Type 8 long QT syndrome: Pathogenic variants in CACNA1C-encoded Cav1.2 cluster in STAC protein binding site

Greg J. Mellor; Pankaj Panwar; Andrea K. Lee; Christian Steinberg; Julie A. Hathaway; Kirsten Bartels; Susan Christian; Seshadri Balaji; Jason D. Roberts; Chris S. Simpson; Nicole J. Boczek; David J. Tester; Andrew E. Radbill; Ngai Shing Mok; Robert M. Hamilton; Elizabeth S. Kaufman; Paul L. Eugenio; Raul Weiss; Craig January; George M. McDaniel; Richard A. Leather; Christopher Erickson; Shelley Falik; Elijah R. Behr; Arthur A.M. Wilde; Shubhayan Sanatani; Michael J. Ackerman; Filip Van Petegem; Andrew D. Krahn; Zachary Laksman

doi:10.1093/europace/euz215

Type 8 long QT syndrome: Pathogenic variants in CACNA1C-encoded Cav1.2 cluster in STAC protein binding site

Greg J. Mellor, Pankaj Panwar, Andrea K. Lee, Christian Steinberg, Julie A. Hathaway, Kirsten Bartels, Susan Christian, Seshadri Balaji, Jason D. Roberts, Chris S. Simpson, Nicole J. Boczek, David J. Tester, Andrew E. Radbill, Ngai Shing Mok, Robert M. Hamilton, Elizabeth S. Kaufman, Paul L. Eugenio, Raul Weiss, Craig January, George M. McDanielRichard A. Leather, Christopher Erickson, Shelley Falik, Elijah R. Behr, Arthur A.M. Wilde, Shubhayan Sanatani, Michael J. Ackerman, Filip Van Petegem, Andrew D. Krahn, Zachary Laksman

Pediatrics

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

15 Scopus citations

Abstract

Aims: Pathogenic gain-of-function variants in CACAN1C cause type-8 long QT syndrome (LQT8). We sought to describe the electrocardiographic features in LQT8 and utilize molecular modelling to gain mechanistic insights into its genetic culprits. Methods and results: Rare variants in CACNA1C were identified from genetic testing laboratories. Treating physicians provided clinical information. Variant pathogenicity was independently assessed according to recent guidelines. Pathogenic (P) and likely pathogenic (LP) variants were mapped onto a 3D modelled structure of the Ca_v1.2 protein. Nine P/LP variants, identified in 23 patients from 19 families with non-syndromic LQTS were identified. Six variants, found in 79% of families, clustered to a 4-residue section in the cytosolic II-III loop region which forms a region capable of binding STAC SH3 domains. Therefore, variants may affect binding of SH3-domain containing proteins. Arrhythmic events occurred in similar proportions of patients with II-III loop variants and with other P/LP variants (53% vs. 48%, P = 0.41) despite shorter QTc intervals (477 ± 31 ms vs. 515 ± 37 ms, P = 0.03). A history of sudden death was reported only in families with II-III loop variants (60% vs. 0%, P = 0.03). The predominant T-wave morphology was a late peaking T wave with a steep descending limb. Exercise testing demonstrated QTc prolongation on standing and at 4 min recovery after exercise. Conclusion: The majority of P/LP variants in patients with CACNA1C-mediated LQT8 cluster in an SH3-binding domain of the cytosolic II-III loop. This represents a 'mutation hotspot' in LQT8. A late-peaking T wave with a steep descending limb and QT prolongation on exercise are commonly seen.

Original language	English (US)
Pages (from-to)	1725-1732
Number of pages	8
Journal	Europace
Volume	21
Issue number	11
DOIs	https://doi.org/10.1093/europace/euz215
State	Published - Nov 1 2019

Keywords

3D crystal structure
CACNA1C
Electrocardiogram
Genetics
Long QT syndrome

ASJC Scopus subject areas

Cardiology and Cardiovascular Medicine
Physiology (medical)

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10.1093/europace/euz215

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Mellor, G. J., Panwar, P., Lee, A. K., Steinberg, C., Hathaway, J. A., Bartels, K., Christian, S., Balaji, S., Roberts, J. D., Simpson, C. S., Boczek, N. J., Tester, D. J., Radbill, A. E., Mok, N. S., Hamilton, R. M., Kaufman, E. S., Eugenio, P. L., Weiss, R., January, C., ... Laksman, Z. (2019). Type 8 long QT syndrome: Pathogenic variants in CACNA1C-encoded Cav1.2 cluster in STAC protein binding site. Europace, 21(11), 1725-1732. https://doi.org/10.1093/europace/euz215

Mellor, GJ, Panwar, P, Lee, AK, Steinberg, C, Hathaway, JA, Bartels, K, Christian, S, Balaji, S, Roberts, JD, Simpson, CS, Boczek, NJ, Tester, DJ, Radbill, AE, Mok, NS, Hamilton, RM, Kaufman, ES, Eugenio, PL, Weiss, R, January, C, McDaniel, GM, Leather, RA, Erickson, C, Falik, S, Behr, ER, Wilde, AAM, Sanatani, S, Ackerman, MJ, Van Petegem, F, Krahn, AD & Laksman, Z 2019, 'Type 8 long QT syndrome: Pathogenic variants in CACNA1C-encoded Cav1.2 cluster in STAC protein binding site', Europace, vol. 21, no. 11, pp. 1725-1732. https://doi.org/10.1093/europace/euz215

@article{ade043c392de4d2b8c2442727d47136a,

title = "Type 8 long QT syndrome: Pathogenic variants in CACNA1C-encoded Cav1.2 cluster in STAC protein binding site",

abstract = "Aims: Pathogenic gain-of-function variants in CACAN1C cause type-8 long QT syndrome (LQT8). We sought to describe the electrocardiographic features in LQT8 and utilize molecular modelling to gain mechanistic insights into its genetic culprits. Methods and results: Rare variants in CACNA1C were identified from genetic testing laboratories. Treating physicians provided clinical information. Variant pathogenicity was independently assessed according to recent guidelines. Pathogenic (P) and likely pathogenic (LP) variants were mapped onto a 3D modelled structure of the Cav1.2 protein. Nine P/LP variants, identified in 23 patients from 19 families with non-syndromic LQTS were identified. Six variants, found in 79% of families, clustered to a 4-residue section in the cytosolic II-III loop region which forms a region capable of binding STAC SH3 domains. Therefore, variants may affect binding of SH3-domain containing proteins. Arrhythmic events occurred in similar proportions of patients with II-III loop variants and with other P/LP variants (53% vs. 48%, P = 0.41) despite shorter QTc intervals (477 ± 31 ms vs. 515 ± 37 ms, P = 0.03). A history of sudden death was reported only in families with II-III loop variants (60% vs. 0%, P = 0.03). The predominant T-wave morphology was a late peaking T wave with a steep descending limb. Exercise testing demonstrated QTc prolongation on standing and at 4 min recovery after exercise. Conclusion: The majority of P/LP variants in patients with CACNA1C-mediated LQT8 cluster in an SH3-binding domain of the cytosolic II-III loop. This represents a 'mutation hotspot' in LQT8. A late-peaking T wave with a steep descending limb and QT prolongation on exercise are commonly seen.",

keywords = "3D crystal structure, CACNA1C, Electrocardiogram, Genetics, Long QT syndrome",

author = "Mellor, {Greg J.} and Pankaj Panwar and Lee, {Andrea K.} and Christian Steinberg and Hathaway, {Julie A.} and Kirsten Bartels and Susan Christian and Seshadri Balaji and Roberts, {Jason D.} and Simpson, {Chris S.} and Boczek, {Nicole J.} and Tester, {David J.} and Radbill, {Andrew E.} and Mok, {Ngai Shing} and Hamilton, {Robert M.} and Kaufman, {Elizabeth S.} and Eugenio, {Paul L.} and Raul Weiss and Craig January and McDaniel, {George M.} and Leather, {Richard A.} and Christopher Erickson and Shelley Falik and Behr, {Elijah R.} and Wilde, {Arthur A.M.} and Shubhayan Sanatani and Ackerman, {Michael J.} and {Van Petegem}, Filip and Krahn, {Andrew D.} and Zachary Laksman",

note = "Publisher Copyright: {\textcopyright} 2019 Published on behalf of the European Society of Cardiology.",

year = "2019",

month = nov,

day = "1",

doi = "10.1093/europace/euz215",

language = "English (US)",

volume = "21",

pages = "1725--1732",

journal = "Europace",

issn = "1099-5129",

publisher = "Oxford University Press",

number = "11",

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TY - JOUR

T1 - Type 8 long QT syndrome

T2 - Pathogenic variants in CACNA1C-encoded Cav1.2 cluster in STAC protein binding site

AU - Mellor, Greg J.

AU - Panwar, Pankaj

AU - Lee, Andrea K.

AU - Steinberg, Christian

AU - Hathaway, Julie A.

AU - Bartels, Kirsten

AU - Christian, Susan

AU - Balaji, Seshadri

AU - Roberts, Jason D.

AU - Simpson, Chris S.

AU - Boczek, Nicole J.

AU - Tester, David J.

AU - Radbill, Andrew E.

AU - Mok, Ngai Shing

AU - Hamilton, Robert M.

AU - Kaufman, Elizabeth S.

AU - Eugenio, Paul L.

AU - Weiss, Raul

AU - January, Craig

AU - McDaniel, George M.

AU - Leather, Richard A.

AU - Erickson, Christopher

AU - Falik, Shelley

AU - Behr, Elijah R.

AU - Wilde, Arthur A.M.

AU - Sanatani, Shubhayan

AU - Ackerman, Michael J.

AU - Van Petegem, Filip

AU - Krahn, Andrew D.

AU - Laksman, Zachary

PY - 2019/11/1

Y1 - 2019/11/1

N2 - Aims: Pathogenic gain-of-function variants in CACAN1C cause type-8 long QT syndrome (LQT8). We sought to describe the electrocardiographic features in LQT8 and utilize molecular modelling to gain mechanistic insights into its genetic culprits. Methods and results: Rare variants in CACNA1C were identified from genetic testing laboratories. Treating physicians provided clinical information. Variant pathogenicity was independently assessed according to recent guidelines. Pathogenic (P) and likely pathogenic (LP) variants were mapped onto a 3D modelled structure of the Cav1.2 protein. Nine P/LP variants, identified in 23 patients from 19 families with non-syndromic LQTS were identified. Six variants, found in 79% of families, clustered to a 4-residue section in the cytosolic II-III loop region which forms a region capable of binding STAC SH3 domains. Therefore, variants may affect binding of SH3-domain containing proteins. Arrhythmic events occurred in similar proportions of patients with II-III loop variants and with other P/LP variants (53% vs. 48%, P = 0.41) despite shorter QTc intervals (477 ± 31 ms vs. 515 ± 37 ms, P = 0.03). A history of sudden death was reported only in families with II-III loop variants (60% vs. 0%, P = 0.03). The predominant T-wave morphology was a late peaking T wave with a steep descending limb. Exercise testing demonstrated QTc prolongation on standing and at 4 min recovery after exercise. Conclusion: The majority of P/LP variants in patients with CACNA1C-mediated LQT8 cluster in an SH3-binding domain of the cytosolic II-III loop. This represents a 'mutation hotspot' in LQT8. A late-peaking T wave with a steep descending limb and QT prolongation on exercise are commonly seen.

AB - Aims: Pathogenic gain-of-function variants in CACAN1C cause type-8 long QT syndrome (LQT8). We sought to describe the electrocardiographic features in LQT8 and utilize molecular modelling to gain mechanistic insights into its genetic culprits. Methods and results: Rare variants in CACNA1C were identified from genetic testing laboratories. Treating physicians provided clinical information. Variant pathogenicity was independently assessed according to recent guidelines. Pathogenic (P) and likely pathogenic (LP) variants were mapped onto a 3D modelled structure of the Cav1.2 protein. Nine P/LP variants, identified in 23 patients from 19 families with non-syndromic LQTS were identified. Six variants, found in 79% of families, clustered to a 4-residue section in the cytosolic II-III loop region which forms a region capable of binding STAC SH3 domains. Therefore, variants may affect binding of SH3-domain containing proteins. Arrhythmic events occurred in similar proportions of patients with II-III loop variants and with other P/LP variants (53% vs. 48%, P = 0.41) despite shorter QTc intervals (477 ± 31 ms vs. 515 ± 37 ms, P = 0.03). A history of sudden death was reported only in families with II-III loop variants (60% vs. 0%, P = 0.03). The predominant T-wave morphology was a late peaking T wave with a steep descending limb. Exercise testing demonstrated QTc prolongation on standing and at 4 min recovery after exercise. Conclusion: The majority of P/LP variants in patients with CACNA1C-mediated LQT8 cluster in an SH3-binding domain of the cytosolic II-III loop. This represents a 'mutation hotspot' in LQT8. A late-peaking T wave with a steep descending limb and QT prolongation on exercise are commonly seen.

KW - 3D crystal structure

KW - CACNA1C

KW - Electrocardiogram

KW - Genetics

KW - Long QT syndrome

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DO - 10.1093/europace/euz215

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JF - Europace

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ER -

Type 8 long QT syndrome: Pathogenic variants in CACNA1C-encoded Cav1.2 cluster in STAC protein binding site

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