ClinVar Miner

Submissions for variant NM_000238.4(KCNH2):c.526C>T (p.Arg176Trp)

gnomAD frequency: 0.00061  dbSNP: rs36210422
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Total submissions: 18
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Submitter RCV SCV Clinical significance Condition Last evaluated Review status Method Comment
GeneDx RCV000058238 SCV000234064 uncertain significance not provided 2024-05-02 criteria provided, single submitter clinical testing Reported in association with LQTS but also present in asymptomatic individuals, control individuals, and individuals who harbor additional cardiogenetic variants referred for genetic testing at GeneDx or in published literature (PMID: 10483966, 10862094, 14661677, 17161064, 16754261, 22067087, 23098067, 24606995, 26063740, 28003625); In silico analysis supports that this missense variant has a deleterious effect on protein structure/function; Electrophysiological studies suggest the presence of the p.(R176W) variant may lead to changes in HERG channel function under various experimental conditions; however, other functional studies suggest that this variant has a benign effect (PMID: 22052944, 16754261, 23303164, 34002542); This variant is associated with the following publications: (PMID: 14661677, 22067087, 25351510, 25467552, 32383558, 22429796, 17161064, 19160088, 24606995, 16754261, 16818214, 17222736, 23098067, 23651034, 22677073, 26063740, 27026928, 28003625, 27650965, 22949429, 28255936, 15176425, 29622001, 15541256, 19673885, 10862094, 19841300, 19862833, 21244686, 20875080, 21956039, 23193492, 22402074, 22659597, 23631430, 25554238, 26749013, 27064559, 30847666, 34002542, 23303164, 28988457, 32048431, 31539150, 31737537, 33517668, 33435129, 34426522, 32659924, 22052944, 10483966, 35640313, 34841674, 35911527, 34309407, 35103483, 37128929, 36860515, 36597672, 36693943, 38219013, 37324772, ZhangH2023[Abstract], 38254962, 36269083, 37614113, 38014677)
Labcorp Genetics (formerly Invitae), Labcorp RCV000199086 SCV000253125 likely benign Long QT syndrome 2024-01-31 criteria provided, single submitter clinical testing
Laboratory for Molecular Medicine, Mass General Brigham Personalized Medicine RCV000181761 SCV000539435 uncertain significance not specified 2017-02-03 criteria provided, single submitter clinical testing Variant identified in a genome or exome case(s) and assessed due to predicted null impact of the variant or pathogenic assertions in the literature or databases. Disclaimer: This variant has not undergone full assessment. The following are preliminary notes: This variant is present in HGMD in 8 papers, in affected and unaffected individuals, with some suggesting benign, others pathogenic and one calling it a Finnish founder mutation. It is classified in ClinVar with 1 star as Likely benign by Invitae, VUS by GeneDx and risk factor by Blueprint genomics. It is not present in ExAC but has a max MAF in gnomAD of 0.12% (10/8048 Finnish alleles and 33 european alleles). Note from April 2016: This variant has not undergone full assessment. The following are preliminary notes: conflicting reports. Also very difficult to do the full NVA because most papers we do not have access at. Possibly upgrade to VUS4? OB 12/28/15: VUS4 based on the full NVA. Heidi agrees that it is VUS4 and does not meet criteria for reporting.
CeGaT Center for Human Genetics Tuebingen RCV000058238 SCV000609283 likely benign not provided 2024-03-01 criteria provided, single submitter clinical testing KCNH2: PP2, PP3, BS2
Women's Health and Genetics/Laboratory Corporation of America, LabCorp RCV000181761 SCV000696033 likely benign not specified 2023-10-31 criteria provided, single submitter clinical testing Variant summary: KCNH2 c.526C>T (p.Arg176Trp) results in a non-conservative amino acid change in the encoded protein sequence. Four of five in-silico tools predict a damaging effect of the variant on protein function. The variant allele was found at a frequency of 0.00035 in 80198 control chromosomes. The observed variant frequency is approximately 2.83 fold of the estimated maximal expected allele frequency for a pathogenic variant in KCNH2 causing Long QT Syndrome phenotype (0.00012), strongly suggesting that the variant is benign. c.526C>T has been reported in the literature in individuals undergoing limited gene to multigene panel testing for Long QT Syndrome/Arrhythmia and continues to be reported as a VUS/risk variant that is enriched in patients referred for diagnostic LQTS gene testing but lacking a molecular diagnosis (panel-negative) (example, Kapa_2009, Koponen_2015, Laitinen_2000, Mank-Seymour_2006, Marjamaa_2009, Swan_1999, van Lint_2019, Vatta_2021, Kozek_2021). These report(s) do not provide unequivocal conclusions about a penetrant inherited association of the variant with Long QT Syndrome. Co-occurrences with other pathogenic variant(s) have been reported (KCNQ1 c.1766G>A, p.Gly589Asp; KCNQ1 IVS7-2A>G), providing supporting evidence for a benign role (example, Koponen_2015, Fodstad_2006). However, the possibility of this variant exerting an additional in vivo phenotypic effect when present simultaneously with an apparent LQTS-causing mutation has also been proposed (Fodstad_2006). At least one publication reports experimental evidence evaluating an impact on protein function. These results showed no damaging effect of this variant as indicated by normal repolarization in the kcnh2-knockdown embryonic zebrafish (example, Jou_2013). The following publications have been ascertained in the context of this evaluation (PMID: 14661677, 16754261, 23303164, 19841300, 26063740, 34309407, 10862094, 17161064, 19160088, 10483966, 33517668, 30847666). Multiple clinical diagnostic laboratories have submitted clinical-significance assessments for this variant to ClinVar after 2014 with conflicting assessments (VUS, n=9, likely benign, n=2, risk factor, n=1). Based on the evidence outlined above, the variant in isolation was classified as likely benign.
Ambry Genetics RCV000617719 SCV000737409 uncertain significance Cardiovascular phenotype 2023-05-30 criteria provided, single submitter clinical testing The p.R176W variant (also known as c.526C>T), located in coding exon 4 of the KCNH2 gene, results from a C to T substitution at nucleotide position 526. The arginine at codon 176 is replaced by tryptophan, an amino acid with dissimilar properties. This alteration has been identified in subjects with long QT syndrome (LQTS) and has been reported as a possible Finnish founder mutation (Swan H, J. Amer. Coll. Cardiol. 1999;34(3):823-9; Laitinen P, Hum. Mutat. 2000; 15(6):580-1; Fodstad H, Ann. Med. 2004;36 Suppl 1:53-63; Marjamaa A, Ann. Med. 2009;41(3):234-40; Donner BC, Cardiol Young. 2012; 22(3):360-3). Several studies indicate that carriers of this variant have moderately prolonged QT intervals on average (Fodstad H, Ann. Med. 2006; 38(4):294-304; Marjamaa A et al. Ann. Med., 2009;41:234-40; Koponen M et al. BMC Med Genet, 2018 04;19:56). However, this alteration has also been identified in apparently healthy individuals (Ackerman MJ et al. Mayo Clin. Proc. 2003;78:1479-87; Fodstad H, Ann. Med. 2006; 38(4):294-304; Maltese PE et al. Int Heart J. 2017;58(1):81-87). Two functional studies suggest this alteration has an impact on protein function (Fodstad H, Ann. Med. 2006 ; 38(4):294-304; Lahti AL, Dis Model Mech 2012 Mar; 5(2):220-30). Other studies do not detect a significant impact on protein function (Männikkö R et al. Br J Pharmacol, 2010 Jan;159:102-14; Jou CJ et al. Circ. Res. 2013;112:826-30; Soh MS et al. Ann Clin Transl Neurol, 2021 07;8:1422-1432). This amino acid position is well conserved in available vertebrate species. In addition, this alteration is predicted to be deleterious by in silico analysis. Since supporting evidence is limited and conflicting at this time, the clinical significance of this alteration remains unclear.
Molecular Diagnostic Laboratory for Inherited Cardiovascular Disease, Montreal Heart Institute RCV000199086 SCV000987628 uncertain significance Long QT syndrome 2022-11-10 criteria provided, single submitter clinical testing Risk factor for disease development: PS4; PP1_strong; PS3_mod; PP2; PP3; BS1; BS2
Mendelics RCV000157257 SCV001137548 uncertain significance Long QT syndrome 2 2019-05-28 criteria provided, single submitter clinical testing
Centre for Mendelian Genomics, University Medical Centre Ljubljana RCV001196177 SCV001366712 uncertain significance Short QT syndrome type 1 2019-01-21 criteria provided, single submitter clinical testing This variant was classified as: Uncertain significance. The following ACMG criteria were applied in classifying this variant: PP3.
Institute of Human Genetics, University of Leipzig Medical Center RCV000157257 SCV001440634 likely benign Long QT syndrome 2 2019-01-01 criteria provided, single submitter clinical testing
Institute of Human Genetics, University Hospital Muenster RCV002222158 SCV002499699 uncertain significance See cases 2022-04-08 criteria provided, single submitter clinical testing ACMG categories: PM2,PP3
MGZ Medical Genetics Center RCV000157257 SCV002580145 uncertain significance Long QT syndrome 2 2022-05-31 criteria provided, single submitter clinical testing
Dept of Medical Biology, Uskudar University RCV000199086 SCV004021959 uncertain significance Long QT syndrome 2024-01-08 criteria provided, single submitter research Criteria: BS1, PP2, PP3
Illumina Laboratory Services, Illumina RCV000157257 SCV004801476 uncertain significance Long QT syndrome 2 2018-11-09 criteria provided, single submitter clinical testing The KCNH2 c.526C>T p.(Arg176Trp) missense has been widely reported in association with long QT syndrome (LQTS) and described as a founder variant in the Finnish population. Across a selection of the available literature, the variant has been identified in a heterozygous state in at least 100 of approximately 3,000 patients with LQTS or prolonged QTc intervals, and a significant increase in QTc in carriers compared to non-carriers has been demonstrated (Swan et al. 1999; Laitinen et al. 2000; Ackerman et al. 2003; Tester et al. 2006; Fodstad et al. 2004; Fodstad et al. 2006; Marjamaa et al. 2009; Giudicessi et al. 2012; Lahtinen et al. 2013; Koponen et al. 2015). Notably, however, many individual carriers remain asymptomatic and have QTc intervals that do not meet diagnostic criteria for LQTS. The variant has also been proposed to act as a risk factor for cardiac events; Koponen et al. (2018) reported a hazard ratio of cardiac events at age 18-40 years, before initiation of beta-blocker therapy, of 5.87 (95% CI 2.89-11.9). The p.(Arg176Trp) variant has also been identified in a compound or double heterozygous state with a second pathogenic variant, suggesting it may exert a modifying effect. This variant is reported at a frequency of 0.001231 in the European (Finnish) population of the Genome Aggregation Database (version 2.1.). This frequency is higher than expected given the known prevalence, penetrance, and inheritance of LQTS. Functional studies of the p.(Arg176Trp) variant have provided conflicting results. When the variant was expressed independently in COS-7 cells, a reduction in current density and tail current to approximately 25% of wildtype and a slight acceleration of deactivation kinetics was observed (Fostad et al. 2006). However, when co-expressed with wildtype, the current reduction was no longer present, suggesting the absence of a dominant-negative effect. In cardiomyocytes derived from iPS cells from an asymptomatic carrier, the rapid delayed potassium channel density was significantly reduced, and at low beating rates, the repolarization time was significantly prolonged compared to that in control cells (Lahti et al. 2012). However, no positive control variants were included and the potential influence of additional variants in the carrier from whom the cells originated was not excluded. In addition, in zebrafish, both wildtype and R176W KCNH2 showed a similar ability to rescue the effect of morpholino-mediated gene knockdown, suggesting a benign effect of the variant (Jou et al. 2013). This variant affects a conserved residue but is not located in a mutational hotspot or functional domain. While missense variants are a known mechanism of disease for LQTS, benign missense variants have been reported, including in the region surrounding position 176. Based on the collective evidence, the c.526C>T p.(Arg176Trp) variant is classified as a variant of uncertain significance for long QT syndrome.
Cardiovascular Biomedical Research Unit, Royal Brompton & Harefield NHS Foundation Trust RCV000058238 SCV000089758 not provided not provided no assertion provided literature only This variant has been reported in the following publications (PMID:10483966;PMID:10862094;PMID:14661677;PMID:16818214;PMID:17161064;PMID:19160088;PMID:19841300;PMID:19862833;PMID:16754261;PMID:22052944;PMID:22429796).
Blueprint Genetics RCV000157257 SCV000206987 risk factor Long QT syndrome 2 2015-09-24 flagged submission clinical testing
Clinical Molecular Genetics Laboratory, Johns Hopkins All Children's Hospital RCV000181761 SCV000804989 uncertain significance not specified 2015-11-10 no assertion criteria provided clinical testing
Zotz-Klimas Genetics Lab, MVZ Zotz Klimas RCV000157257 SCV004171560 uncertain significance Long QT syndrome 2 2023-11-24 no assertion criteria provided clinical testing

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