Role of plakophilin-2 expression on exercise-related progression of arrhythmogenic right ventricular cardiomyopathy: a translational study

Cerrone, Marina; Marrón-Liñares, Grecia M; Opbergen, Chantal J.M. van; Costa, Sarah; Bourfiss, Mimount; Pérez-Hernández, Marta; Schlamp, Florencia; Sanchís-Gomar, Fabián; Malkani, K; Drenkova, Kamelia; Zhang, Mingliang; Lin, Xianming; Heguy, Adriana; Velthuis, Birgitta K.; Prakken, Niek H J; Gerche, André La; Calkins, Hugh; James, Cynthia A.; Riele, Anneline S.J.M. te; Delmar, Mario

doi:10.1093/eurheartj/ehab772

Cited by 28 publications

(20 citation statements)

References 29 publications

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“…This increase occurred despite the fact that desmin clusters, measured throughout the cell, were larger and more elongated in PKP2cKO cardiomyocytes than in controls and that desmin protein abundance was increased in PKP2cKO hearts (Figure S8B and S8C), as was also the case in hearts of patients with ARVC (Figure 3B). Consistent with data showing that altered nuclear morphology is a consequence of reduced desmin attachment, 22 we observed that nuclei of PKP2cKO myocytes were more circular than those of controls (Figure 4C).…”

Section: Dna Damage Occurs Independently Of a Significant Increase In...supporting

confidence: 92%

Loss of Nuclear Envelope Integrity and Increased Oxidant Production Cause DNA Damage in Adult Hearts Deficient in PKP2: A Molecular Substrate of ARVC

et al. 2022

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Background: Arrhythmogenic right ventricular cardiomyopathy (ARVC) is characterized by high propensity to life-threatening arrhythmias and progressive loss of heart muscle. More than 40% of reported genetic variants linked to ARVC reside in the PKP2 gene, which encodes the PKP2 protein (plakophilin-2). Methods: We describe a comprehensive characterization of the ARVC molecular landscape as determined by high-resolution mass spectrometry, RNA sequencing, and transmission electron microscopy of right ventricular biopsy samples obtained from patients with ARVC with PKP2 mutations and left ventricular ejection fraction >45%. Samples from healthy relatives served as controls. The observations led to experimental work using multiple imaging and biochemical techniques in mice with a cardiac-specific deletion of Pkp2 studied at a time of preserved left ventricular ejection fraction and in human induced pluripotent stem cell–derived PKP2-deficient myocytes. Results: Samples from patients with ARVC present a loss of nuclear envelope integrity, molecular signatures indicative of increased DNA damage, and a deficit in transcripts coding for proteins in the electron transport chain. Mice with a cardiac-specific deletion of Pkp2 also present a loss of nuclear envelope integrity, which leads to DNA damage and subsequent excess oxidant production (O 2 .– and H 2 O 2 ), the latter increased further under mechanical stress (isoproterenol or exercise). Increased oxidant production and DNA damage is recapitulated in human induced pluripotent stem cell–derived PKP2-deficient myocytes. Furthermore, PKP2-deficient cells release H 2 O 2 into the extracellular environment, causing DNA damage and increased oxidant production in neighboring myocytes in a paracrine manner. Treatment with honokiol increases SIRT3 (mitochondrial nicotinamide adenine dinucleotide–dependent protein deacetylase sirtuin-3) activity, reduces oxidant levels and DNA damage in vitro and in vivo, reduces collagen abundance in the right ventricular free wall, and has a protective effect on right ventricular function. Conclusions: Loss of nuclear envelope integrity and subsequent DNA damage is a key substrate in the molecular pathology of ARVC. We show transcriptional downregulation of proteins of the electron transcript chain as an early event in the molecular pathophysiology of the disease (before loss of left ventricular ejection fraction <45%), which associates with increased oxidant production (O 2 .– and H 2 O 2 ). We propose therapies that limit oxidant formation as a possible intervention to restrict DNA damage in ARVC.

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Section: Dna Damage Occurs Independently Of a Significant Increase In...supporting

confidence: 92%

Loss of Nuclear Envelope Integrity and Increased Oxidant Production Cause DNA Damage in Adult Hearts Deficient in PKP2: A Molecular Substrate of ARVC

et al. 2022

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“…In mice, plakophilin‐2 loss and training synergically worsened cardiac function because of a reduced reserve of desmosomal proteins. 72 Although in a limited sample, when adjusted for exercise, odds of proband status and ventricular arrhythmias did not differ between sexes, and, after introduction of exercise restrictions, disease progression did not differ between sexes. 69 …”

Section: Arrhythmogenic Cardiomyopathymentioning

confidence: 76%

Sex‐Related Differences in Genetic Cardiomyopathies

Argirò

Day

et al. 2022

JAHA

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Cardiomyopathies are a heterogeneous collection of diseases that have in common primary functional and structural abnormalities of the heart muscle, often genetically determined. The most effective categorization of cardiomyopathies is based on the presenting phenotype, with hypertrophic, dilated, arrhythmogenic, and restrictive cardiomyopathy as the prototypes. Sex modulates the prevalence, morpho‐functional manifestations and clinical course of cardiomyopathies. Aspects as diverse as ion channel expression and left ventricular remodeling differ in male and female patients with myocardial disease, although the reasons for this are poorly understood. Moreover, clinical differences may also result from complex societal/environmental discrepancies between sexes that may disadvantage women. This review provides a state‐of‐the‐art appraisal of the influence of sex on cardiomyopathies, highlighting the many gaps in knowledge and open research questions.

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“…A recent experimental model revealed that endurance training in PKP2 knockout mice decreased cardiac muscle mass and increased cardiac myocyte apoptosis, despite enhanced arrhythmogenicity such as increased fractional shortening and calcium transient amplitude. 9 Based on these findings, most ARVC patients with a PKP2 genetic variant might need to severely restrict daily exercise. The three siblings were heterozygous for the previously reported pathogenic splice site variation c.2489 + 1G > A in Intron 12 of the PKP2.…”

Section: Discussionmentioning

confidence: 99%

“… 7 , 8 Plakophilin-2 (PKP2) genetic variants has been shown to enhance progression of pathogenesis in ARVC in terms of systolic cardiac function and lethal arrhythmia. 9 A recent study using genetically PKP2 knockout mice showed that loss of the PKP2 function reduced ventricular systolic function and enhanced vulnerability to ventricular arrhythmia. The current study presents a case series of three siblings (sports athletes) with PKP2 genetic variants, where intensive training potentially promoted the pathogenesis of ARVC through early manifestation of ventricular tachyarrhythmia.…”

Section: Introductionmentioning

confidence: 99%

Arrhythmogenic right-ventricular cardiomyopathy with plakophilin-2 genetic variant concomitant with early manifestation of ventricular tachyarrhythmia: a case series

Kawano

Kondo

Takahashi

et al. 2022

European Heart Journal - Case Reports

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Background Arrhythmogenic right ventricular cardiomyopathy (ARVC) is a hereditary cardiomyopathy characterized by fibro-fat replacement of the right ventricular myocardium. There are many factors associated with poor prognosis in patients with ARVC. Among these factors, intensive physical exertion is considered an important risk factor for sudden cardiac death. Case Summary Herein, we report a case series of siblings with ARVC and an early manifestation of ventricular tachyarrhythmia. Plakophilin-2 (PKP2) genetic variant, which is one of the causative genetic variants of ARVC, was detected by genetic testing in all three siblings. They were young athletes with lethal/symptomatic ventricular tachycardias. The eldest sibling was implanted with a transvenous implantable cardioverter-defibrillator (ICD) due to resuscitated cardiopulmonary arrest at 18 years of age; the next oldest patient was treated with successful catheter ablation at 17 years; the youngest patient was treated with catheter ablation and subcutaneous ICD implantation at 17 years. Discussion A recent experimental model revealed that physical exertion in PKP2 knockout mice diminished cardiac muscle mass and increased cardiac myocyte apoptosis, despite enhanced arrhythmogenicity such as increased fractional shortening and calcium transient amplitude. The three siblings were heterozygous for the previously reported pathologic splice site variant c.2489 + 1G > A in intron 12 of the PKP2. The variant might play an important role in facilitating the vulnerability to arrhythmia under intensive endurance training. Most ARVC patients with PKP2 variant, especially pathologic splice site variant c.2489 + 1G > A in intron 12 of the PKP2, might have to be managed strictly regarding daily exercise.

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Role of plakophilin-2 expression on exercise-related progression of arrhythmogenic right ventricular cardiomyopathy: a translational study

Cited by 28 publications

References 29 publications

Loss of Nuclear Envelope Integrity and Increased Oxidant Production Cause DNA Damage in Adult Hearts Deficient in PKP2: A Molecular Substrate of ARVC

Loss of Nuclear Envelope Integrity and Increased Oxidant Production Cause DNA Damage in Adult Hearts Deficient in PKP2: A Molecular Substrate of ARVC

Sex‐Related Differences in Genetic Cardiomyopathies

Arrhythmogenic right-ventricular cardiomyopathy with plakophilin-2 genetic variant concomitant with early manifestation of ventricular tachyarrhythmia: a case series

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