Abstract
BACKGROUND: Phospholamban (PLN) p.Arg14del (R14del, R14(∆/+)) is the most commonly identified pathogenic variant that causes cardiomyopathy in the Netherlands. Many disease characteristics are still unclear, including the phenotypic triggers, disease progression and disease-specific biomarkers. We aim to gain a better understanding of the R14(∆/+) pathophysiology by establishing a cohort across the R14(∆/+) disease spectrum. METHODS: The Disease spECifIc PatHways and modifiERs in PhosphoLambaN r14del cardiomyopathy (DECIPHER-PLN) cohort includes 101 participants, categorised as unaffected R14(∆/+) (n = 21), early affected R14(∆/+) (n = 42), end-stage R14(∆/+) (n = 28) and heart failure (HF) of another aetiology (n = 10). R14(∆/+) category was based on left ventricular ejection fraction, HF symptoms, electrocardiogram (ECG) and N‑terminal pro-brain natriuretic peptide concentrations. Of the 91 included R14(∆/+) carriers, 46 (51%) were female, with a mean age of 55 years (standard deviation: 14). Low-voltage ECG older age, arrhythmias, and conduction and repolarisation abnormalities were common in (early) affected R14(∆/+) carriers. Serum and plasma were collected from all participants. Induced pluripotent stem cells were generated from fibroblasts of end-stage R14(∆/+) patients and unaffected R14(∆/+) family members (n = 4) and differentiated into cardiomyocytes. Explanted heart tissue was obtained from R14(∆/+) patients undergoing cardiac surgery and patients with other HF aetiologies as control. Abnormal PLN protein localisation was confirmed in R14(∆/+) carriers. CONCLUSION: DECIPHER-PLN comprises R14(∆/+) carriers across the disease and non-disease spectrum and can be used to identify disease-specific biological pathways and modifiers that play a role in R14(∆/+) cardiomyopathy. Using a multi-omics approach and in vitro disease modelling, we aim to identify novel biomarkers and improve our understanding of R14(∆/+) pathophysiology. Material is available upon request.