Development of a whole heart model of the J wave syndromes and novel approaches to pharmacologic management of associated life-threatening arrhythmias

Information

  • Research Project
  • 10126055
  • ApplicationId
    10126055
  • Core Project Number
    R01HL152201
  • Full Project Number
    5R01HL152201-02
  • Serial Number
    152201
  • FOA Number
    PA-19-056
  • Sub Project Id
  • Project Start Date
    4/1/2020 - 4 years ago
  • Project End Date
    3/31/2024 - 9 months ago
  • Program Officer Name
    BALIJEPALLI, RAVI C
  • Budget Start Date
    4/1/2021 - 3 years ago
  • Budget End Date
    3/31/2022 - 2 years ago
  • Fiscal Year
    2021
  • Support Year
    02
  • Suffix
  • Award Notice Date
    3/29/2021 - 3 years ago

Development of a whole heart model of the J wave syndromes and novel approaches to pharmacologic management of associated life-threatening arrhythmias

The J-wave syndromes (JWSs), consisting of the Brugada (BrS) and Early Repolarization Syndromes (ERS), have presented a challenge to the cardiology community for over two decades. JWSs are inherited cardiac arrhythmia and sudden cardiac death syndromes that share ECG features, clinical outcomes, and risk factors, as well as a common arrhythmic platform related to amplification of the J wave of the ECG. Two principle hypotheses have been proposed to underlie BrS: repolarization and depolarization. The principal aim of this proposal is to develop a whole heart model of BrS and ERS to advance our understanding of the pathophysiology of these syndromes. We will pharmacologically mimic the genetic defects known to underlie the JWSs and record a 12 lead ECG, unipolar and bipolar transmural electrograms from the right ventricular outflow tract (RVOT), RV apex and Left Ventricular inferior wall of Langendorff-perfused whole-hearts. A critical and unique feature will be the use of floating glass microelectrodes to record transmembrane action potentials from the epicardial surface of the RVOT of the intact heart. This aim will, for the first time, provide a whole heart model of the JWSs capable of a direct test of the two hypotheses and definitive identification of the substrate and triggers responsible for the development of ventricular tachycardia and fibrillation (VT/VF). Although implantation of a cardioverter defibrillator (ICD) is generally accepted as first-line therapy for symptomatic JWS patients, a pharmacological approach to therapy is recommended in cases of electrical storm, as an adjunct to ICD, and as preventative therapy for asymptomatic patients at risk for arrhythmic events. A secondary aim of this proposal is to identify safe an effective pharmacologic approaches to therapy of these life-threatening syndromes. We will determine structure-activity relationships (SAR) for acacetin and a test set of structurally similar congeners capable of selectively inhibiting Ito, thus acting to prevent or suppress arrhythmogenicity. We will determine the potency and efficacy of the congeners for inhibition of Ito in HEK cells expressing wild type (WT) Kv4.3 and KCNIP2 as well as pathology-mediated augmentation of Ito using polycistronic constructs that include WT and mutant SCN5A and KCND3 genes that have been associated with the JWSs. We will determine the selectivity of these agents in canine and human ventricular cardiomyocytes. We will then promote the most promising compound(s) to studies in canine coronary-perfused wedge preparations and, ultimately in Langendorff-perfused canine whole-heart models of BrS and ERS. Successful completion of these specific aims should importantly advance our understanding of the cellular mechanisms involved in the pathogenesis of the JWSs and provide a major advance in the pharmacological approach to therapy. These studies have the potential to provide the first major breakthrough in over 20 years for identification of safe and effective agent(s) for JWS. Equally important, the data generated will provide a unique platform for further development of novel therapies via the identification of efficacious lead compounds. Successful management of these syndromes, for which treatment alternatives are currently very limited, will close a very significant gap in our therapeutic armamentarium for individuals at risk for sudden cardiac death.

IC Name
NATIONAL HEART, LUNG, AND BLOOD INSTITUTE
  • Activity
    R01
  • Administering IC
    HL
  • Application Type
    5
  • Direct Cost Amount
    381490
  • Indirect Cost Amount
    247969
  • Total Cost
    629459
  • Sub Project Total Cost
  • ARRA Funded
    False
  • CFDA Code
    837
  • Ed Inst. Type
  • Funding ICs
    NHLBI:629459\
  • Funding Mechanism
    Non-SBIR/STTR RPGs
  • Study Section
    ESTA
  • Study Section Name
    Electrical Signaling, Ion Transport, and Arrhythmias Study Section
  • Organization Name
    LANKENAU INSTITUTE FOR MEDICAL RESEARCH
  • Organization Department
  • Organization DUNS
    125797084
  • Organization City
    WYNNEWOOD
  • Organization State
    PA
  • Organization Country
    UNITED STATES
  • Organization Zip Code
    190963450
  • Organization District
    UNITED STATES