine V.A.M.

AU - Guay-Woodford, Lisa M.

AU - Wright, Christopher J.

AU - Madrigal, Gilbert

AU - Hebert, Steven C.

PY - 1997/1

Y1 - 1997/1

N2 - Inherited renal tubular disorders associated with hypokalemic alkalosis (Bartter-like syndromes) can be subdivided into at least three clinical phenotypes: (i) the hypocalciuric-hypomagnesemic Gitelman variant; (ii) the classic variant; and (iii) the antenatal hypercalciuric variant (also termed hyperprostaglandin E syndrome). Mutations in the Na-Cl cotransporter (NCCT) underlie the pathogenesis of the Gitelman variant and mutations in the Na-K-2Cl cotransporter (NKCCZ) have recently been identified in the antenatal hypercalciuric variant. We now describe mutations in the gene encoding the inwardly-rectifying potassium channel, ROMK, in eight kindreds with the antenatal variant of Bartter syndrome. These findings indicate that antenatal Bartter syndrome is genetically heterogeneous and provide new insights into the molecular pathogenesis of Bartter-like syndromes.

AB - Inherited renal tubular disorders associated with hypokalemic alkalosis (Bartter-like syndromes) can be subdivided into at least three clinical phenotypes: (i) the hypocalciuric-hypomagnesemic Gitelman variant; (ii) the classic variant; and (iii) the antenatal hypercalciuric variant (also termed hyperprostaglandin E syndrome). Mutations in the Na-Cl cotransporter (NCCT) underlie the pathogenesis of the Gitelman variant and mutations in the Na-K-2Cl cotransporter (NKCCZ) have recently been identified in the antenatal hypercalciuric variant. We now describe mutations in the gene encoding the inwardly-rectifying potassium channel, ROMK, in eight kindreds with the antenatal variant of Bartter syndrome. These findings indicate that antenatal Bartter syndrome is genetically heterogeneous and provide new insights into the molecular pathogenesis of Bartter-like syndromes.

UR - http://www.scopus.com/inward/record.url?scp=8044222737&partnerID=8YFLogxK

U2 - 10.1093/hmg/6.1.17

DO - 10.1093/hmg/6.1.17

M3 - Journal articles

C2 - 9002665

AN - SCOPUS:8044222737

SN - 0964-6906

VL - 6

SP - 17

EP - 26

JO - Human Molecular Genetics

JF - Human Molecular Genetics

IS - 1

ER -

Mutations in the gene encoding the inwardly-rectifying renal potassium channel, ROMK, cause the antenatal variant of Bartter syndrome: Evidence for genetic heterogeneity

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