The RyR2-R2474S Mutation Sensitizes Cardiomyocytes and Hearts to Catecholaminergic Stress-Induced Oxidation of the Mitochondrial Glutathione Pool

Wegener J, Wagdi A, Wagner E, Katschinski DM, Hasenfuss G, Bruegmann T, Lehnart SE (2021)
Frontiers in Physiology 12.

Zeitschriftenaufsatz | Veröffentlicht | Englisch
 
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Autor*in
Wegener, JörgUniBi ; Wagdi, Ahmed; Wagner, Eva; Katschinski, Dörthe M.; Hasenfuss, Gerd; Bruegmann, Tobias; Lehnart, Stephan E.
Abstract / Bemerkung
Missense mutations in the cardiac ryanodine receptor type 2 (RyR2) characteristically cause catecholaminergic arrhythmias. Reminiscent of the phenotype in patients, RyR2-R2474S knockin mice develop exercise-induced ventricular tachyarrhythmias. In cardiomyocytes, increased mitochondrial matrix Ca2+uptake was recently linked to non-linearly enhanced ATP synthesis with important implications for cardiac redox metabolism. We hypothesize that catecholaminergic stimulation and contractile activity amplify mitochondrial oxidation pathologically in RyR2-R2474S cardiomyocytes. To investigate this question, we generated double transgenic RyR2-R2474S mice expressing a mitochondria-restricted fluorescent biosensor to monitor the glutathione redox potential (EGSH). Electrical field pacing-evoked RyR2-WT and RyR2-R2474S cardiomyocyte contractions resulted in a small but significant baselineEGSHincrease. Importantly, β-adrenergic stimulation resulted in excessiveEGSHoxidization of the mitochondrial matrix in RyR2-R2474S cardiomyocytes compared to baseline and RyR2-WT control. Physiologically β-adrenergic stimulation significantly increased mitochondrialEGSHfurther in intact beating RyR2-R2474S but not in RyR2-WT control Langendorff perfused hearts. Finally, this catecholaminergicEGSHincrease was significantly attenuated following treatment with the RyR2 channel blocker dantrolene. Together, catecholaminergic stimulation and increased diastolic Ca2+leak induce a strong, but dantrolene-inhibited mitochondrialEGSHoxidization in RyR2-R2474S cardiomyocytes.
Erscheinungsjahr
2021
Zeitschriftentitel
Frontiers in Physiology
Band
12
eISSN
1664-042X
Page URI
https://pub.uni-bielefeld.de/record/2984473

Zitieren

Wegener J, Wagdi A, Wagner E, et al. The RyR2-R2474S Mutation Sensitizes Cardiomyocytes and Hearts to Catecholaminergic Stress-Induced Oxidation of the Mitochondrial Glutathione Pool. Frontiers in Physiology. 2021;12.
Wegener, J., Wagdi, A., Wagner, E., Katschinski, D. M., Hasenfuss, G., Bruegmann, T., & Lehnart, S. E. (2021). The RyR2-R2474S Mutation Sensitizes Cardiomyocytes and Hearts to Catecholaminergic Stress-Induced Oxidation of the Mitochondrial Glutathione Pool. Frontiers in Physiology, 12. https://doi.org/10.3389/fphys.2021.777770
Wegener, Jörg, Wagdi, Ahmed, Wagner, Eva, Katschinski, Dörthe M., Hasenfuss, Gerd, Bruegmann, Tobias, and Lehnart, Stephan E. 2021. “The RyR2-R2474S Mutation Sensitizes Cardiomyocytes and Hearts to Catecholaminergic Stress-Induced Oxidation of the Mitochondrial Glutathione Pool”. Frontiers in Physiology 12.
Wegener, J., Wagdi, A., Wagner, E., Katschinski, D. M., Hasenfuss, G., Bruegmann, T., and Lehnart, S. E. (2021). The RyR2-R2474S Mutation Sensitizes Cardiomyocytes and Hearts to Catecholaminergic Stress-Induced Oxidation of the Mitochondrial Glutathione Pool. Frontiers in Physiology 12.
Wegener, J., et al., 2021. The RyR2-R2474S Mutation Sensitizes Cardiomyocytes and Hearts to Catecholaminergic Stress-Induced Oxidation of the Mitochondrial Glutathione Pool. Frontiers in Physiology, 12.
J. Wegener, et al., “The RyR2-R2474S Mutation Sensitizes Cardiomyocytes and Hearts to Catecholaminergic Stress-Induced Oxidation of the Mitochondrial Glutathione Pool”, Frontiers in Physiology, vol. 12, 2021.
Wegener, J., Wagdi, A., Wagner, E., Katschinski, D.M., Hasenfuss, G., Bruegmann, T., Lehnart, S.E.: The RyR2-R2474S Mutation Sensitizes Cardiomyocytes and Hearts to Catecholaminergic Stress-Induced Oxidation of the Mitochondrial Glutathione Pool. Frontiers in Physiology. 12, (2021).
Wegener, Jörg, Wagdi, Ahmed, Wagner, Eva, Katschinski, Dörthe M., Hasenfuss, Gerd, Bruegmann, Tobias, and Lehnart, Stephan E. “The RyR2-R2474S Mutation Sensitizes Cardiomyocytes and Hearts to Catecholaminergic Stress-Induced Oxidation of the Mitochondrial Glutathione Pool”. Frontiers in Physiology 12 (2021).
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