Atrial electrical alterations with intact cardiac structure and contractile function in a mouse model of an HCM-linked ACTN2 variant

Missense variants of Z-disk protein, alpha-actinin-2 (ACTN2), have been linked to hypertrophic cardiomyopathy (HCM). A novel ACTN2 missense variant, M228T, was identified in family members presenting with HCM and/or atrial arrhythmias. Embryonic lethality was previously shown in mice expressing this...

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Published inJournal of Molecular and Cellular Cardiology Plus (Online) Vol. 12; p. 100455
Main Authors Noureddine, Maya, Broadway-Stringer, Sophie, O'Shea, Christopher, Jones, Bethany A.I., Hayes, Abbie, Denning, Chris, Loughna, Siobhan, Mohammed, Fiyaz, Pavlovic, Davor, Gehmlich, Katja
Format Journal Article
LanguageEnglish
Published England Elsevier Ltd 01.06.2025
Elsevier
Subjects
Alpha-actinin-2 (ACTN2)
Atrial electrophysiology
Cardiac remodelling
Hypertrophic cardiomyopathy (HCM)
Original
Pathogenic variants
Pathogenic variants
Hypertrophic cardiomyopathy (HCM)
Atrial electrophysiology
Alpha-actinin-2 (ACTN2)
Cardiac remodelling
Online AccessGet full text
ISSN2772-9761
2772-9761
DOI10.1016/j.jmccpl.2025.100455

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Abstract Missense variants of Z-disk protein, alpha-actinin-2 (ACTN2), have been linked to hypertrophic cardiomyopathy (HCM). A novel ACTN2 missense variant, M228T, was identified in family members presenting with HCM and/or atrial arrhythmias. Embryonic lethality was previously shown in mice expressing this variant homozygously, whereas heterozygous (Het) expression did not manifest an overt HCM phenotype. Importantly, the atrial arrhythmias observed in the identified family have not been explored in the context of M228T, despite many patients exhibiting electrical abnormalities prior to the clinical onset of HCM. Six-month-old Het M228T and wild-type (WT) mice were used to evaluate electrophysiological properties using electrocardiography (ECG) and atrial optical mapping. Echocardiography and strain analysis were employed to assess cardiac structure and function. Het mice exhibited a prolongation in action potential duration and depolarisation time at 30, 50, and 70 % repolarisation in both the left and right atria. No significant alterations in atrial conduction velocity were observed. No changes in atrial ECG parameters were detected. Het mice displayed no evidence of structural remodelling, nor were there any changes in systolic parameters or overt diastolic dysfunction, as assessed by conventional echocardiography and strain analysis. Signs of contractile dyssynchrony were present, specifically at the apex relative to WT controls. The Het M228T mouse model demonstrated atrial electrical alterations that occurred independently of any overt cardiac structural or functional remodelling. These findings may support the causative role for atrial electric phenotypes identified in a subset of patients carrying the variant. [Display omitted] •Mouse model of ACTN2 HCM-associated M228T variant displays atrial electrical alterations.•Prolonged atrial action potential duration in Het mice may indicate an arrhythmogenic mechanism.•Het mice demonstrate apical left ventricular contractile dyssynchrony without structural remodelling or impairment.•Electrical alterations are independent of structural remodelling.
AbstractList Missense variants of -disk protein, alpha-actinin-2 (ACTN2), have been linked to hypertrophic cardiomyopathy (HCM). A novel missense variant, M228T, was identified in family members presenting with HCM and/or atrial arrhythmias. Embryonic lethality was previously shown in mice expressing this variant homozygously, whereas heterozygous (Het) expression did not manifest an overt HCM phenotype. Importantly, the atrial arrhythmias observed in the identified family have not been explored in the context of M228T, despite many patients exhibiting electrical abnormalities prior to the clinical onset of HCM. Six-month-old Het M228T and wild-type (WT) mice were used to evaluate electrophysiological properties using electrocardiography (ECG) and atrial optical mapping. Echocardiography and strain analysis were employed to assess cardiac structure and function. Het mice exhibited a prolongation in action potential duration and depolarisation time at 30, 50, and 70 % repolarisation in both the left and right atria. No significant alterations in atrial conduction velocity were observed. No changes in atrial ECG parameters were detected. Het mice displayed no evidence of structural remodelling, nor were there any changes in systolic parameters or overt diastolic dysfunction, as assessed by conventional echocardiography and strain analysis. Signs of contractile dyssynchrony were present, specifically at the apex relative to WT controls. The Het M228T mouse model demonstrated atrial electrical alterations that occurred independently of any overt cardiac structural or functional remodelling. These findings may support the causative role for atrial electric phenotypes identified in a subset of patients carrying the variant.
Missense variants of Z-disk protein, alpha-actinin-2 (ACTN2), have been linked to hypertrophic cardiomyopathy (HCM). A novel ACTN2 missense variant, M228T, was identified in family members presenting with HCM and/or atrial arrhythmias. Embryonic lethality was previously shown in mice expressing this variant homozygously, whereas heterozygous (Het) expression did not manifest an overt HCM phenotype. Importantly, the atrial arrhythmias observed in the identified family have not been explored in the context of M228T, despite many patients exhibiting electrical abnormalities prior to the clinical onset of HCM. Six-month-old Het M228T and wild-type (WT) mice were used to evaluate electrophysiological properties using electrocardiography (ECG) and atrial optical mapping. Echocardiography and strain analysis were employed to assess cardiac structure and function. Het mice exhibited a prolongation in action potential duration and depolarisation time at 30, 50, and 70 % repolarisation in both the left and right atria. No significant alterations in atrial conduction velocity were observed. No changes in atrial ECG parameters were detected. Het mice displayed no evidence of structural remodelling, nor were there any changes in systolic parameters or overt diastolic dysfunction, as assessed by conventional echocardiography and strain analysis. Signs of contractile dyssynchrony were present, specifically at the apex relative to WT controls. The Het M228T mouse model demonstrated atrial electrical alterations that occurred independently of any overt cardiac structural or functional remodelling. These findings may support the causative role for atrial electric phenotypes identified in a subset of patients carrying the variant. [Display omitted] •Mouse model of ACTN2 HCM-associated M228T variant displays atrial electrical alterations.•Prolonged atrial action potential duration in Het mice may indicate an arrhythmogenic mechanism.•Het mice demonstrate apical left ventricular contractile dyssynchrony without structural remodelling or impairment.•Electrical alterations are independent of structural remodelling.
Background: Missense variants of Z-disk protein, alpha-actinin-2 (ACTN2), have been linked to hypertrophic cardiomyopathy (HCM). A novel ACTN2 missense variant, M228T, was identified in family members presenting with HCM and/or atrial arrhythmias. Embryonic lethality was previously shown in mice expressing this variant homozygously, whereas heterozygous (Het) expression did not manifest an overt HCM phenotype. Importantly, the atrial arrhythmias observed in the identified family have not been explored in the context of M228T, despite many patients exhibiting electrical abnormalities prior to the clinical onset of HCM. Methods: Six-month-old Het M228T and wild-type (WT) mice were used to evaluate electrophysiological properties using electrocardiography (ECG) and atrial optical mapping. Echocardiography and strain analysis were employed to assess cardiac structure and function. Results: Het mice exhibited a prolongation in action potential duration and depolarisation time at 30, 50, and 70 % repolarisation in both the left and right atria. No significant alterations in atrial conduction velocity were observed. No changes in atrial ECG parameters were detected. Het mice displayed no evidence of structural remodelling, nor were there any changes in systolic parameters or overt diastolic dysfunction, as assessed by conventional echocardiography and strain analysis. Signs of contractile dyssynchrony were present, specifically at the apex relative to WT controls. Conclusion: The Het M228T mouse model demonstrated atrial electrical alterations that occurred independently of any overt cardiac structural or functional remodelling. These findings may support the causative role for atrial electric phenotypes identified in a subset of patients carrying the variant.
Unlabelled Image • Mouse model of ACTN2 HCM-associated M228T variant displays atrial electrical alterations. • Prolonged atrial action potential duration in Het mice may indicate an arrhythmogenic mechanism. • Het mice demonstrate apical left ventricular contractile dyssynchrony without structural remodelling or impairment. • Electrical alterations are independent of structural remodelling.
Missense variants of Z-disk protein, alpha-actinin-2 (ACTN2), have been linked to hypertrophic cardiomyopathy (HCM). A novel ACTN2 missense variant, M228T, was identified in family members presenting with HCM and/or atrial arrhythmias. Embryonic lethality was previously shown in mice expressing this variant homozygously, whereas heterozygous (Het) expression did not manifest an overt HCM phenotype. Importantly, the atrial arrhythmias observed in the identified family have not been explored in the context of M228T, despite many patients exhibiting electrical abnormalities prior to the clinical onset of HCM.BackgroundMissense variants of Z-disk protein, alpha-actinin-2 (ACTN2), have been linked to hypertrophic cardiomyopathy (HCM). A novel ACTN2 missense variant, M228T, was identified in family members presenting with HCM and/or atrial arrhythmias. Embryonic lethality was previously shown in mice expressing this variant homozygously, whereas heterozygous (Het) expression did not manifest an overt HCM phenotype. Importantly, the atrial arrhythmias observed in the identified family have not been explored in the context of M228T, despite many patients exhibiting electrical abnormalities prior to the clinical onset of HCM.Six-month-old Het M228T and wild-type (WT) mice were used to evaluate electrophysiological properties using electrocardiography (ECG) and atrial optical mapping. Echocardiography and strain analysis were employed to assess cardiac structure and function.MethodsSix-month-old Het M228T and wild-type (WT) mice were used to evaluate electrophysiological properties using electrocardiography (ECG) and atrial optical mapping. Echocardiography and strain analysis were employed to assess cardiac structure and function.Het mice exhibited a prolongation in action potential duration and depolarisation time at 30, 50, and 70 % repolarisation in both the left and right atria. No significant alterations in atrial conduction velocity were observed. No changes in atrial ECG parameters were detected. Het mice displayed no evidence of structural remodelling, nor were there any changes in systolic parameters or overt diastolic dysfunction, as assessed by conventional echocardiography and strain analysis. Signs of contractile dyssynchrony were present, specifically at the apex relative to WT controls.ResultsHet mice exhibited a prolongation in action potential duration and depolarisation time at 30, 50, and 70 % repolarisation in both the left and right atria. No significant alterations in atrial conduction velocity were observed. No changes in atrial ECG parameters were detected. Het mice displayed no evidence of structural remodelling, nor were there any changes in systolic parameters or overt diastolic dysfunction, as assessed by conventional echocardiography and strain analysis. Signs of contractile dyssynchrony were present, specifically at the apex relative to WT controls.The Het M228T mouse model demonstrated atrial electrical alterations that occurred independently of any overt cardiac structural or functional remodelling. These findings may support the causative role for atrial electric phenotypes identified in a subset of patients carrying the variant.ConclusionThe Het M228T mouse model demonstrated atrial electrical alterations that occurred independently of any overt cardiac structural or functional remodelling. These findings may support the causative role for atrial electric phenotypes identified in a subset of patients carrying the variant.
ArticleNumber 100455
Author O'Shea, Christopher
Hayes, Abbie
Denning, Chris
Noureddine, Maya
Pavlovic, Davor
Mohammed, Fiyaz
Jones, Bethany A.I.
Broadway-Stringer, Sophie
Loughna, Siobhan
Gehmlich, Katja
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Keywords Pathogenic variants
Hypertrophic cardiomyopathy (HCM)
Atrial electrophysiology
Alpha-actinin-2 (ACTN2)
Cardiac remodelling
Language English
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M. Noureddine and S. Broadway-Stringer equally contributed to this work as first authors.
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Snippet Missense variants of Z-disk protein, alpha-actinin-2 (ACTN2), have been linked to hypertrophic cardiomyopathy (HCM). A novel ACTN2 missense variant, M228T, was...
Missense variants of -disk protein, alpha-actinin-2 (ACTN2), have been linked to hypertrophic cardiomyopathy (HCM). A novel missense variant, M228T, was...
Unlabelled Image • Mouse model of ACTN2 HCM-associated M228T variant displays atrial electrical alterations. • Prolonged atrial action potential duration in...
Background: Missense variants of Z-disk protein, alpha-actinin-2 (ACTN2), have been linked to hypertrophic cardiomyopathy (HCM). A novel ACTN2 missense...
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SubjectTerms Alpha-actinin-2 (ACTN2)
Atrial electrophysiology
Cardiac remodelling
Hypertrophic cardiomyopathy (HCM)
Original
Pathogenic variants
Title Atrial electrical alterations with intact cardiac structure and contractile function in a mouse model of an HCM-linked ACTN2 variant
URI https://www.clinicalkey.com/#!/content/1-s2.0-S2772976125001746
https://dx.doi.org/10.1016/j.jmccpl.2025.100455
https://www.ncbi.nlm.nih.gov/pubmed/40503000
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Volume 12
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