Calcium release near l-type calcium channels promotes beat-to-beat variability in ventricular myocytes from the chronic AV block dog

Publication date

2015-12

Authors

Antoons, G.
Johnson, Daniel M
Dries, Eef
Santiago, Demetrio J
Ozdemir, Semir
Lenaerts, Ilse
Beekman, Jet D.M.ISNI 0000000389505445
Houtman, Marien J C
Sipido, Karin R
Vos, MarcISNI 0000000395825015

Editors

Advisors

Supervisors

Document Type

Article

Collections

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License

taverne

Abstract

Beat-to-beat variability of ventricular repolarization (BVR) has been proposed as a strong predictor of Torsades de Pointes (TdP). BVR is also observed at the myocyte level, and a number of studies have shown the importance of calcium handling in influencing this parameter. The chronic AV block (CAVB) dog is a model of TdP arrhythmia in cardiac hypertrophy, and myocytes from these animals show extensive remodeling, including of Ca(2+) handling. This remodeling process also leads to increased BVR. We aimed to determine the role that (local) Ca(2+) handling plays in BVR. In isolated LV myocytes an exponential relationship was observed between BVR magnitude and action potential duration (APD) at baseline. Inhibition of Ca(2+) release from sarcoplasmic reticulum (SR) with thapsigargin resulted in a reduction of [Ca(2+)]i, and of both BVR and APD. Increasing ICaL in the presence of thapsigargin restored APD but BVR remained low. In contrast, increasing ICaL with preserved Ca(2+) release increased both APD and BVR. Inhibition of Ca(2+) release with caffeine, as with thapsigargin, reduced BVR despite maintained APD. Simultaneous inhibition of Na(+)/Ca(2+) exchange and ICaL decreased APD and BVR to similar degrees, whilst increasing diastolic Ca(2+). Buffering of Ca(2+) transients with BAPTA reduced BVR for a given APD to a greater extent than buffering with EGTA, suggesting subsarcolemmal Ca(2+) transients modulated BVR to a larger extent than the cytosolic Ca(2+) transient. In conclusion, BVR in hypertrophied dog myocytes, at any APD, is strongly dependent on SR Ca(2+) release, which may act through modulation of the l-type Ca(2+) current in a subsarcolemmal microdomain.

Keywords

Action potential, Repolarization variability, Remodeling, Proarrhythmia, Calcium handling, Taverne, Journal Article, Research Support, Non-U.S. Gov't

Citation

Antoons, G, Johnson, D M, Dries, E, Santiago, D J, Ozdemir, S, Lenaerts, I, Beekman, J D M, Houtman, M J C, Sipido, K R & Vos, M A 2015, 'Calcium release near l-type calcium channels promotes beat-to-beat variability in ventricular myocytes from the chronic AV block dog', Journal of Molecular and Cellular Cardiology, vol. 89, no. Part B, pp. 326-334. https://doi.org/10.1016/j.yjmcc.2015.10.008