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Single Construct Suppression and Replacement Gene Therapy for the Treatment of All <i>CALM1</i> -, <i>CALM2</i> -, and <i>CALM3</i> -Mediated Arrhythmia Disorders

Samantha K. Hamrick, C.S. John Kim, David J. Tester, Manuela Gencarelli, Kathryn E. Tobert, Martina Gluscevic, Michael J. Ackerman

2024Circulation Arrhythmia and Electrophysiology14 citationsDOI

Abstract

BACKGROUND: CaM (calmodulin)-mediated long-QT syndrome is a genetic arrhythmia disorder (calmodulinopathies) characterized by a high prevalence of life-threatening ventricular arrhythmias occurring early in life. Three distinct genes ( CALM1 , CALM2 , and CALM3 ) encode for the identical CaM protein. Conventional pharmacotherapies fail to adequately protect against potentially lethal cardiac events in patients with calmodulinopathy. METHODS: Five custom-designed CALM1 -, CALM2 -, and CALM3 -targeting short hairpin RNAs (shRNAs) were tested for knockdown (KD) efficiency using TSA201 cells and reverse transcription-quantitative polymerase chain reaction. A dual-component suppression and replacement (SupRep) CALM gene therapy (CALM-SupRep) was created by cloning into a single construct CALM1 -, CALM2 -, and CALM3-specific shRNAs that produce KD (suppression) of each respective gene and a shRNA-immune CALM1 cDNA (replacement). CALM1-F142L, CALM2-D130G, and CALM3-D130G induced pluripotent stem cell-derived CMs were generated from patients with CaM-mediated long-QT syndrome. A voltage-sensing dye was used to measure action potential duration at 90% repolarization (APD90). RESULTS: Following shRNA KD efficiency testing, a candidate shRNA was identified for CALM1 (86% KD), CALM2 (71% KD), and CALM3 (94% KD). The APD90 was significantly prolonged in CALM2-D130G (647±9 ms) compared with CALM2-WT (359±12 ms; P &lt;0.0001). Transfection with CALM -SupRep shortened the average APD90 of CALM2-D130G to 457±19 ms (66% attenuation; P &lt;0.0001). Additionally, transfection with CALM -SupRep shortened the APD90 of CALM1-F142L (665±9 to 410±15 ms; P &lt;0.0001) and CALM3-D130G (978±81 to 446±6 ms; P &lt;0.001). CONCLUSIONS: We provide the first proof-of-principle suppression-replacement gene therapy for CaM-mediated long-QT syndrome. The CALM-SupRep gene therapy shortened the pathologically prolonged APD90 in CALM1 -, CALM2 -, and CALM3-variant CaM-mediated long-QT syndrome induced pluripotent stem cell-derived CM lines. The single CALM-SupRep construct may be able to treat all calmodulinopathies, regardless of which of the 3 CaM-encoding genes are affected.

Topics & Concepts

MedicineInternal medicineCardiologyConstruct (python library)Computer scienceProgramming languageCardiac electrophysiology and arrhythmiasCardiomyopathy and Myosin StudiesCardiac Arrhythmias and Treatments