Author
Listed:
- Marie F. Smeland
(University Hospital of North Norway)
- Conor McClenaghan
(Washington University)
- Helen I. Roessler
(University Medical Center Utrecht)
- Sanne Savelberg
(University Medical Center Utrecht)
- Geir Åsmund Myge Hansen
(University Hospital of North Norway)
- Helene Hjellnes
(University Hospital of North Norway)
- Kjell Arne Arntzen
(University Hospital of North Norway
UiT—The Arctic University of Norway
University Hospital of North Norway)
- Kai Ivar Müller
(University Hospital of North Norway
UiT—The Arctic University of Norway)
- Andreas Rosenberger Dybesland
(University Hospital of North Norway
University Hospital of North Norway)
- Theresa Harter
(Washington University)
- Monica Sala-Rabanal
(Washington University
Washington University)
- Chris H. Emfinger
(Washington University)
- Yan Huang
(Washington University
Renmin Hospital of Wuhan University)
- Soma S. Singareddy
(Washington University)
- Jamie Gunn
(Washington University School of Medicine)
- David F. Wozniak
(Washington University School of Medicine)
- Attila Kovacs
(Washington University School of Medicine)
- Maarten Massink
(University Medical Center Utrecht)
- Federico Tessadori
(University Medical Center Utrecht
Hubrecht Institute-KNAW and UMC Utrecht)
- Sarah M. Kamel
(Hubrecht Institute-KNAW and UMC Utrecht)
- Jeroen Bakkers
(Hubrecht Institute-KNAW and UMC Utrecht
University Medical Center Utrecht)
- Maria S. Remedi
(Washington University)
- Marijke Van Ghelue
(University Hospital of North Norway
the Arctic University of Norway)
- Colin G. Nichols
(Washington University)
- Gijs Haaften
(University Medical Center Utrecht)
Abstract
Mutations in genes encoding KATP channel subunits have been reported for pancreatic disorders and Cantú syndrome. Here, we report a syndrome in six patients from two families with a consistent phenotype of mild intellectual disability, similar facies, myopathy, and cerebral white matter hyperintensities, with cardiac systolic dysfunction present in the two oldest patients. Patients are homozygous for a splice-site mutation in ABCC9 (c.1320 + 1 G > A), which encodes the sulfonylurea receptor 2 (SUR2) subunit of KATP channels. This mutation results in an in-frame deletion of exon 8, which results in non-functional KATP channels in recombinant assays. SUR2 loss-of-function causes fatigability and cardiac dysfunction in mice, and reduced activity, cardiac dysfunction and ventricular enlargement in zebrafish. We term this channelopathy resulting from loss-of-function of SUR2-containing KATP channels ABCC9-related Intellectual disability Myopathy Syndrome (AIMS). The phenotype differs from Cantú syndrome, which is caused by gain-of-function ABCC9 mutations, reflecting the opposing consequences of KATP loss- versus gain-of-function.
Suggested Citation
Marie F. Smeland & Conor McClenaghan & Helen I. Roessler & Sanne Savelberg & Geir Åsmund Myge Hansen & Helene Hjellnes & Kjell Arne Arntzen & Kai Ivar Müller & Andreas Rosenberger Dybesland & Theresa , 2019.
"ABCC9-related Intellectual disability Myopathy Syndrome is a KATP channelopathy with loss-of-function mutations in ABCC9,"
Nature Communications, Nature, vol. 10(1), pages 1-19, December.
Handle:
RePEc:nat:natcom:v:10:y:2019:i:1:d:10.1038_s41467-019-12428-7
DOI: 10.1038/s41467-019-12428-7
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Citations
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Cited by:
- Mengmeng Wang & Jing-Xiang Wu & Dian Ding & Lei Chen, 2022.
"Structural insights into the mechanism of pancreatic KATP channel regulation by nucleotides,"
Nature Communications, Nature, vol. 13(1), pages 1-10, December.
- Dian Ding & Tianyi Hou & Miao Wei & Jing-Xiang Wu & Lei Chen, 2023.
"The inhibition mechanism of the SUR2A-containing KATP channel by a regulatory helix,"
Nature Communications, Nature, vol. 14(1), pages 1-12, December.
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