Abstract
Decreased or increased activity of potassium channels caused by loss-of-function and gain-of-function (GOF) variants in the corresponding genes, respectively, underlies a broad spectrum of human disorders affecting the central nervous system, heart, kidney, and other organs. While the association of epilepsy and intellectual disability (ID) with variants affecting function in genes encoding potassium channels is well known, GOF missense variants in K+ channel encoding genes in individuals with syndromic developmental disorders have only recently been recognized. These syndromic phenotypes include Zimmermann–Laband and Temple–Baraitser syndromes, caused by dominant variants in KCNH1, FHEIG syndrome due to dominant variants in KCNK4, and the clinical picture associated with dominant variants in KCNN3. Here we review the presentation of these individuals, including five newly reported with variants in KCNH1 and three additional individuals with KCNN3 variants, all variants likely affecting function. There is notable overlap in the phenotypic findings of these syndromes associated with dominant KCNN3, KCNH1, and KCNK4 variants, sharing developmental delay and/or ID, coarse facial features, gingival enlargement, distal digital hypoplasia, and hypertrichosis. We suggest to combine the phenotypes and define a new subgroup of potassium channelopathies caused by increased K+ conductance, referred to as syndromic neurodevelopmental K+ channelopathies due to dominant variants in KCNH1, KCNK4, or KCNN3.
Highlights
Potassium (K+) channels form a large and diverse group of ion channels, which are encoded by almost 80 genes in the Medical Center Groningen, Groningen, The Netherlands Department of Genetics, University Medical Center Utrecht, Utrecht, The Netherlands Section of Genetics and Child Development, Children’s Hospital at Dartmouth, Lebanon, NH, USA Division of Genetics, Birth Defects and Metabolism, Ann &Robert H
We studied a total of 36 individuals with a variant likely affecting function in a potassium channel encoding gene, including eight newly reported individuals, and determined the frequency of overlapping clinical features typical for Temple–Baraitser syndrome (TBS), Zimmermann–Laband syndrome (ZLS), and FHEIG syndromes in the 27 individuals with dominant KCNH1 variants, six with dominant KCNN3, and three with dominant KCNK4 variants
The data show that the 36 individuals have an overarching clinical picture, the phenotypes related to each of the three genes exhibit a distinctive constellation of clinical features that may be recognizable by clinical geneticists
Summary
Potassium (K+) channels form a large and diverse group of ion channels, which are encoded by almost 80 genes in the Medical Center Groningen, Groningen, The Netherlands Department of Genetics, University Medical Center Utrecht, Utrecht, The Netherlands Section of Genetics and Child Development, Children’s Hospital at Dartmouth, Lebanon, NH, USA Division of Genetics, Birth Defects and Metabolism, Ann &. Lurie Children’s Hospital of Chicago, Chicago, IL, USA Division of Genetic Medicine, Lausanne University Hospital, Lausanne, Switzerland Institute of Human Genetics, University Medical Center HamburgEppendorf, Hamburg, Germany. K+ channels show diverse gating properties and have various functions in excitable and non-excitable cells. Four α subunits arranged around a central pore segment selective for K+ ions are necessary to build a functional potassium channel. Each α subunit of the channel tetramer has a pore module domain composed of two transmembrane domains, a reentrant pore loop and additional domains which allow responsiveness to different stimuli [4, 5]
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