Abstract Or105: Constitutive Deletion of the Obscurin Ig58/59 Domains Induces Structural and Electrophysiological Remodeling in Atria

Abstract

Introduction: Obscurin is a giant cytoskeletal protein that supports muscle development, tethers intracellular compartments and regulates contraction. In the ObscnΔIg58/59 mouse model, expressing obscurin lacking Immunoglobulin (Ig) domains 58 and 59, aging males exhibit irregular heart rhythm with prominent atrial fibrillation, atrial enlargement, and progressive remodeling of the ventricles. A mechanistic basis for the emergence of arrhythmia early on could not be identified in ObscnΔIg58/59 ventricles, suggesting that the atria are preferentially impacted by deletion of the obscurin Ig58/59 module prior to the ventricles. Hypothesis: We hypothesize that Ig58/59 deletion elicits unique structural, electrical, and functional consequences in the atria preceding ventricular maladaptation. Aims: I. Examine the structural organization of ObscnΔIg58/59 atria II. Assess Ca 2+ handling in isolated atrial cardiomyocytes and determine molecular alterations. Methods: Electron microscopy and super resolution microscopy were utilized to visualize sarcomeric ultrastructure and the transverse-axial tubule (TAT) network, respectively. Ca 2+ handling activity and synchrony were also resolved, while Phos-Tag gels were used to quantify T-cap phospho-species. Results: ObscnΔIg58/59 atria exhibited misalignment of Z-disks. Spontaneous and stimulated Ca 2+ cycling behavior were [AB1] differentially disrupted in atrial cardiomyocytes in 6- and 12-month ObscnΔIg58/59 males. Relatedly, atrial cells showed an age-dependent deterioration in TAT architecture. Finally, as a function of aging, ObscnΔIg58/59 atria displayed alterations in the expression and phosphorylation of T-cap, a Z-disk protein implicated in the integration of t-tubules with the sarcomeric cytoskeleton. Conclusions: The structural and electrical alterations that arise in ObscnΔIg58/59 atria precede ventricular dysfunction and coincide with the emergence of atrial fibrillation. Collectively, our work indicates that the atria are principally affected by Ig58/59 elimination, instigating arrhythmias and morphological alterations with age. The ObscnΔIg58/59 mouse model has thus emerged as a proxy for atrial cardiomyopathy.