Abstract 12044: Injectable Contraceptive, Medroxyprogesterone Acetate, Produces Erratic Beating Patterns in Patient-Specific Re-Engineered Heart Cells With Type 2 Long QT Syndrome

Abstract

Background: Type 2 long QT syndrome (LQT2) is an inherited arrhythmia syndrome caused by pathogenic variants in the KCNH2 gene which result in QT prolongation and confers susceptibility to arrhythmic syncope/seizures and sudden cardiac arrest/death. Oral progestin-based contraceptives increase the risk of cardiac events in women with LQT2 and we previously reported the case of a LQT2 woman with recurrent cardiac events attributed to the use of the progestin-based contraceptive, Medroxyprogesterone Acetate (“Depo-Provera”, Depo). Objective: To evaluate the arrhythmic-risk of Depo in a LQT2-specific, induced pluripotent stem cell-derived cardiomyocyte (iPSC-CM) model. Methods: An iPSC-CM line was generated from the previously reported woman (KCNH2-G1006A*fs) as well as a control line. Voltage-sensing dye was used to assess the optical action potential duration (APD) with 10 μM Depo. 3-D erratic beating patterns were then assessed using multiple electrode array (MEA) with Depo and isoproterenol (ISO) to mimic an adrenergic surge. Results: Addition of Depo to the G1006A*fs iPSC-CMs decreased the optical APD from baseline 438±14 ms (n=6) to 363±35 ms (n=12; p=0.0001). Despite the APD shortening at baseline, in the setting of ISO, Depo administration induced erratic beating patterns in MEA, characterized as alternating spike amplitudes, alternans, or early after depolarization-like phenomena. Combined Depo and ISO treatment increased the percent of electrodes displaying erratic beating in G1006A*fs [baseline 8%±13 vs. Depo + ISO 38%±40 (p=0.0097)] but not in controls [baseline 2%±5 vs. Depo + ISO 7%±11 (p=0.14)]. Neither Depo nor ISO alone changed beating patterns in G1006A*fs [baseline 8%±13, Depo 30%±41 (p=0.08), ISO 21%±30, (p=0.17)] and controls [baseline 2%±5, Depo 3%±7 (p=0.61), ISO 0%±0 (p=0.4)]. Conclusion: This patient-specific, re-engineered heart cell study provides a potential mechanism for the patient’s clinically documented, Depo-associated episodes of recurrent ventricular fibrillation. This in-vitro data should prompt a large-scale clinical assessment of Depo’s potential pro-arrhythmic effect in women with LQT2.