Genetic resiliency associated with dominant lethal TPM1 mutation causing atrial septal defect with high heritability

Polakit Teekakirikul; Wenjuan Zhu; Xinxiu Xu; Cullen B Young; Tuantuan Tan; Amanda M Smith; Chengdong Wang; Kevin A Peterson; George C Gabriel; Sebastian Ho; Yi Sheng; Anne Moreau de Bellaing; Daniel A Sonnenberg; Jiuann-Huey Lin; Elisavet Fotiou; Gennadiy Tenin; Michael X Wang; Yijen L Wu; Timothy Feinstein; William Devine; Honglan Gou; Abha S Bais; Benjamin J Glennon; Maliha Zahid; Timothy C Wong; Ferhaan Ahmad; Michael J Rynkiewicz; William J Lehman; Bernard Keavney; Tero-Pekka Alastalo; Mary-Louise Freckmann; Kyle Orwig; Steve Murray; Stephanie M Ware; Hui Zhao; Brian Feingold; Cecilia W Lo

doi:10.1016/j.xcrm.2021.100501

Genetic resiliency associated with dominant lethal TPM1 mutation causing atrial septal defect with high heritability

Polakit Teekakirikul
, Wenjuan Zhu
, Xinxiu Xu
, Cullen B Young
, Tuantuan Tan
, Amanda M Smith
, Chengdong Wang
, Kevin A Peterson
, George C Gabriel
, Sebastian Ho
, Yi Sheng
, Anne Moreau de Bellaing
, Daniel A Sonnenberg
, Jiuann-Huey Lin
, Elisavet Fotiou
, Gennadiy Tenin
, Michael X Wang
, Yijen L Wu
, Timothy Feinstein
, William Devine

Honglan Gou, Abha S Bais, Benjamin J Glennon, Maliha Zahid, Timothy C Wong, Ferhaan Ahmad, Michael J Rynkiewicz, William J Lehman, Bernard Keavney, Tero-Pekka Alastalo, Mary-Louise Freckmann, Kyle Orwig, Steve Murray, Stephanie M Ware, Hui Zhao, Brian Feingold, Cecilia W Lo

Division of Cardiovascular Sciences (L5)

Research output: Contribution to journal › Article

Abstract

Analysis of large-scale human genomic data has yielded unexplained mutations known to cause severe disease in healthy individuals. Here, we report the unexpected recovery of a rare dominant lethal mutation in TPM1, a sarcomeric actin-binding protein, in eight individuals with large atrial septal defect (ASD) in a five-generation pedigree. Mice with Tpm1 mutation exhibit early embryonic lethality with disrupted myofibril assembly and no heartbeat. However, patient-induced pluripotent-stem-cell-derived cardiomyocytes show normal beating with mild myofilament defect, indicating disease suppression. A variant in TLN2, another myofilament actin-binding protein, is identified as a candidate suppressor. Mouse CRISPR knock-in (KI) of both the TLN2 and TPM1 variants rescues heart beating, with near-term fetuses exhibiting large ASD. Thus, the role of TPM1 in ASD pathogenesis unfolds with suppression of its embryonic lethality by protective TLN2 variant. These findings provide evidence that genetic resiliency can arise with genetic suppression of a deleterious mutation.

Original language	English
Pages (from-to)	100501
Journal	Cell reports. Medicine
Volume	3
Issue number	2
DOIs	https://doi.org/10.1016/j.xcrm.2021.100501
Publication status	Published - 15 Feb 2022

Keywords

Animals
Heart Septal Defects, Atrial/genetics
Humans
Mice
Microfilament Proteins
Mutation/genetics
Myofibrils
Pedigree
Talin
Tropomyosin/genetics

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1016/j.xcrm.2021.100501

Cite this

Teekakirikul, P., Zhu, W., Xu, X., Young, C. B., Tan, T., Smith, A. M., Wang, C., Peterson, K. A., Gabriel, G. C., Ho, S., Sheng, Y., Moreau de Bellaing, A., Sonnenberg, D. A., Lin, J.-H., Fotiou, E., Tenin, G., Wang, M. X., Wu, Y. L., Feinstein, T., ... Lo, C. W. (2022). Genetic resiliency associated with dominant lethal TPM1 mutation causing atrial septal defect with high heritability. Cell reports. Medicine, 3(2), 100501. https://doi.org/10.1016/j.xcrm.2021.100501

@article{93cb4f95427845b7add1e893431ef49b,

title = "Genetic resiliency associated with dominant lethal TPM1 mutation causing atrial septal defect with high heritability",

abstract = "Analysis of large-scale human genomic data has yielded unexplained mutations known to cause severe disease in healthy individuals. Here, we report the unexpected recovery of a rare dominant lethal mutation in TPM1, a sarcomeric actin-binding protein, in eight individuals with large atrial septal defect (ASD) in a five-generation pedigree. Mice with Tpm1 mutation exhibit early embryonic lethality with disrupted myofibril assembly and no heartbeat. However, patient-induced pluripotent-stem-cell-derived cardiomyocytes show normal beating with mild myofilament defect, indicating disease suppression. A variant in TLN2, another myofilament actin-binding protein, is identified as a candidate suppressor. Mouse CRISPR knock-in (KI) of both the TLN2 and TPM1 variants rescues heart beating, with near-term fetuses exhibiting large ASD. Thus, the role of TPM1 in ASD pathogenesis unfolds with suppression of its embryonic lethality by protective TLN2 variant. These findings provide evidence that genetic resiliency can arise with genetic suppression of a deleterious mutation.",

keywords = "Animals, Heart Septal Defects, Atrial/genetics, Humans, Mice, Microfilament Proteins, Mutation/genetics, Myofibrils, Pedigree, Talin, Tropomyosin/genetics",

author = "Polakit Teekakirikul and Wenjuan Zhu and Xinxiu Xu and Young, \{Cullen B\} and Tuantuan Tan and Smith, \{Amanda M\} and Chengdong Wang and Peterson, \{Kevin A\} and Gabriel, \{George C\} and Sebastian Ho and Yi Sheng and \{Moreau de Bellaing\}, Anne and Sonnenberg, \{Daniel A\} and Jiuann-Huey Lin and Elisavet Fotiou and Gennadiy Tenin and Wang, \{Michael X\} and Wu, \{Yijen L\} and Timothy Feinstein and William Devine and Honglan Gou and Bais, \{Abha S\} and Glennon, \{Benjamin J\} and Maliha Zahid and Wong, \{Timothy C\} and Ferhaan Ahmad and Rynkiewicz, \{Michael J\} and Lehman, \{William J\} and Bernard Keavney and Tero-Pekka Alastalo and Mary-Louise Freckmann and Kyle Orwig and Steve Murray and Ware, \{Stephanie M\} and Hui Zhao and Brian Feingold and Lo, \{Cecilia W\}",

note = "{\textcopyright} 2021 The Author(s).",

year = "2022",

month = feb,

day = "15",

doi = "10.1016/j.xcrm.2021.100501",

language = "English",

volume = "3",

pages = "100501",

journal = "Cell reports. Medicine",

issn = "2666-3791",

publisher = "Cell Press",

number = "2",

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Teekakirikul, P, Zhu, W, Xu, X, Young, CB, Tan, T, Smith, AM, Wang, C, Peterson, KA, Gabriel, GC, Ho, S, Sheng, Y, Moreau de Bellaing, A, Sonnenberg, DA, Lin, J-H, Fotiou, E, Tenin, G, Wang, MX, Wu, YL, Feinstein, T, Devine, W, Gou, H, Bais, AS, Glennon, BJ, Zahid, M, Wong, TC, Ahmad, F, Rynkiewicz, MJ, Lehman, WJ, Keavney, B, Alastalo, T-P, Freckmann, M-L, Orwig, K, Murray, S, Ware, SM, Zhao, H, Feingold, B & Lo, CW 2022, 'Genetic resiliency associated with dominant lethal TPM1 mutation causing atrial septal defect with high heritability', Cell reports. Medicine, vol. 3, no. 2, pp. 100501. https://doi.org/10.1016/j.xcrm.2021.100501

TY - JOUR

T1 - Genetic resiliency associated with dominant lethal TPM1 mutation causing atrial septal defect with high heritability

AU - Teekakirikul, Polakit

AU - Zhu, Wenjuan

AU - Xu, Xinxiu

AU - Young, Cullen B

AU - Tan, Tuantuan

AU - Smith, Amanda M

AU - Wang, Chengdong

AU - Peterson, Kevin A

AU - Gabriel, George C

AU - Ho, Sebastian

AU - Sheng, Yi

AU - Moreau de Bellaing, Anne

AU - Sonnenberg, Daniel A

AU - Lin, Jiuann-Huey

AU - Fotiou, Elisavet

AU - Tenin, Gennadiy

AU - Wang, Michael X

AU - Wu, Yijen L

AU - Feinstein, Timothy

AU - Devine, William

AU - Gou, Honglan

AU - Bais, Abha S

AU - Glennon, Benjamin J

AU - Zahid, Maliha

AU - Wong, Timothy C

AU - Ahmad, Ferhaan

AU - Rynkiewicz, Michael J

AU - Lehman, William J

AU - Keavney, Bernard

AU - Alastalo, Tero-Pekka

AU - Freckmann, Mary-Louise

AU - Orwig, Kyle

AU - Murray, Steve

AU - Ware, Stephanie M

AU - Zhao, Hui

AU - Feingold, Brian

AU - Lo, Cecilia W

PY - 2022/2/15

Y1 - 2022/2/15

N2 - Analysis of large-scale human genomic data has yielded unexplained mutations known to cause severe disease in healthy individuals. Here, we report the unexpected recovery of a rare dominant lethal mutation in TPM1, a sarcomeric actin-binding protein, in eight individuals with large atrial septal defect (ASD) in a five-generation pedigree. Mice with Tpm1 mutation exhibit early embryonic lethality with disrupted myofibril assembly and no heartbeat. However, patient-induced pluripotent-stem-cell-derived cardiomyocytes show normal beating with mild myofilament defect, indicating disease suppression. A variant in TLN2, another myofilament actin-binding protein, is identified as a candidate suppressor. Mouse CRISPR knock-in (KI) of both the TLN2 and TPM1 variants rescues heart beating, with near-term fetuses exhibiting large ASD. Thus, the role of TPM1 in ASD pathogenesis unfolds with suppression of its embryonic lethality by protective TLN2 variant. These findings provide evidence that genetic resiliency can arise with genetic suppression of a deleterious mutation.

AB - Analysis of large-scale human genomic data has yielded unexplained mutations known to cause severe disease in healthy individuals. Here, we report the unexpected recovery of a rare dominant lethal mutation in TPM1, a sarcomeric actin-binding protein, in eight individuals with large atrial septal defect (ASD) in a five-generation pedigree. Mice with Tpm1 mutation exhibit early embryonic lethality with disrupted myofibril assembly and no heartbeat. However, patient-induced pluripotent-stem-cell-derived cardiomyocytes show normal beating with mild myofilament defect, indicating disease suppression. A variant in TLN2, another myofilament actin-binding protein, is identified as a candidate suppressor. Mouse CRISPR knock-in (KI) of both the TLN2 and TPM1 variants rescues heart beating, with near-term fetuses exhibiting large ASD. Thus, the role of TPM1 in ASD pathogenesis unfolds with suppression of its embryonic lethality by protective TLN2 variant. These findings provide evidence that genetic resiliency can arise with genetic suppression of a deleterious mutation.

KW - Animals

KW - Heart Septal Defects, Atrial/genetics

KW - Humans

KW - Mice

KW - Microfilament Proteins

KW - Mutation/genetics

KW - Myofibrils

KW - Pedigree

KW - Talin

KW - Tropomyosin/genetics

U2 - 10.1016/j.xcrm.2021.100501

DO - 10.1016/j.xcrm.2021.100501

M3 - Article

C2 - 35243414

SN - 2666-3791

VL - 3

SP - 100501

JO - Cell reports. Medicine

JF - Cell reports. Medicine

IS - 2

ER -

Genetic resiliency associated with dominant lethal TPM1 mutation causing atrial septal defect with high heritability

Abstract

Keywords

UN SDGs

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