Differential regulation of calcium regulatory proteins between sevoflurane postconditioning and delayed remote ischemic preconditioning in an isolated rat heart model Yang Yu, PhD Department of Anesthesiology Fuwai Hospital & National Center for Cardiovascular Diseases Chinese Academy of Medical Sciences Peking Union Medical College, Beijing, China
Fuwai Hospital & Cardiovascular Institute Background Myocardial ischemia/reperfusion injury (MIRI) is a common phenomenon in clinical settings, which increases the morbidity and mortality of patients with coronary heart disease(CHD). Hausenloy DJ, et al. Atherosclerosis 2009, 204: Infarction DecreasedCardiacFunction MIRI Reperfusion Arrhythmia First hitSecond hit Reperfusion Ischemia
Fuwai Hospital & Cardiovascular Institute Sevoflurane postconditioning A commonly used volatile anesthetic Favorable pharmacological profiles Entry point Remote ischemic preconditioning(RIPC) early phase (<4 hours) delayed phase (24-72hours) DRIPC Background
Fuwai Hospital & Cardiovascular Institute Background Cardioprotective strategy Sevoflurane postconditioning (SevoPoC) Delayed remote ischemic preconditioning (DRIPC) Calcium regulatory proteins L-type Ca 2+ channel (LTCCs) Ryanodine receptor isoform 2 (RyR2) Na + /Ca 2+ exchanger isoform 1 (NCX1)
Fuwai Hospital & Cardiovascular Institute Aim Aim: To explore the effect of SevoPoC and DRIPC on the expression of three calcium regulatory proteins. Animal: SD rats ( g) Model: Langendorff perfusion
Fuwai Hospital & Cardiovascular Institute Protocol Anesthesia and Thoracotomy Heart excised DRIPC Langendorff Perfusion
Fuwai Hospital & Cardiovascular Institute Grouping TC=Time control; I/RI=ischemia/reperfusion; SevoPoC=sevoflurane postconditioning; DRIPC=delayed remote ischemic preconditioning Hemodynamics cTnI release and infarct size Protein levels of calcium regulatory proteins mRNA levels of calcium regulatory proteins
Fuwai Hospital & Cardiovascular Institute Hemodynamics LVEDP HR,LVDP
Fuwai Hospital & Cardiovascular Institute Infarct size
Fuwai Hospital & Cardiovascular Institute cTnI level † P < vs I/RI group, # P < vs SevoPoC group, ★ P < vs DRIPC group.
Fuwai Hospital & Cardiovascular Institute Western blotting analysis
Fuwai Hospital & Cardiovascular Institute
SevoPoC and DRIPC ▲ improved hemodynamics ▲ reduced infarct size ▲ decreased cTnI release These results are similar with previous studies [1-3] One innovation is the study on calcium regulatory proteins, which shows SevoPoC could provide more ability to regulate calcium regulatory proteins than DRIPC, especially in the deactivation of NCX1. Conclusion [1]. Chin Med J (Engl), 2009, 24(3): [2]. MOL BIOL REP, 2010, 37(5): [3]J Surg Res, ):
Fuwai Hospital & Cardiovascular Institute