Introduction
Key Teaching Points
•
Pathogenic mutations associated with arrhythmogenic right ventricular cardiomyopathy
may manifest with isolated atrial phenotypes, potentially secondary to differential
penetrance in the atria and ventricles.
•
Atrial cardiomyopathy is a potential genetic subphenotype of atrial fibrillation (AF),
a concept that may provide insight into the natural history of the arrhythmia and
its response to treatment.
•
The increased prevalence of AF observed in genetic ventricular cardiomyopathies may
be secondary to a common underlying genetic culprit.
A single genetic culprit giving rise to varied forms of ventricular cardiomyopathy
is a well-documented phenomenon and likely arises, at least in part, secondary to
a combination of genetic modifiers and environmental factors.1, 2 Recent work has
begun to implicate cardiomyopathy genes in “lone” atrial fibrillation (AF), suggesting
that atrial cardiomyopathy may be a subphenotype of the arrhythmia.3, 4, 5, 6 It is
conceivable that within certain patients and families, cardiomyopathy gene mutations
may preferentially manifest with atrial rather than ventricular phenotypes. In the
current report, we describe a family with a large pathogenic PKP2 deletion, implicated
as the probable cause of sudden death in the proband, that appeared to manifest with
predominant atrial phenotypes in other family members.
Case report
A 20-year-old athletic man with no prior cardiac history and no family history of
sudden death died during sleep. Three years prior to his death he had undergone a
surface electrocardiogram (ECG) (Figure 1A) and echocardiogram following an incidental
finding of bradycardia. Aside from sinus bradycardia that was likely secondary to
his athletic status, both investigations were within normal limits (Table 1). Cardiac
autopsy was suggestive of both chronic and subacute myocarditis. Multiple minute foci
of active lymphohistiocytic myocarditis, along with overlapping acute myonecrosis,
cardiomyocyte dropout, and interstitial fibrous tissue deposition were observed in
a classical subepicardial distribution. Given the nature of the fibrous tissue identified,
the inflammatory process was felt to likely have been present for months prior to
death. A molecular autopsy was initially deferred owing to a presumptive diagnosis
of myocarditis.
Figure 1
Twelve-lead surface electrocardiograms of family members possessing the large PKP2
deletion. A: Deceased proband. B, C: Proband’s brothers with atrial fibrillation,
aged 26 (B) and 24 (C). D: Proband’s mother.
Table 1
Clinical and genetic features of family members possessing the large PKP2 deletion
Family member∗
Age†
Arrhythmia
ECG
Treadmill test
24 Hour Holter monitoring
SAECGLP
Echo
cMR
Proband (II-1)
20
SCD
Sinus bradycardia
NP
NP
NP
Normal
NP
Brother (II-2)
26
Persistent AF
AF
AF
Persistent AF
-ve
Biatrial dilation
Biatrial dilation
Brother (II-3)
27
Paroxysmal AF
Normal
AF developed during recovery
68 PACs, 8 atrial couplets, and 43 PVCs
-ve
Normal
Mild biventricular dilation‡
Mother (I-1)
45
Nil
Normal
PVCs, ventricular couplets, and short runs of AT
58 PACs, 2 atrial couplets, short runs of AT, and 16 PVCs
-ve
Normal
Normal
AF = atrial fibrillation; AT = atrial tachycardia; cMR = cardiac magnetic resonance
imaging; ECG = electrocardiogram; Echo = echocardiogram; LP = late potentials; NP
= not performed; PAC = premature atrial contraction; PVC = premature ventricular contraction;
SAECG = signal average electrocardiogram; SCD = sudden cardiac death.
∗
Roman and Arabic numerals correspond to generation and pedigree number within a generation,
as shown in Figure 2. The father is estranged from the family and was unavailable
for evaluation.
†
Age in years at onset of arrhythmia, if present, or initial evaluation.
‡
Mild biventricular dilation felt to potentially be secondary to athlete’s heart.
Cascade screening of family members was subsequently initiated to evaluate the possibility
that the sudden death in the proband may have been secondary to an underlying genetic
etiology. Evaluation of the proband’s asymptomatic 26-year-old brother (Figure 2;
II-3) revealed AF on surface ECG (Figure 1B) that was persistent on Holter monitoring,
and echocardiography demonstrated moderate biatrial dilation. Aside from these atrial
abnormalities, his surface ECG, signal average ECG, Holter monitor, echocardiogram,
and cardiac magnetic resonance imaging (MRI) were otherwise within normal limits (Table 1).
Given that persistent AF is a very rare clinical finding at 26 years of age, it was
hypothesized that his arrhythmia and the sudden death of his brother may have been
secondary to a common underlying genetic culprit.
Figure 2
Kindred structure. Black, navy blue, and red fill denote sudden cardiac death, atrial
fibrillation, and nonsustained atrial arrhythmias, respectively. The family member
inaccessible for evaluation is shaded in gray. Genotype is denoted as +/- and age
at evaluation or at time of death is provided below.
The patient underwent genetic evaluation with a commercial arrhythmia panel involving
30 genes (GeneDx, Gaithersburg, MD; full list provided in Supplemental Appendix).
No pathogenic variants were identified on direct DNA sequencing; however, targeted
array analysis revealed a large deletion involving exons 4 to 14 of the PKP2 gene
(GRCh37 genomic coordinates: chromosome 12:32,944,898-33,022,251) (Figure 3). Consistent
with prior reports of large PKP2 deletions being causative for arrhythmogenic right
ventricular cardiomyopathy (ARVC),7, 8, 9 the deletion was assumed to be pathogenic
and was used for cascade screening to attempt to clarify its role in the sudden death
of the proband and its potential impact on other family members.
Figure 3
Wild-type PKP2 gene (14 exons) and the large familial genomic deletion resulting in
a truncated gene limited to exons 1–3. GRCh37 genomic coordinates.
Subsequent evaluation identified the PKP2 deletion in the deceased proband, a 24–year-old
brother, and the 45-year-old mother (Figure 2 and Table 1). The father is estranged
from the family and was not accessible for clinical or genetic screening. Clinical
evaluation of the 24-year-old brother (Figure 2; II-2) was initially within normal
limits; however, at 27 years of age he was diagnosed with asymptomatic paroxysmal
AF. Echocardiography was reported as normal, including normal biatrial size, while
cardiac MRI revealed mild biventricular dilation and normal function. The mild biventricular
dilation was considered potentially reflective of athlete’s heart, given that he was
a competitive football player. Results of Holter monitoring are summarized in Table 1,
while the remainder of his investigations, including surface ECG (Figure 1C), were
within normal limits. Aside from his genetic mutation, he had no features that met
Major or Minor ARVC Task Force criteria.
10
Clinical screening of the 45-year-old mother (Figure 2; I-1) possessing the PKP2 deletion
revealed a normal ECG (Figure 1D), signal average ECG, echocardiogram, and cardiac
MRI. Treadmill testing demonstrated frequent isolated premature ventricular contractions
and ventricular couplets during exertion that possessed a left superior axis and left
bundle branch block morphology, suggesting an origin from the inferior right ventricle,
that resolved in recovery. Multiple runs of atrial tachycardia lasting up to 12 beats
occurred during the recovery period. Twenty-four-hour ambulatory monitoring revealed
premature atrial contractions, atrial couplets, and 3 nonsustained runs of atrial
tachycardia lasting up to 11 beats, along with very rare isolated premature ventricular
contractions (Table 1).
During 4 years of follow-up, none of the living family members possessing the PKP2
deletion developed clinical features sufficient to meet Major or Minor Task Force
Criteria for ARVC.
Discussion
Our report of a family with a large PKP2 deletion is, to our knowledge, the first
to suggest that a gene associated with ARVC may potentially give rise to a phenotype
of lone AF. Given that genes causative for ventricular cardiomyopathy may serve similar
functions within the atria, alternating atrial and ventricular phenotypes may arise
secondary to differential penetrance. In an analogous fashion, penetrance of a mutation
in both chambers may account for the increased prevalence of AF observed in ventricular
cardiomyopathies.11, 12 Atrial cardiomyopathy being reflective of a genetic subphenotype
of AF has been suggested by recent studies implicating the MYL4, MYH6, and PLEC genes
in the pathogenesis of the arrhythmia.3, 4, 5, 6
The relevance of the large PKP2 deletion to the clinical phenotypes of the family
members, although not definite, is supported by a combination of their clinical and
genetic features. The sudden death of the proband was initially felt to be secondary
to a malignant ventricular arrhythmia arising from a myocarditis; however, recognition
that he possessed a pathogenic PKP2 mutation strongly suggests that the inflammatory
and fibrotic changes observed on autopsy may have been secondary to early manifestations
of ARVC.
13
The PKP2 deletion being responsible for the atrial arrhythmias identified in the family
members is supported by the absence of another genetic culprit identified in a large
arrhythmia panel and the observed genotype-phenotype segregation.
Although the living family members carrying the PKP2 deletion have yet to manifest
definite clinical features associated with ARVC, the ventricular ectopy observed in
the mother and younger brother may be reflective of an emerging phenotype. Consistent
with clinical guidelines, ongoing surveillance for development of an ARVC phenotype
is merited in all carriers of pathogenic mutations.
14
Conclusion
The present report, to our knowledge, represents the first description of a pathogenic
mutation associated with ARVC manifesting as apparent lone AF. The observations from
our reported family serve to highlight that mutations associated with ventricular
cardiomyopathy may alternately manifest with atrial phenotypes, potentially in isolation.
They also serve to reinforce the notion that atrial cardiomyopathy may represent a
genetic subphenotype of AF.