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Role of CaMKII and PKA in Early Afterdepolarization of Human Ventricular Myocardium Cell: A Computational Model Study

Computational and Mathematical Methods in Medicine (2016) 2016
DOI: 10.1155/2016/4576313
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Abstract

Early afterdepolarization (EAD) plays an important role in arrhythmogenesis. Many experimental studies have reported that Ca2+/calmodulin-dependent protein kinase II (CaMKII) and β-adrenergic signaling pathway are two important regulators. In this study, we developed a modified computational model of human ventricular myocyte to investigate the combined role of CaMKII and β-adrenergic signaling pathway on the occurrence of EADs. Our simulation results showed that (1) CaMKII overexpression facilitates EADs through the prolongation of late sodium current's (INaL) deactivation progress; (2) the combined effect of CaMKII overexpression and activation of β-adrenergic signaling pathway further increases the risk of EADs, where EADs could occur at shorter cycle length (2000 ms versus 4000 ms) and lower rapid delayed rectifier K+ current (IKr) blockage (77% versus 85%). In summary, this study computationally demonstrated the combined role of CaMKII and β-adrenergic signaling pathway on the occurrence of EADs, which could be useful for searching for therapy strategies to treat EADs related arrhythmogenesis.

Figures

  • Table 1: Current increment and EADs occurrence when different targets were phosphorylated by CaMKII independently.
  • Figure 1: (a) No EAD was produced when CaMKII phosphorylation level was in control (CaMK0 = 0.05). (b) Corresponding 𝐼NaL when no EADs occurred in (a). (c) Alternated EADs were produced when 𝐼NaL phosphorylation by CaMKII was enhanced with CaMK0 of 0.12 and other targets’ phosphorylation levels were in control (CaMK0 = 0.05). (d) Corresponding 𝐼NaL when alternated EADs occurred in (c). Under these conditions, CL was 2000ms and 𝐼Kr was blocked by 85%.
  • Table 2: Combined effect of CaMKII overexpression and 𝛽-adrenergic agonist on EADs.
  • Figure 2: (a) EADs were induced when 1 𝜇M ISO was applied and𝐼Kr was blocked by 85%. In (b), EADs disappeared when 𝐼Kr blockage was reduced to 77%. Cycle length was set 2000ms and CaMKII phosphorylation level to all targetswas kept control (CaMK0 =0.05).
  • Figure 3: EADs occurred when 𝐼Kr was blocked by 85% (a) and 77% (c); corresponding 𝐼NaL when 𝐼Kr was blocked by 85% (b) and 77% (d). CL was set 2000ms, 1 𝜇M ISO was applied and CaMK0 for 𝐼NaL was set 0.12 independently.
  • Figure 4: 1𝜇M ISO was applied and cycle length was 2000ms. CaMK0 for 𝐼CaL was 0.12 but CaMK0 for other targets was 0.05. EADs occurred when 𝐼Kr was blocked by 85% in (a), but when 𝐼Kr blockage was reduced to 77%, EADs vanished in (c). (b) 𝐼CaL figures when EADs existed. (d) 𝐼CaL figures when EADs vanished.

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APA

Dai, L., Zang, Y., Zheng, D., Xia, L., & Gong, Y. (2016). Role of CaMKII and PKA in Early Afterdepolarization of Human Ventricular Myocardium Cell: A Computational Model Study. Computational and Mathematical Methods in Medicine, 2016. https://doi.org/10.1155/2016/4576313

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