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• W4285803633 abstract "Abstract Intracellular calcium (Ca 2+ ) cycling is tightly regulated in the healthy heart ensuring effective contraction. This is achieved by transverse (t)-tubule membrane invaginations that facilitate close coupling of key Ca 2+ -handling proteins such as the L-type Ca 2+ channel (LCC) and Na + -Ca 2+ exchanger (NCX) on the cell surface with ryanodine receptors (RyRs) on the intracellular Ca 2+ store. Though less abundant and regular than in the ventricle, t-tubules also exist in atrial myocytes as a network of transverse invaginations with axial extensions known as the transverse-axial tubule system (TATS). In heart failure and atrial fibrillation there is TATS remodeling that is associated with aberrant Ca 2+ -handling and Ca 2+ -induced arrhythmic activity, however the mechanism underlying this is not fully understood. To address this, we developed a novel 3D human atrial myocyte model that couples electrophysiology and Ca 2+ -handling with variable TATS organization and density. We extensively parameterized and validated our model against experimental data to build a robust tool examining TATS regulation of subcellular Ca 2+ release. We found that varying TATS density and thus the localization of key Ca 2+ -handling proteins has profound effects on Ca 2+ handling. Following TATS loss there is reduced NCX that results in increased cleft Ca 2+ concentration through decreased Ca 2+ extrusion. This elevated Ca 2+ increases RyR open probability causing spontaneous Ca 2+ releases and promotion of arrhythmogenic waves (especially in the cell interior) that leads to voltage instabilities through delayed afterdepolarizations. In summary, this study demonstrates a mechanistic link between TATS remodeling and Ca 2+ -driven proarrhythmic behavior that likely reflects the arrhythmogenic state observed in disease. Key Points Transverse-axial tubule systems (TATS) modulate Ca 2+ handling and excitation-contraction coupling in atrial myocytes, with TATS remodeling in heart failure and atrial fibrillation associated with altered Ca 2+ cycling and subsequent arrhythmogenesis. To investigate the poorly understood mechanisms linking TATS variation and spontaneous Ca 2+ release, we built, parameterized and validated a 3D human atrial myocyte model coupling electrophysiology and spatially-detailed subcellular Ca 2+ handling governed by the TATS. Simulated TATS loss causes diastolic Ca 2+ and voltage instabilities through reduced NCX-mediated Ca 2+ removal, cleft Ca 2+ accumulation and increased RyR open probability, resulting in spontaneous Ca 2+ release and promotion of arrhythmogenic waves and delayed afterdepolarizations. At fast electrical rates typical of atrial tachycardia/fibrillation, spontaneous Ca 2+ releases are larger and more frequent in the cell interior than at the periphery. Our work provides mechanistic insight into how atrial TATS remodeling can lead to Ca 2+ - driven instabilities that may ultimately contribute to the arrhythmogenic state in disease." @default.
• W4285803633 created "2022-07-19" @default.
• W4285803633 creator A5000873284 @default.
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• W4285803633 creator A5077580168 @default.
• W4285803633 date "2022-07-17" @default.
• W4285803633 modified "2023-10-18" @default.
• W4285803633 title "Mechanisms of spontaneous Ca²⁺ release-mediated arrhythmia in a novel 3D human atrial myocyte model: I. Transverse-axial tubule variation" @default.
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