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Browsing by Author "Tian, Zhipeng"
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Item Effects of ondansetron on apamin-sensitive small conductance calcium-activated potassium currents in pacing-induced failing rabbit hearts(Elsevier, 2019) Yin, Dechun; Yang, Na; Tian, Zhipeng; Wu, Adonis Z.; Xu, Dongzhu; Chen, Mu; Kamp, Nicholas J.; Wang, Zhuo; Shen, Changyu; Chen, Zhenhui; Lin, Shien-Fong; Rubart-von der Lohe, Michael; Chen, Peng-Sheng; Everett, Thomas H., IV; Medicine, School of MedicineBackground Ondansetron, a widely prescribed antiemetic, has been implicated in drug-induced long QT syndrome. Recent patch clamp experiments have shown that ondansetron inhibits the apamin-sensitive small conductance calcium-activated potassium current (IKAS). Objective The purpose of this study was to determine whether ondansetron causes action potential duration (APD) prolongation by IKAS inhibition. Methods Optical mapping was performed in rabbit hearts with pacing-induced heart failure (HF) and in normal hearts before and after ondansetron (100 nM) infusion. APD at 80% repolarization (APD80) and arrhythmia inducibility were determined. Additional studies with ondansetron were performed in normal hearts perfused with hypokalemic Tyrode's (2.4 mM) solution before or after apamin administration. Results The corrected QT interval in HF was 326 ms (95% confidence interval [CI] 306–347 ms) at baseline and 364 ms (95% CI 351–378 ms) after ondansetron infusion (P < .001). Ondansetron significantly prolonged APD80 in the HF group and promoted early afterdepolarizations, steepened the APD restitution curve, and increased ventricular vulnerability. Ventricular fibrillation was not inducible in HF ventricles at baseline, but after ondansetron infusion, ventricular fibrillation was induced in 5 of the 7 ventricles (P = .021). In hypokalemia, apamin prolonged APD80 from 163 ms (95% CI 146–180 ms) to 180 ms (95% CI 156–204 ms) (P = .018). Subsequent administration of ondansetron failed to further prolong APD80 (180 ms [95% CI 156–204 ms] vs 179 ms [95% CI 165–194 ms]; P = .789). The results were similar when ondansetron was administered first, followed by apamin. Conclusion Ondansetron is a specific IKAS blocker at therapeutic concentrations. Ondansetron may prolong the QT interval in HF by inhibiting small conductance calcium-activated potassium channels, which increases the vulnerability to ventricular arrhythmias.Item Role of apamin sensitive small conductance calcium-activated potassium currents in long term cardiac memory in rabbits(Elsevier, 2018) Yin, Dechun; Chen, Mu; Yang, Na; Wu, Adonis Z.; Xu, Dongzhu; Tsai, Wei-Chung; Yuan, Yuan; Tian, Zhipeng; Chan, Yi-Hsin; Shen, Changyu; Chen, Zhenhui; Lin, Shien-Fong; Weiss, James N.; Chen, Peng-Sheng; Everett, Thomas H., IV.; Medicine, School of MedicineBackground Apamin-sensitive small conductance calcium-activated K current (IKAS) is upregulated during ventricular pacing and masks short-term cardiac memory (CM). Objective – To determine the role of IKAS in long-term CM. Methods – CM was created with 3-5 weeks of ventricular pacing and defined by a flat or inverted T-wave off pacing. Epicardial optical mapping was performed in both paced and normal ventricles. Action potential duration (APD80) was determined during RA pacing. Ventricular stability was tested before and after IKAS blockade. Four paced hearts and 4 normal hearts were used for western blotting and histology. Results – There were no significant differences in either the echocardiographic parameters or in fibrosis levels between groups. Apamin induced more APD80 prolongation in CM than in normal ventricles (9.6% [8.8%-10.5%] vs 3.1% [1.9%-4.3%], p<0.001). Apamin significantly lengthend the APD80 in the CM model at late activation sites, indicating significant IKAS upregulation at those sites. The CM model also had altered Ca2+ handling as the 50% Ca2+ transient duration and amplitude were increased at distal sites compared to a proximal site (near the pacing site). After apamin, the CM model had increased VF inducibility (paced vs control, 33/40 (82.5%) vs 7/20 (35%) P<0.001), and longer VF durations (124 vs 26 seconds, P<0.001). Conclusions Chronic ventricular pacing increases Ca2+ transients at late activation sites which activates IKAS to maintain repolarization reserve. IKAS blockade increases VF vulnerability in chronically paced rabbit ventricles.