Reclassification of a likely pathogenic Dutch founder variant in KCNH2; implications of reduced penetrance

Jaël S. Copier; Marianne Bootsma; Chai A. Ng; Arthur A. M. Wilde; Robin A. Bertels; Hennie Bikker; Imke Christiaans; Saskia N. van der Crabben; Janna A. Hol; Tamara T. Koopmann; Jeroen Knijnenburg; Aafke A. J. Lommerse; Jasper J. van der Smagt; Connie R. Bezzina; Jamie I. Vandenberg; Arie O. Verkerk; Daniela Q. C. M. Barge-Schaapveld; Elisabeth M. Lodder

doi:10.1093/hmg/ddac261

Reclassification of a likely pathogenic Dutch founder variant in KCNH2; implications of reduced penetrance

Jaël S. Copier, Marianne Bootsma, Chai A. Ng, Arthur A. M. Wilde, Robin A. Bertels, Hennie Bikker, Imke Christiaans, Saskia N. van der Crabben, Janna A. Hol, Tamara T. Koopmann, Jeroen Knijnenburg, Aafke A. J. Lommerse, Jasper J. van der Smagt, Connie R. Bezzina, Jamie I. Vandenberg, Arie O. Verkerk, Daniela Q. C. M. Barge-Schaapveld, Elisabeth M. Lodder

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

Abstract

BACKGROUND: Variants in KCNH2, encoding the human ether a-go-go (hERG) channel that is responsible for the rapid component of the cardiac delayed rectifier K+ current (IKr), are causal to long QT syndrome type 2 (LQTS2). We identified eight index patients with a new variant of unknown significance (VUS), KCNH2:c.2717C > T:p.(Ser906Leu). We aimed to elucidate the biophysiological effect of this variant, to enable reclassification and consequent clinical decision-making. METHODS: A genotype-phenotype overview of the patients and relatives was created. The biophysiological effects were assessed independently by manual-, and automated calibrated patch clamp. HEK293a cells expressing (i) wild-type (WT) KCNH2, (ii) KCNH2-p.S906L alone (homozygous, Hm) or (iii) KCNH2-p.S906L in combination with WT (1:1) (heterozygous, Hz) were used for manual patching. Automated patch clamp measured the variants function against known benign and pathogenic variants, using Flp-In T-rex HEK293 KCNH2-variant cell lines. RESULTS: Incomplete penetrance of LQTS2 in KCNH2:p.(Ser906Leu) carriers was observed. In addition, some patients were heterozygous for other VUSs in CACNA1C, PKP2, RYR2 or AKAP9. The phenotype of carriers of KCNH2:p.(Ser906Leu) ranged from asymptomatic to life-threatening arrhythmic events. Manual patch clamp showed a reduced current density by 69.8 and 60.4% in KCNH2-p.S906L-Hm and KCNH2-p.S906L-Hz, respectively. The time constant of activation was significantly increased with 80.1% in KCNH2-p.S906L-Hm compared with KCNH2-WT. Assessment of KCNH2-p.S906L-Hz by calibrated automatic patch clamp assay showed a reduction in current density by 35.6%. CONCLUSION: The reduced current density in the KCNH2-p.S906L-Hz indicates a moderate loss-of-function. Combined with the reduced penetrance and variable phenotype, we conclude that KCNH2:p.(Ser906Leu) is a low penetrant likely pathogenic variant for LQTS2.

Original language	English
Pages (from-to)	1072-1082
Number of pages	11
Journal	Human Molecular Genetics
Volume	32
Issue number	7
DOIs	https://doi.org/10.1093/hmg/ddac261
Publication status	Published - 20 Mar 2023

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Copier, J. S., Bootsma, M., Ng, C. A., Wilde, A. A. M., Bertels, R. A., Bikker, H., Christiaans, I., van der Crabben, S. N., Hol, J. A., Koopmann, T. T., Knijnenburg, J., Lommerse, A. A. J., van der Smagt, J. J., Bezzina, C. R., Vandenberg, J. I., Verkerk, A. O., Barge-Schaapveld, D. Q. C. M., & Lodder, E. M. (2023). Reclassification of a likely pathogenic Dutch founder variant in KCNH2; implications of reduced penetrance. Human Molecular Genetics, 32(7), 1072-1082. https://doi.org/10.1093/hmg/ddac261

@article{9b00c3f8987342acbfb946f0292eee55,

title = "Reclassification of a likely pathogenic Dutch founder variant in KCNH2; implications of reduced penetrance",

abstract = "BACKGROUND: Variants in KCNH2, encoding the human ether a-go-go (hERG) channel that is responsible for the rapid component of the cardiac delayed rectifier K+ current (IKr), are causal to long QT syndrome type 2 (LQTS2). We identified eight index patients with a new variant of unknown significance (VUS), KCNH2:c.2717C > T:p.(Ser906Leu). We aimed to elucidate the biophysiological effect of this variant, to enable reclassification and consequent clinical decision-making. METHODS: A genotype-phenotype overview of the patients and relatives was created. The biophysiological effects were assessed independently by manual-, and automated calibrated patch clamp. HEK293a cells expressing (i) wild-type (WT) KCNH2, (ii) KCNH2-p.S906L alone (homozygous, Hm) or (iii) KCNH2-p.S906L in combination with WT (1:1) (heterozygous, Hz) were used for manual patching. Automated patch clamp measured the variants function against known benign and pathogenic variants, using Flp-In T-rex HEK293 KCNH2-variant cell lines. RESULTS: Incomplete penetrance of LQTS2 in KCNH2:p.(Ser906Leu) carriers was observed. In addition, some patients were heterozygous for other VUSs in CACNA1C, PKP2, RYR2 or AKAP9. The phenotype of carriers of KCNH2:p.(Ser906Leu) ranged from asymptomatic to life-threatening arrhythmic events. Manual patch clamp showed a reduced current density by 69.8 and 60.4% in KCNH2-p.S906L-Hm and KCNH2-p.S906L-Hz, respectively. The time constant of activation was significantly increased with 80.1% in KCNH2-p.S906L-Hm compared with KCNH2-WT. Assessment of KCNH2-p.S906L-Hz by calibrated automatic patch clamp assay showed a reduction in current density by 35.6%. CONCLUSION: The reduced current density in the KCNH2-p.S906L-Hz indicates a moderate loss-of-function. Combined with the reduced penetrance and variable phenotype, we conclude that KCNH2:p.(Ser906Leu) is a low penetrant likely pathogenic variant for LQTS2.",

author = "Copier, {Ja{\"e}l S.} and Marianne Bootsma and Ng, {Chai A.} and Wilde, {Arthur A. M.} and Bertels, {Robin A.} and Hennie Bikker and Imke Christiaans and {van der Crabben}, {Saskia N.} and Hol, {Janna A.} and Koopmann, {Tamara T.} and Jeroen Knijnenburg and Lommerse, {Aafke A. J.} and {van der Smagt}, {Jasper J.} and Bezzina, {Connie R.} and Vandenberg, {Jamie I.} and Verkerk, {Arie O.} and Barge-Schaapveld, {Daniela Q. C. M.} and Lodder, {Elisabeth M.}",

note = "Publisher Copyright: {\textcopyright} The Author(s) 2022. Published by Oxford University Press.",

year = "2023",

month = mar,

day = "20",

doi = "10.1093/hmg/ddac261",

language = "English",

volume = "32",

pages = "1072--1082",

journal = "Human Molecular Genetics",

issn = "0964-6906",

publisher = "Oxford University Press",

number = "7",

}

Copier, JS, Bootsma, M, Ng, CA, Wilde, AAM, Bertels, RA, Bikker, H, Christiaans, I, van der Crabben, SN, Hol, JA, Koopmann, TT, Knijnenburg, J, Lommerse, AAJ, van der Smagt, JJ, Bezzina, CR, Vandenberg, JI, Verkerk, AO, Barge-Schaapveld, DQCM & Lodder, EM 2023, 'Reclassification of a likely pathogenic Dutch founder variant in KCNH2; implications of reduced penetrance', Human Molecular Genetics, vol. 32, no. 7, pp. 1072-1082. https://doi.org/10.1093/hmg/ddac261

TY - JOUR

T1 - Reclassification of a likely pathogenic Dutch founder variant in KCNH2; implications of reduced penetrance

AU - Copier, Jaël S.

AU - Bootsma, Marianne

AU - Ng, Chai A.

AU - Wilde, Arthur A. M.

AU - Bertels, Robin A.

AU - Bikker, Hennie

AU - Christiaans, Imke

AU - van der Crabben, Saskia N.

AU - Hol, Janna A.

AU - Koopmann, Tamara T.

AU - Knijnenburg, Jeroen

AU - Lommerse, Aafke A. J.

AU - van der Smagt, Jasper J.

AU - Bezzina, Connie R.

AU - Vandenberg, Jamie I.

AU - Verkerk, Arie O.

AU - Barge-Schaapveld, Daniela Q. C. M.

AU - Lodder, Elisabeth M.

PY - 2023/3/20

Y1 - 2023/3/20

N2 - BACKGROUND: Variants in KCNH2, encoding the human ether a-go-go (hERG) channel that is responsible for the rapid component of the cardiac delayed rectifier K+ current (IKr), are causal to long QT syndrome type 2 (LQTS2). We identified eight index patients with a new variant of unknown significance (VUS), KCNH2:c.2717C > T:p.(Ser906Leu). We aimed to elucidate the biophysiological effect of this variant, to enable reclassification and consequent clinical decision-making. METHODS: A genotype-phenotype overview of the patients and relatives was created. The biophysiological effects were assessed independently by manual-, and automated calibrated patch clamp. HEK293a cells expressing (i) wild-type (WT) KCNH2, (ii) KCNH2-p.S906L alone (homozygous, Hm) or (iii) KCNH2-p.S906L in combination with WT (1:1) (heterozygous, Hz) were used for manual patching. Automated patch clamp measured the variants function against known benign and pathogenic variants, using Flp-In T-rex HEK293 KCNH2-variant cell lines. RESULTS: Incomplete penetrance of LQTS2 in KCNH2:p.(Ser906Leu) carriers was observed. In addition, some patients were heterozygous for other VUSs in CACNA1C, PKP2, RYR2 or AKAP9. The phenotype of carriers of KCNH2:p.(Ser906Leu) ranged from asymptomatic to life-threatening arrhythmic events. Manual patch clamp showed a reduced current density by 69.8 and 60.4% in KCNH2-p.S906L-Hm and KCNH2-p.S906L-Hz, respectively. The time constant of activation was significantly increased with 80.1% in KCNH2-p.S906L-Hm compared with KCNH2-WT. Assessment of KCNH2-p.S906L-Hz by calibrated automatic patch clamp assay showed a reduction in current density by 35.6%. CONCLUSION: The reduced current density in the KCNH2-p.S906L-Hz indicates a moderate loss-of-function. Combined with the reduced penetrance and variable phenotype, we conclude that KCNH2:p.(Ser906Leu) is a low penetrant likely pathogenic variant for LQTS2.

AB - BACKGROUND: Variants in KCNH2, encoding the human ether a-go-go (hERG) channel that is responsible for the rapid component of the cardiac delayed rectifier K+ current (IKr), are causal to long QT syndrome type 2 (LQTS2). We identified eight index patients with a new variant of unknown significance (VUS), KCNH2:c.2717C > T:p.(Ser906Leu). We aimed to elucidate the biophysiological effect of this variant, to enable reclassification and consequent clinical decision-making. METHODS: A genotype-phenotype overview of the patients and relatives was created. The biophysiological effects were assessed independently by manual-, and automated calibrated patch clamp. HEK293a cells expressing (i) wild-type (WT) KCNH2, (ii) KCNH2-p.S906L alone (homozygous, Hm) or (iii) KCNH2-p.S906L in combination with WT (1:1) (heterozygous, Hz) were used for manual patching. Automated patch clamp measured the variants function against known benign and pathogenic variants, using Flp-In T-rex HEK293 KCNH2-variant cell lines. RESULTS: Incomplete penetrance of LQTS2 in KCNH2:p.(Ser906Leu) carriers was observed. In addition, some patients were heterozygous for other VUSs in CACNA1C, PKP2, RYR2 or AKAP9. The phenotype of carriers of KCNH2:p.(Ser906Leu) ranged from asymptomatic to life-threatening arrhythmic events. Manual patch clamp showed a reduced current density by 69.8 and 60.4% in KCNH2-p.S906L-Hm and KCNH2-p.S906L-Hz, respectively. The time constant of activation was significantly increased with 80.1% in KCNH2-p.S906L-Hm compared with KCNH2-WT. Assessment of KCNH2-p.S906L-Hz by calibrated automatic patch clamp assay showed a reduction in current density by 35.6%. CONCLUSION: The reduced current density in the KCNH2-p.S906L-Hz indicates a moderate loss-of-function. Combined with the reduced penetrance and variable phenotype, we conclude that KCNH2:p.(Ser906Leu) is a low penetrant likely pathogenic variant for LQTS2.

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UR - https://www.ncbi.nlm.nih.gov/pubmed/36269083

U2 - 10.1093/hmg/ddac261

DO - 10.1093/hmg/ddac261

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C2 - 36269083

SN - 0964-6906

VL - 32

SP - 1072

EP - 1082

JO - Human Molecular Genetics

JF - Human Molecular Genetics

IS - 7

ER -

Reclassification of a likely pathogenic Dutch founder variant in KCNH2; implications of reduced penetrance

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