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Erschienen in: BMC Cardiovascular Disorders 1/2020

Open Access 01.12.2020 | Case report

Clinical utility of genetic testing in the early diagnosis of Danon disease mimicking hypertrophic cardiomyopathy: a case report

verfasst von: Valeria Novelli, Antonio Bisignani, Gemma Pelargonio, Guido Primiano, Maria Lucia Narducci, Vincenzo Palmieri, Francesco Danilo Tiziano, Paolo Zeppilli, Serenella Servidei, Filippo Crea, Maurizio Genuardi

Erschienen in: BMC Cardiovascular Disorders | Ausgabe 1/2020

Abstract

Background

Danon disease (OMIM 300257) is an X-linked lysosomal storage disorder, characterized by hypertrophic cardiomyopathy (HCM), skeletal myopathy, variable intellectual disability, and other minor clinical features.
This condition accounts for ~ 4% of HCM patients, with a more severe and early onset phenotype in males, causing sudden cardiac death (SCD) in the first three decades of life.
Genetic alterations in the LAMP2 gene are the main cause of this inherited fatal condition. Up to date, more than 100 different pathogenic variants have been reported in the literature. However, the majority of cases are misdiagnosed as HCM or have a delay in the diagnosis.

Case presentation

Here, we describe a young boy with an early diagnosis of HCM. After 2 episodes of ventricular fibrillation within 2 years, genetic testing identified a novel LAMP2 pathogenic variant. Subsequently, further clinical evaluations showing muscle weakness and mild intellectual disability confirmed the diagnosis of Danon disease.

Conclusions

This report highlights the role of genetic testing in the rapid diagnosis of Danon disease, underscoring the need to routinely consider the inclusion of LAMP2 gene in the genetic screening for HCM, since an early diagnosis of Danon disease in patients with a phenotype mimicking HCM is essential to plan appropriate treatment, ie cardiac transplantation.
Hinweise
Valeria Novelli and Antonio Bisignani equally contributed to this work

Publisher’s Note

Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.
Abkürzungen
ACMG
American College of Medical Genetics and Genomics
VUS
Variant of uncertain significance
ExAC
Exome aggregation consortium
HCM
Hypertrophic Cardiomypathy
DCM
Dilated cardiomyopathy
CNV
Copy number variation
SCD
Sudden cardiac death
VF
Ventricular fibrillation
ICD
Implanted cardioverter defibrillator
ECG
Electrocardiogram
LV
Left ventricle
MRI
Magnetic resonance imaging
LGE
Late gadolinium enhancementinsert

Background

Danon disease (DD; OMIM 300257), also named glycogen storage disease type IIb, is an X-linked lysosomal storage disorder, characterized by hypertrophic cardiomyopathy (HCM), skeletal myopathy, variable intellectual disability and retinal disease [1]. This condition accounts for ~ 4% of HCM patients [2], affecting both genders, with a more severe and early onset phenotype in males. Usually, these present HCM at puberty and require heart transplantation around 18–19 years of age, while female carriers develop DCM (dilated cardiomyopathy) or HCM during adulthood often without skeletal muscle involvement [2]. Also, left-ventricular noncompaction phenotype has been reported in a patient affected by Danon disease [3].
Alterations in the LAMP2 gene, coding for the lysosome-associated membrane protein 2, have been identified as the main cause of Danon disease. So far, more than 100 different pathogenic variants involving the LAMP2 locus have been described, including non-synonymous variants as well as microdeletions at Xq24 [4]. Here we report on a young male patient, with an initial clinical misdiagnosis of HCM. This case highlights the pivotal role of genetic testing in the rapid diagnosis of this fatal disease.

Case presentation

A 16-year-old Italian male, with a family history of sudden cardiac death (SCD), was referred to our center with a diagnosis of HCM. His mother died of suspected postpartum DCM when she was 24 years old. The proband had received a diagnosis of HCM one year before, when he was admitted for palpitation in a secondary hospital. The ECG showed atrial tachycardia. He underwent two unsuccessful right atrial catheter ablations. Electrophysiological workup was negative for the induction of ventricular arrhythmias. Therefore, he was not considered suitable for ICD implantation at that time.
Upon admission to our institution, at the age of 17 years, he was symptomatic for palpitations, with evidence of atrial tachycardia (atrial cycle length 330 msec) during ECG monitoring, (NYHA class I) (Fig. 1). The echocardiogram confirmed the severe biventricular hypertrophy (LV septum thickness was 30 mm, PWT 23 mm and LVOT 30 mmHg), with mild LV outflow tract obstruction, previously documented. Moderate biventricular contractile dysfunction was observed, without any evidence of dilation (Fig. 2a-b). Cardiac MRI was performed and confirmed preserved ventricular volumes associated with a severe increase in RV and LV wall thickness and moderate biventricular dysfunction (LVEF 45%; RVEF 42%). The calculated LV mass was 268 g/m2. T2w sequences indicated multiple “patchy” areas of increased signal intensity within the biventricular wall, associated with hypoperfusion at rest and late gadolinium enhancement, suggesting multiple foci of fibrosis.
Due to the persistence of symptomatic atrial tachycardia, 3D electroanatomic mapping of atrial tachycardia activation was performed. The earliest atrial activation was recorded close to the area between right pulmonary vein. Subsequently, antral right pulmonary veinelectrical isolation was performed by Smarttouch Navistar catheter (Biosense Webster) (max temp 32 °C, max power 30 W) with interruption of clinical tachycardia. Atrial tachycardia was not re-inducible any longer up to 4 extra-stimuli.
Drug therapy during hospitalization included betablocker (metoprololo 100 mg), diuretic (furosemide12.5 mg) and anticoagulant therapy for 3 months after catheter ablation. Upon admission, genetic counseling was offered to the family and genetic testing was performed (Fig. 3).
Subsequently, further neurological investigations, including skeletal muscle biopsy were performed during this period. These revealed mild intellectual disability, mild weakness of distal upper and lower limb muscles and bilateral pes cavus, with an elevated serum CK (562 UI/L). In particular, clinical history revealed intellectual and adaptive functioning deficits in conceptual, social, and practical domains with childhood onset, including difficulties in acquiring academic skills, immature language and the need of assistance in daily living tasks. No other clinical exams was conducted at that time. Finally, since the predicted 5 years risk of SCD was 4.34%, according to the 2014 guidelines on diagnosis and management of HCM, ICD was implanted and muscle biopsy was requested.

Genetic testing

DNA isolated from peripheral blood leukocytes was screened for genes associated with HCM and related phenotypes using a sequencing panel (Custom Ion Panel, ThermoFisher-US) including 11 genes (MYBPC3, MYH7, TNNT2, TNNI3, TPM1, MYL2, MYL3, ACTC1, PLN, LAMP2, GLA), encoding for sarcomeric and non sarcomeric proteins. All deep intronic and synonymous coding variants were excluded from further analysis. Then, we filtered out all the variants with an allelic frequency (MAF) of more than 1 × 10− 4 in (gnomad.​broadinstitute.​org). Variant annotation results showed a hemizygous 1 bp deletion, c.453delT, in LAMP2 (NM_002294), which was confirmed by Sanger sequencing. The variant (chrX:119582932_delT) causes a frameshift in exon 4, p.(F151Lfs*32) resulting in a putative premature stop codon at position 183 of the protein. To the best of our knowledge, it has not previously been reported in the literature, and it is absent in gnomAD and in other electronic databases, including ClinVar (ncbi.​nlm.​nih.​gov/​clinvar). Clinical variant interpretation was performed using the ACMG criteria [5]. In particular, the variant was classified as likely pathogenic based on the molecular defect (PVS1; frameshift with premature protein truncation) and on its allele frequency in the general population (PM2).
At that time, genetic counseling was also offered to the older brother of the patient. During counseling, it was explained that probably the mother was a carrier of the LAMP2 pathogenic variant, and that he had a 50% chance of having inherited it. He then agreed to undergo targeted genetic testing for the disease causing variant. The result was negative, indicating that he is not at risk of developing manifestations of Danon disease.

Muscle biopsy

Skeletal muscle biopsy (Fig. 4) demonstrated mild variation in fiber size and numerous scattered small dot-like basophilic granules and vacuoles that showed an enhanced activity of lysosomal acid phosphatase and acetylcholine esterase. The lysosomal vacuoles had the characteristics of autophagic vacuoles with unique sarcolemma features since the limiting membranes were positive for sarcolemma proteins such as dystrophin, sarcoglycans, dystroglycans, and caveolin. Immunohistochemistry using anti-lysosome-associated membrane protein 2 (LAMP2) antibodies revealed the absence of the protein in all fibers, concordant with a diagnosis of Danon disease.

Discussion and conclusions

The case presented herein demonstrates the role of genetic testing in the early diagnosis of Danon disease. A novel LAMP2 likely pathogenic variant was detected in the proband before a diagnosis of Danon disease was established on clinical grounds.
The natural history of this inherited condition is characterized by a high rate of mortality within the second-third decade of life. Males, in particular, present a rapid progression of HCM with a mean age at death of 19 years (± 6 y). In contrast, females can develop either DCM or HCM with a more protracted course, with a mean age at death of 40 years (± 7 y).
Due to the rapid progression of this lethal disease, early diagnosis is crucial. However, due to the cardiac phenotype that mimics HCM and often obscures the other clinical manifestations, often present in a mild form, early diagnosis can be challenging, in particular in the pediatric population, when the involvement of other organs may not be evident yet. For these reasons, a strategy for a rapid genetic diagnosis is critical to identify patients at risk.
Next generation sequencing analysis using gene panels offers the possibility of investigating simultaneously a large number of genes involved in a genetically heterogeneous condition at affordable costs and with rapid turnaround time. However, the use of larger panels for the systematic screening of HCM offers limited additional sensitivity resulting in an increasing number of variants of uncertain significance (VUS). On the other hand, limiting the analysis to genes associated with non-syndromic HCM, ie sarcomeric genes, might lead to missed or delayed diagnosis in patients affected with syndromic forms of HCM who do not have prominent extracardiac manifestations.
Recently, Alfares et al. [6] analyzing a cohort of 2912 non-syndromic HCM patients, identified 6 cases carrying different LAMP2 pathogenic variants. These results indicate that Danon disease mimicking an isolated HCM phenotype may be difficult to diagnose on a clinical basis alone.
Furthermore, recent data have shown that inclusion of genes associated with non-syndromic HCM diseases, including LAMP2, increases the diagnostic yield of systematic genetic screening for HCM. Analyzing a cohort of 1198 probands with a diagnosis of HCM, it has been observed that LAMP2 has the same utility of a sarcomeric gene, showing a high frequency of rare pathogenic and likely pathogenic variants in the patient population compared to general population databases, ie ExAC [7].
These data confirm that the inclusion of genes associated with HCM syndromic forms diseases in HCM NGS panels can enable early diagnosis of Danon disease, improves the management of these patients, and allows to identify family members at risk of this fatal condition. Indeed, in this case, after the genetic diagnosis of Danon disease, the patient was immediately placed on a waiting list for heart transplant.
In conclusion, this case underscores the need to routinely analyze the LAMP2 gene as part of the genetic screening for HCM to assess early diagnosis of Danon disease in patients with a phenotype mimicking isolated HCM. Since in some patients the molecular defect is a large deletion, CNV analysis should also be systematically performed.

Acknowledgments

Not applicable.
All procedures performed in this research were in accordance with the ethical standards of the 1964 Helsinki declaration. All participants in this report voluntarily agreed to participate and signed written consent. The module of consent for diagnostic genetic testing, including all the info regarding the application of the identified data also for research scope, has been approved by the Legal Department of our Institution.
A written patient consent for publication, including images and other clinical information has been signed by the father of the proband.

Competing interests

The authors declare they have no competing interest.
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Metadaten
Titel
Clinical utility of genetic testing in the early diagnosis of Danon disease mimicking hypertrophic cardiomyopathy: a case report
verfasst von
Valeria Novelli
Antonio Bisignani
Gemma Pelargonio
Guido Primiano
Maria Lucia Narducci
Vincenzo Palmieri
Francesco Danilo Tiziano
Paolo Zeppilli
Serenella Servidei
Filippo Crea
Maurizio Genuardi
Publikationsdatum
01.12.2020
Verlag
BioMed Central
Erschienen in
BMC Cardiovascular Disorders / Ausgabe 1/2020
Elektronische ISSN: 1471-2261
DOI
https://doi.org/10.1186/s12872-020-01421-4

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