Bi-allelic variants in POPDC2 cause an autosomal recessive syndrome presenting with cardiac conduction defects and hypertrophic cardiomyopathy

Michele Nicastro; Alexa M. C. Vermeer; Pieter G. Postema; Rafik Tadros; Forrest Z. Bowling; Hildur M. Aegisdottir; Vinicius Tragante; Lukas Mach; Alex V. Postma; Elisabeth M. Lodder; Karel van Duijvenboden; Rob Zwart; Leander Beekman; Lingshuang Wu; Sean J. Jurgens; Paul A. van der Zwaag; Mariëlle Alders; Mona Allouba; Yasmine Aguib; J. Luis Santome; David de Una; Lorenzo Monserrat; Antonio M. A. Miranda; Kazumasa Kanemaru; James Cranley; Ingeborg E. van Zeggeren; Eleonora M. A. Aronica; Michela Ripolone; Simona Zanotti; Gardar Sveinbjornsson; Erna V. Ivarsdottir; Hilma Hólm; Daníel F. Guðbjartsson; Ástrós Th Skúladóttir; Kári Stefánsson; Lincoln Nadauld; Kirk U. Knowlton; Sisse Rye Ostrowski; Erik Sørensen; Ole Birger Vesterager Pedersen; Jonas Ghouse; Søren A. Rand; Henning Bundgaard; Henrik Ullum; Christian Erikstrup; Bitten Aagaard; Mie Topholm Bruun; Mette Christiansen; Henrik K. Jensen; Deanna Alexis Carere; Christopher T. Cummings; Kristen Fishler; Pernille Mathiesen Tørring; Klaus Brusgaard; Trine Maxel Juul; Lotte Saaby; Bo Gregers Winkel; Jens Mogensen; Francesco Fortunato; Giacomo Pietro Comi; Dario Ronchi; J. Peter van Tintelen; Michela Noseda; Michael V. Airola; Imke Christiaans; Arthur A. M. Wilde; Ronald Wilders; Sally-Ann Clur; Arie O. Verkerk; Connie R. Bezzina; Najim Lahrouchi

doi:10.1016/j.ajhg.2025.04.016

Bi-allelic variants in POPDC2 cause an autosomal recessive syndrome presenting with cardiac conduction defects and hypertrophic cardiomyopathy

Michele Nicastro, Alexa M. C. Vermeer, Pieter G. Postema, Rafik Tadros, Forrest Z. Bowling, Hildur M. Aegisdottir, Vinicius Tragante, Lukas Mach, Alex V. Postma, Elisabeth M. Lodder, Karel van Duijvenboden, Rob Zwart, Leander Beekman, Lingshuang Wu, Sean J. Jurgens, Paul A. van der Zwaag, Mariëlle Alders, Mona Allouba, Yasmine Aguib, J. Luis SantomeDavid de Una, Lorenzo Monserrat, Antonio M. A. Miranda, Kazumasa Kanemaru, James Cranley, Ingeborg E. van Zeggeren, Eleonora M. A. Aronica, Michela Ripolone, Simona Zanotti, Gardar Sveinbjornsson, Erna V. Ivarsdottir, Hilma Hólm, Daníel F. Guðbjartsson, Ástrós Th Skúladóttir, Kári Stefánsson, Lincoln Nadauld, Kirk U. Knowlton, Sisse Rye Ostrowski, Erik Sørensen, Ole Birger Vesterager Pedersen, Jonas Ghouse, Søren A. Rand, Henning Bundgaard, Henrik Ullum, Christian Erikstrup, Bitten Aagaard, Mie Topholm Bruun, Mette Christiansen, Henrik K. Jensen, Deanna Alexis Carere, Christopher T. Cummings, Kristen Fishler, Pernille Mathiesen Tørring, Klaus Brusgaard, Trine Maxel Juul, Lotte Saaby, Bo Gregers Winkel, Jens Mogensen, Francesco Fortunato, Giacomo Pietro Comi, Dario Ronchi, J. Peter van Tintelen, Michela Noseda, Michael V. Airola, Imke Christiaans, Arthur A. M. Wilde, Ronald Wilders, Sally-Ann Clur, Arie O. Verkerk, Connie R. Bezzina, Najim Lahrouchi^*

^*Corresponding author af dette arbejde

Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › peer review

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Abstract

POPDC2 encodes the Popeye domain-containing protein 2, which has an important role in cardiac pacemaking and conduction, due in part to its cyclic AMP (cAMP)-dependent binding and regulation of TREK-1 potassium channels. Loss of Popdc2 in mice results in sinus pauses and bradycardia, and morpholino-mediated knockdown of popdc2 in zebrafish results in atrioventricular (AV) block. We identified bi-allelic variants in POPDC2 in four families with a phenotypic spectrum consisting of sinus node dysfunction, AV conduction defects, and hypertrophic cardiomyopathy. Using homology modeling, we show that the identified variants are predicted to diminish the ability of POPDC2 to bind cAMP. In in vitro electrophysiological studies, we demonstrated that, in contrast with wild-type POPDC2, variants found in affected individuals failed to increase TREK-1 current density. While muscle biopsy of an affected individual did not show clear myopathic disease, it showed significantly reduced abundance of both POPDC1 and POPDC2, suggesting that stability and/or membrane trafficking of the POPDC1-POPDC2 complex is impaired by pathogenic variants in either protein. Single-cell RNA sequencing from human hearts demonstrated that co-expression of POPDC1 and POPDC2 was most prevalent in AV node, AV node pacemaker, and AV bundle cells. Using population-level genetic data of more than 1 million individuals, we show that none of the familial variants were associated with clinical outcomes in heterozygous state, suggesting that heterozygous family members are unlikely to develop clinical manifestations and therefore might not necessitate clinical follow-up. Our findings provide evidence for bi-allelic variants in POPDC2 causing a Mendelian autosomal recessive cardiac syndrome.

Originalsprog	Engelsk
Tidsskrift	American Journal of Human Genetics
Vol/bind	112
Udgave nummer	7
Sider (fra-til)	1681-1698
Antal sider	18
ISSN	0002-9297
DOI	https://doi.org/10.1016/j.ajhg.2025.04.016
Status	Udgivet - 2025

Bibliografisk note

Publisher Copyright:
© 2025 The Author(s)

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10.1016/j.ajhg.2025.04.016Licens: CC BY

Full textForlagets udgivne version, 33,9 MBLicens: CC BY

Citationsformater

Nicastro, M., Vermeer, A. M. C., Postema, P. G., Tadros, R., Bowling, F. Z., Aegisdottir, H. M., Tragante, V., Mach, L., Postma, A. V., Lodder, E. M., van Duijvenboden, K., Zwart, R., Beekman, L., Wu, L., Jurgens, S. J., van der Zwaag, P. A., Alders, M., Allouba, M., Aguib, Y., ... Lahrouchi, N. (2025). Bi-allelic variants in POPDC2 cause an autosomal recessive syndrome presenting with cardiac conduction defects and hypertrophic cardiomyopathy. American Journal of Human Genetics, 112(7), 1681-1698. https://doi.org/10.1016/j.ajhg.2025.04.016

Bi-allelic variants in POPDC2 cause an autosomal recessive syndrome presenting with cardiac conduction defects and hypertrophic cardiomyopathy. / Nicastro, Michele; Vermeer, Alexa M. C.; Postema, Pieter G. et al.
I: American Journal of Human Genetics, Bind 112, Nr. 7, 2025, s. 1681-1698.

Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › peer review

Nicastro, M, Vermeer, AMC, Postema, PG, Tadros, R, Bowling, FZ, Aegisdottir, HM, Tragante, V, Mach, L, Postma, AV, Lodder, EM, van Duijvenboden, K, Zwart, R, Beekman, L, Wu, L, Jurgens, SJ, van der Zwaag, PA, Alders, M, Allouba, M, Aguib, Y, Santome, JL, de Una, D, Monserrat, L, Miranda, AMA, Kanemaru, K, Cranley, J, van Zeggeren, IE, Aronica, EMA, Ripolone, M, Zanotti, S, Sveinbjornsson, G, Ivarsdottir, EV, Hólm, H, Guðbjartsson, DF, Skúladóttir, ÁT, Stefánsson, K, Nadauld, L, Knowlton, KU, Ostrowski, SR, Sørensen, E, Pedersen, OBV, Ghouse, J, Rand, SA, Bundgaard, H, Ullum, H, Erikstrup, C, Aagaard, B, Bruun, MT, Christiansen, M, Jensen, HK, Carere, DA, Cummings, CT, Fishler, K, Tørring, PM, Brusgaard, K, Juul, TM, Saaby, L, Winkel, BG, Mogensen, J, Fortunato, F, Comi, GP, Ronchi, D, van Tintelen, JP, Noseda, M, Airola, MV, Christiaans, I, Wilde, AAM, Wilders, R, Clur, S-A, Verkerk, AO, Bezzina, CR & Lahrouchi, N 2025, 'Bi-allelic variants in POPDC2 cause an autosomal recessive syndrome presenting with cardiac conduction defects and hypertrophic cardiomyopathy', American Journal of Human Genetics, bind 112, nr. 7, s. 1681-1698. https://doi.org/10.1016/j.ajhg.2025.04.016

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title = "Bi-allelic variants in POPDC2 cause an autosomal recessive syndrome presenting with cardiac conduction defects and hypertrophic cardiomyopathy",

abstract = "POPDC2 encodes the Popeye domain-containing protein 2, which has an important role in cardiac pacemaking and conduction, due in part to its cyclic AMP (cAMP)-dependent binding and regulation of TREK-1 potassium channels. Loss of Popdc2 in mice results in sinus pauses and bradycardia, and morpholino-mediated knockdown of popdc2 in zebrafish results in atrioventricular (AV) block. We identified bi-allelic variants in POPDC2 in four families with a phenotypic spectrum consisting of sinus node dysfunction, AV conduction defects, and hypertrophic cardiomyopathy. Using homology modeling, we show that the identified variants are predicted to diminish the ability of POPDC2 to bind cAMP. In in vitro electrophysiological studies, we demonstrated that, in contrast with wild-type POPDC2, variants found in affected individuals failed to increase TREK-1 current density. While muscle biopsy of an affected individual did not show clear myopathic disease, it showed significantly reduced abundance of both POPDC1 and POPDC2, suggesting that stability and/or membrane trafficking of the POPDC1-POPDC2 complex is impaired by pathogenic variants in either protein. Single-cell RNA sequencing from human hearts demonstrated that co-expression of POPDC1 and POPDC2 was most prevalent in AV node, AV node pacemaker, and AV bundle cells. Using population-level genetic data of more than 1 million individuals, we show that none of the familial variants were associated with clinical outcomes in heterozygous state, suggesting that heterozygous family members are unlikely to develop clinical manifestations and therefore might not necessitate clinical follow-up. Our findings provide evidence for bi-allelic variants in POPDC2 causing a Mendelian autosomal recessive cardiac syndrome.",

keywords = "AV conduction defects, cardiac arrhythmia, hypertrophic cardiomyopathy, population genetics, sinus node disease",

author = "Michele Nicastro and Vermeer, {Alexa M. C.} and Postema, {Pieter G.} and Rafik Tadros and Bowling, {Forrest Z.} and Aegisdottir, {Hildur M.} and Vinicius Tragante and Lukas Mach and Postma, {Alex V.} and Lodder, {Elisabeth M.} and {van Duijvenboden}, Karel and Rob Zwart and Leander Beekman and Lingshuang Wu and Jurgens, {Sean J.} and {van der Zwaag}, {Paul A.} and Mari{\"e}lle Alders and Mona Allouba and Yasmine Aguib and Santome, {J. Luis} and {de Una}, David and Lorenzo Monserrat and Miranda, {Antonio M. A.} and Kazumasa Kanemaru and James Cranley and {van Zeggeren}, {Ingeborg E.} and Aronica, {Eleonora M. A.} and Michela Ripolone and Simona Zanotti and Gardar Sveinbjornsson and Ivarsdottir, {Erna V.} and Hilma H{\'o}lm and Gu{\dh}bjartsson, {Dan{\'i}el F.} and Sk{\'u}lad{\'o}ttir, {{\'A}str{\'o}s Th} and K{\'a}ri Stef{\'a}nsson and Lincoln Nadauld and Knowlton, {Kirk U.} and Ostrowski, {Sisse Rye} and Erik S{\o}rensen and Pedersen, {Ole Birger Vesterager} and Jonas Ghouse and Rand, {S{\o}ren A.} and Henning Bundgaard and Henrik Ullum and Christian Erikstrup and Bitten Aagaard and Bruun, {Mie Topholm} and Mette Christiansen and Jensen, {Henrik K.} and Carere, {Deanna Alexis} and Cummings, {Christopher T.} and Kristen Fishler and T{\o}rring, {Pernille Mathiesen} and Klaus Brusgaard and Juul, {Trine Maxel} and Lotte Saaby and Winkel, {Bo Gregers} and Jens Mogensen and Francesco Fortunato and Comi, {Giacomo Pietro} and Dario Ronchi and {van Tintelen}, {J. Peter} and Michela Noseda and Airola, {Michael V.} and Imke Christiaans and Wilde, {Arthur A. M.} and Ronald Wilders and Sally-Ann Clur and Verkerk, {Arie O.} and Bezzina, {Connie R.} and Najim Lahrouchi",

note = "Publisher Copyright: {\textcopyright} 2025 The Author(s)",

year = "2025",

doi = "10.1016/j.ajhg.2025.04.016",

language = "English",

volume = "112",

pages = "1681--1698",

journal = "American Journal of Human Genetics",

issn = "0002-9297",

publisher = "Cell Press",

number = "7",

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TY - JOUR

T1 - Bi-allelic variants in POPDC2 cause an autosomal recessive syndrome presenting with cardiac conduction defects and hypertrophic cardiomyopathy

AU - Nicastro, Michele

AU - Vermeer, Alexa M. C.

AU - Postema, Pieter G.

AU - Tadros, Rafik

AU - Bowling, Forrest Z.

AU - Aegisdottir, Hildur M.

AU - Tragante, Vinicius

AU - Mach, Lukas

AU - Postma, Alex V.

AU - Lodder, Elisabeth M.

AU - van Duijvenboden, Karel

AU - Zwart, Rob

AU - Beekman, Leander

AU - Wu, Lingshuang

AU - Jurgens, Sean J.

AU - van der Zwaag, Paul A.

AU - Alders, Mariëlle

AU - Allouba, Mona

AU - Aguib, Yasmine

AU - Santome, J. Luis

AU - de Una, David

AU - Monserrat, Lorenzo

AU - Miranda, Antonio M. A.

AU - Kanemaru, Kazumasa

AU - Cranley, James

AU - van Zeggeren, Ingeborg E.

AU - Aronica, Eleonora M. A.

AU - Ripolone, Michela

AU - Zanotti, Simona

AU - Sveinbjornsson, Gardar

AU - Ivarsdottir, Erna V.

AU - Hólm, Hilma

AU - Guðbjartsson, Daníel F.

AU - Skúladóttir, Ástrós Th

AU - Stefánsson, Kári

AU - Nadauld, Lincoln

AU - Knowlton, Kirk U.

AU - Ostrowski, Sisse Rye

AU - Sørensen, Erik

AU - Pedersen, Ole Birger Vesterager

AU - Ghouse, Jonas

AU - Rand, Søren A.

AU - Bundgaard, Henning

AU - Ullum, Henrik

AU - Erikstrup, Christian

AU - Aagaard, Bitten

AU - Bruun, Mie Topholm

AU - Christiansen, Mette

AU - Jensen, Henrik K.

AU - Carere, Deanna Alexis

AU - Cummings, Christopher T.

AU - Fishler, Kristen

AU - Tørring, Pernille Mathiesen

AU - Brusgaard, Klaus

AU - Juul, Trine Maxel

AU - Saaby, Lotte

AU - Winkel, Bo Gregers

AU - Mogensen, Jens

AU - Fortunato, Francesco

AU - Comi, Giacomo Pietro

AU - Ronchi, Dario

AU - van Tintelen, J. Peter

AU - Noseda, Michela

AU - Airola, Michael V.

AU - Christiaans, Imke

AU - Wilde, Arthur A. M.

AU - Wilders, Ronald

AU - Clur, Sally-Ann

AU - Verkerk, Arie O.

AU - Bezzina, Connie R.

AU - Lahrouchi, Najim

PY - 2025

Y1 - 2025

N2 - POPDC2 encodes the Popeye domain-containing protein 2, which has an important role in cardiac pacemaking and conduction, due in part to its cyclic AMP (cAMP)-dependent binding and regulation of TREK-1 potassium channels. Loss of Popdc2 in mice results in sinus pauses and bradycardia, and morpholino-mediated knockdown of popdc2 in zebrafish results in atrioventricular (AV) block. We identified bi-allelic variants in POPDC2 in four families with a phenotypic spectrum consisting of sinus node dysfunction, AV conduction defects, and hypertrophic cardiomyopathy. Using homology modeling, we show that the identified variants are predicted to diminish the ability of POPDC2 to bind cAMP. In in vitro electrophysiological studies, we demonstrated that, in contrast with wild-type POPDC2, variants found in affected individuals failed to increase TREK-1 current density. While muscle biopsy of an affected individual did not show clear myopathic disease, it showed significantly reduced abundance of both POPDC1 and POPDC2, suggesting that stability and/or membrane trafficking of the POPDC1-POPDC2 complex is impaired by pathogenic variants in either protein. Single-cell RNA sequencing from human hearts demonstrated that co-expression of POPDC1 and POPDC2 was most prevalent in AV node, AV node pacemaker, and AV bundle cells. Using population-level genetic data of more than 1 million individuals, we show that none of the familial variants were associated with clinical outcomes in heterozygous state, suggesting that heterozygous family members are unlikely to develop clinical manifestations and therefore might not necessitate clinical follow-up. Our findings provide evidence for bi-allelic variants in POPDC2 causing a Mendelian autosomal recessive cardiac syndrome.

AB - POPDC2 encodes the Popeye domain-containing protein 2, which has an important role in cardiac pacemaking and conduction, due in part to its cyclic AMP (cAMP)-dependent binding and regulation of TREK-1 potassium channels. Loss of Popdc2 in mice results in sinus pauses and bradycardia, and morpholino-mediated knockdown of popdc2 in zebrafish results in atrioventricular (AV) block. We identified bi-allelic variants in POPDC2 in four families with a phenotypic spectrum consisting of sinus node dysfunction, AV conduction defects, and hypertrophic cardiomyopathy. Using homology modeling, we show that the identified variants are predicted to diminish the ability of POPDC2 to bind cAMP. In in vitro electrophysiological studies, we demonstrated that, in contrast with wild-type POPDC2, variants found in affected individuals failed to increase TREK-1 current density. While muscle biopsy of an affected individual did not show clear myopathic disease, it showed significantly reduced abundance of both POPDC1 and POPDC2, suggesting that stability and/or membrane trafficking of the POPDC1-POPDC2 complex is impaired by pathogenic variants in either protein. Single-cell RNA sequencing from human hearts demonstrated that co-expression of POPDC1 and POPDC2 was most prevalent in AV node, AV node pacemaker, and AV bundle cells. Using population-level genetic data of more than 1 million individuals, we show that none of the familial variants were associated with clinical outcomes in heterozygous state, suggesting that heterozygous family members are unlikely to develop clinical manifestations and therefore might not necessitate clinical follow-up. Our findings provide evidence for bi-allelic variants in POPDC2 causing a Mendelian autosomal recessive cardiac syndrome.

KW - AV conduction defects

KW - cardiac arrhythmia

KW - hypertrophic cardiomyopathy

KW - population genetics

KW - sinus node disease

U2 - 10.1016/j.ajhg.2025.04.016

DO - 10.1016/j.ajhg.2025.04.016

M3 - Journal article

C2 - 40409267

AN - SCOPUS:105008947952

SN - 0002-9297

VL - 112

SP - 1681

EP - 1698

JO - American Journal of Human Genetics

JF - American Journal of Human Genetics

IS - 7

ER -