Abstract P1060: Sarcomeric Protein Phosphorylation Protects Mouse Hearts From Ischemia/reperfusion Injury

Abstract

Introduction: Post-translational modifications of cardiac troponin I (cTnI), an essential sarcomeric protein, have been known to play a vital role in regulating heart function. Site-specific phosphorylation on cTnI Ser199 is upregulated in human ischemic heart failure, negatively affects diastolic function but preserves ejection fraction in mice in vivo , and promotes contractility recovery after ischemia/reperfusion (I/R) in male isolated mouse hearts. However, its cardioprotective mechanism is largely unknown. Hypothesis: We assessed the hypothesis that cTnI Ser199 hyperphosphorylation protects hearts during I/R via down-regulating reactive oxygen species (ROS). Methods: Due to the current methodology limitation, there is no way to phosphorylate one specific site on cTnI in vivo . We, therefore, generated a transgenic mouse model named TgD that carried Serine (S) to Aspartic Acid (D) mutation at cTnI Ser200 (equivalent to Ser199 in human sequence) to mimic the site-specific hyperphosphorylation, which was a widely accepted method for in vivo studies on sarcomeric protein phosphorylation. The cardiac function was examined using Langendorff isolated hearts with pacing at baseline and after 30-minute global ischemia followed by 2-hour reperfusion. Results: At baseline, TgD hearts (both genders, 7-8 mice/gender, age 3-5 months) showed comparable rate pressure product (RPP), left ventricular developed pressure (LVDevP), and d P /d t max but decreased d P /d t min relative to wildtype (WT) littermates. After I/R, TgD presented significantly better RPP, LVDevP, d P /d t max , and d P /d t min with remarkable contractile function recovery rate compared to WT (i.e., 47% ±2% vs. 24%±2% in RPP, P<0.05) in both genders. The level of total ROS was similar in TgD and WT hearts at baseline. Although the ROS increased after I/R, it remained at a significantly lower level in post-I/R TgD hearts than WT controls, associated with differentially altered activities of antioxidant enzymes. Conclusions: In conclusion, human heart-failure-related cTnI Ser199 hyperphosphorylation protects heart function during global I/R in isolated mouse hearts in both genders . The protective mechanism, at least in part, involves the downregulation of ROS.