Dominant missense mutations in ABCC9 cause Cantú syndrome

Magdalena Harakalova; Jeske J T van Harssel; Paulien A Terhal; Stef van Lieshout; Karen Duran; Ivo Renkens; David J Amor; Louise C Wilson; Edwin P Kirk; Claire L S Turner; Debbie Shears; Sixto Garcia-Minaur; Melissa M Lees; Alison Ross; Hanka Venselaar; Gert Vriend; Hiroki Takanari; Martin B Rook; Marcel A G van der Heyden; Folkert W Asselbergs; Hans M Breur; Marielle E Swinkels; Ingrid J Scurr; Sarah F Smithson; Nine V Knoers; Jasper J van der Smagt; Isaac J Nijman; Wigard P Kloosterman; Mieke M van Haelst; Gijs van Haaften; Edwin Cuppen

doi:https://doi.org/10.1038/ng.2324

Dominant missense mutations in ABCC9 cause Cantú syndrome

Magdalena Harakalova, Jeske J T van Harssel, Paulien A Terhal, Stef van Lieshout, Karen Duran, Ivo Renkens, David J Amor, Louise C Wilson, Edwin P Kirk, Claire L S Turner, Debbie Shears, Sixto Garcia-Minaur, Melissa M Lees, Alison Ross, Hanka Venselaar, Gert Vriend, Hiroki Takanari, Martin B Rook, Marcel A G van der Heyden, Folkert W AsselbergsHans M Breur, Marielle E Swinkels, Ingrid J Scurr, Sarah F Smithson, Nine V Knoers, Jasper J van der Smagt, Isaac J Nijman, Wigard P Kloosterman, Mieke M van Haelst, Gijs van Haaften, Edwin Cuppen

Research output: Contribution to journal › Article › Academic › peer-review

154 Citations (Scopus)

Abstract

Cantú syndrome is characterized by congenital hypertrichosis, distinctive facial features, osteochondrodysplasia and cardiac defects. By using family-based exome sequencing, we identified a de novo mutation in ABCC9. Subsequently, we discovered novel dominant missense mutations in ABCC9 in 14 of the 16 individuals with Cantú syndrome examined. The ABCC9 protein is part of an ATP-dependent potassium (K(ATP)) channel that couples the metabolic state of a cell with its electrical activity. All mutations altered amino acids in or close to the transmembrane domains of ABCC9. Using electrophysiological measurements, we show that mutations in ABCC9 reduce the ATP-mediated potassium channel inhibition, resulting in channel opening. Moreover, similarities between the phenotype of individuals with Cantú syndrome and side effects from the K(ATP) channel agonist minoxidil indicate that the mutations in ABCC9 result in channel opening. Given the availability of ABCC9 antagonists, our findings may have direct implications for the treatment of individuals with Cantú syndrome.

Original language	English
Pages (from-to)	793-6
Number of pages	4
Journal	Nature Genetics
Volume	44
Issue number	7
DOIs	https://doi.org/10.1038/ng.2324
Publication status	Published - 18 May 2012

Keywords

ATP-Binding Cassette Transporters/genetics
Adult
Cardiomegaly/genetics
Cell Line, Transformed
Child
Child, Preschool
Exome
Female
Genetic Diseases, X-Linked/genetics
Genetic Predisposition to Disease
HEK293 Cells
Humans
Hypertrichosis/genetics
Infant
Infant, Newborn
KATP Channels/genetics
Male
Mutation, Missense
Osteochondrodysplasias/genetics
Potassium Channels, Inwardly Rectifying/genetics
Protein Structure, Tertiary/genetics
Receptors, Drug/genetics
Sulfonylurea Receptors
Young Adult

Access to Document

https://doi.org/10.1038/ng.2324

Cite this

Harakalova, M., van Harssel, J. J. T., Terhal, P. A., van Lieshout, S., Duran, K., Renkens, I., Amor, D. J., Wilson, L. C., Kirk, E. P., Turner, C. L. S., Shears, D., Garcia-Minaur, S., Lees, M. M., Ross, A., Venselaar, H., Vriend, G., Takanari, H., Rook, M. B., van der Heyden, M. A. G., ... Cuppen, E. (2012). Dominant missense mutations in ABCC9 cause Cantú syndrome. Nature Genetics, 44(7), 793-6. https://doi.org/10.1038/ng.2324

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title = "Dominant missense mutations in ABCC9 cause Cant{\'u} syndrome",

abstract = "Cant{\'u} syndrome is characterized by congenital hypertrichosis, distinctive facial features, osteochondrodysplasia and cardiac defects. By using family-based exome sequencing, we identified a de novo mutation in ABCC9. Subsequently, we discovered novel dominant missense mutations in ABCC9 in 14 of the 16 individuals with Cant{\'u} syndrome examined. The ABCC9 protein is part of an ATP-dependent potassium (K(ATP)) channel that couples the metabolic state of a cell with its electrical activity. All mutations altered amino acids in or close to the transmembrane domains of ABCC9. Using electrophysiological measurements, we show that mutations in ABCC9 reduce the ATP-mediated potassium channel inhibition, resulting in channel opening. Moreover, similarities between the phenotype of individuals with Cant{\'u} syndrome and side effects from the K(ATP) channel agonist minoxidil indicate that the mutations in ABCC9 result in channel opening. Given the availability of ABCC9 antagonists, our findings may have direct implications for the treatment of individuals with Cant{\'u} syndrome.",

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author = "Magdalena Harakalova and {van Harssel}, {Jeske J T} and Terhal, {Paulien A} and {van Lieshout}, Stef and Karen Duran and Ivo Renkens and Amor, {David J} and Wilson, {Louise C} and Kirk, {Edwin P} and Turner, {Claire L S} and Debbie Shears and Sixto Garcia-Minaur and Lees, {Melissa M} and Alison Ross and Hanka Venselaar and Gert Vriend and Hiroki Takanari and Rook, {Martin B} and {van der Heyden}, {Marcel A G} and Asselbergs, {Folkert W} and Breur, {Hans M} and Swinkels, {Marielle E} and Scurr, {Ingrid J} and Smithson, {Sarah F} and Knoers, {Nine V} and {van der Smagt}, {Jasper J} and Nijman, {Isaac J} and Kloosterman, {Wigard P} and {van Haelst}, {Mieke M} and {van Haaften}, Gijs and Edwin Cuppen",

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Harakalova, M, van Harssel, JJT, Terhal, PA, van Lieshout, S, Duran, K, Renkens, I, Amor, DJ, Wilson, LC, Kirk, EP, Turner, CLS, Shears, D, Garcia-Minaur, S, Lees, MM, Ross, A, Venselaar, H, Vriend, G, Takanari, H, Rook, MB, van der Heyden, MAG, Asselbergs, FW, Breur, HM, Swinkels, ME, Scurr, IJ, Smithson, SF, Knoers, NV, van der Smagt, JJ, Nijman, IJ, Kloosterman, WP, van Haelst, MM , van Haaften, G & Cuppen, E 2012, 'Dominant missense mutations in ABCC9 cause Cantú syndrome', Nature Genetics, vol. 44, no. 7, pp. 793-6. https://doi.org/10.1038/ng.2324

TY - JOUR

T1 - Dominant missense mutations in ABCC9 cause Cantú syndrome

AU - Harakalova, Magdalena

AU - van Harssel, Jeske J T

AU - Terhal, Paulien A

AU - van Lieshout, Stef

AU - Duran, Karen

AU - Renkens, Ivo

AU - Amor, David J

AU - Wilson, Louise C

AU - Kirk, Edwin P

AU - Turner, Claire L S

AU - Shears, Debbie

AU - Garcia-Minaur, Sixto

AU - Lees, Melissa M

AU - Ross, Alison

AU - Venselaar, Hanka

AU - Vriend, Gert

AU - Takanari, Hiroki

AU - Rook, Martin B

AU - van der Heyden, Marcel A G

AU - Asselbergs, Folkert W

AU - Breur, Hans M

AU - Swinkels, Marielle E

AU - Scurr, Ingrid J

AU - Smithson, Sarah F

AU - Knoers, Nine V

AU - van der Smagt, Jasper J

AU - Nijman, Isaac J

AU - Kloosterman, Wigard P

AU - van Haelst, Mieke M

AU - van Haaften, Gijs

AU - Cuppen, Edwin

PY - 2012/5/18

Y1 - 2012/5/18

N2 - Cantú syndrome is characterized by congenital hypertrichosis, distinctive facial features, osteochondrodysplasia and cardiac defects. By using family-based exome sequencing, we identified a de novo mutation in ABCC9. Subsequently, we discovered novel dominant missense mutations in ABCC9 in 14 of the 16 individuals with Cantú syndrome examined. The ABCC9 protein is part of an ATP-dependent potassium (K(ATP)) channel that couples the metabolic state of a cell with its electrical activity. All mutations altered amino acids in or close to the transmembrane domains of ABCC9. Using electrophysiological measurements, we show that mutations in ABCC9 reduce the ATP-mediated potassium channel inhibition, resulting in channel opening. Moreover, similarities between the phenotype of individuals with Cantú syndrome and side effects from the K(ATP) channel agonist minoxidil indicate that the mutations in ABCC9 result in channel opening. Given the availability of ABCC9 antagonists, our findings may have direct implications for the treatment of individuals with Cantú syndrome.

AB - Cantú syndrome is characterized by congenital hypertrichosis, distinctive facial features, osteochondrodysplasia and cardiac defects. By using family-based exome sequencing, we identified a de novo mutation in ABCC9. Subsequently, we discovered novel dominant missense mutations in ABCC9 in 14 of the 16 individuals with Cantú syndrome examined. The ABCC9 protein is part of an ATP-dependent potassium (K(ATP)) channel that couples the metabolic state of a cell with its electrical activity. All mutations altered amino acids in or close to the transmembrane domains of ABCC9. Using electrophysiological measurements, we show that mutations in ABCC9 reduce the ATP-mediated potassium channel inhibition, resulting in channel opening. Moreover, similarities between the phenotype of individuals with Cantú syndrome and side effects from the K(ATP) channel agonist minoxidil indicate that the mutations in ABCC9 result in channel opening. Given the availability of ABCC9 antagonists, our findings may have direct implications for the treatment of individuals with Cantú syndrome.

KW - ATP-Binding Cassette Transporters/genetics

KW - Adult

KW - Cardiomegaly/genetics

KW - Cell Line, Transformed

KW - Child

KW - Child, Preschool

KW - Exome

KW - Female

KW - Genetic Diseases, X-Linked/genetics

KW - Genetic Predisposition to Disease

KW - HEK293 Cells

KW - Humans

KW - Hypertrichosis/genetics

KW - Infant

KW - Infant, Newborn

KW - KATP Channels/genetics

KW - Male

KW - Mutation, Missense

KW - Osteochondrodysplasias/genetics

KW - Potassium Channels, Inwardly Rectifying/genetics

KW - Protein Structure, Tertiary/genetics

KW - Receptors, Drug/genetics

KW - Sulfonylurea Receptors

KW - Young Adult

U2 - https://doi.org/10.1038/ng.2324

DO - https://doi.org/10.1038/ng.2324

M3 - Article

C2 - 22610116

SN - 1061-4036

VL - 44

SP - 793

EP - 796

JO - Nature Genetics

JF - Nature Genetics

IS - 7

ER -