AIMS: Recombinant human neuregulin-1 (rhNRG-1) improves cardiac function in experimental heart failure models, but the underlying mechanism remains largely unknown. In this study, we evaluated whether rhNRG-1 could improve cardiac function via the cardiac myosin light chain kinase/myosin light chain 2 ventricular (cMLCK/MLC-2v) pathway in rats with myocardial infarction (MI). METHODS AND RESULTS: Rats with MI were intravenously infused with rhNRG-1 (5 µg/kg/h) for 7 days through osmotic pumps. The mechanism of action of rhNRG-1 was investigated by assaying the non-infarcted myocardium with gene chips. The cMLCK expression, phosphorylated MLC-2v and cardiac function were significantly up-regulated, as assessed by real-time PCR, Western blot and echocardiography, in those animals treated with rhNRG-1. Moreover, the restoration of rhNRG-1-induced sarcomeric organization in serum-free cultured neonatal rat cardiomyocytes with rhNRG-1 was inhibited by cMLCK RNA interference or ML-7, an inhibitor of MLCKs. Adenovirus containing the rat cMLCK coding region was injected into non-infarcted myocardium, and cardiac function was monitored using echocardiography and a haemodynamic machine. The dP/dt and fractional shortening decreasing significantly after MI, and improved by 15.7 and 32.1%, respectively, following local cMLCK application (all P < 0.05). CONCLUSION: Our results suggest that cMLCK is a downstream effector of rhNRG-1 involved in rhNRG-1-induced cardiac function improvement, and that myocardial cMLCK up-regulation can improve cardiac function in rats with MI.
AIMS: Recombinant humanneuregulin-1 (rhNRG-1) improves cardiac function in experimental heart failure models, but the underlying mechanism remains largely unknown. In this study, we evaluated whether rhNRG-1 could improve cardiac function via the cardiac myosin light chain kinase/myosin light chain 2 ventricular (cMLCK/MLC-2v) pathway in rats with myocardial infarction (MI). METHODS AND RESULTS:Rats with MI were intravenously infused with rhNRG-1 (5 µg/kg/h) for 7 days through osmotic pumps. The mechanism of action of rhNRG-1 was investigated by assaying the non-infarcted myocardium with gene chips. The cMLCK expression, phosphorylated MLC-2v and cardiac function were significantly up-regulated, as assessed by real-time PCR, Western blot and echocardiography, in those animals treated with rhNRG-1. Moreover, the restoration of rhNRG-1-induced sarcomeric organization in serum-free cultured neonatal rat cardiomyocytes with rhNRG-1 was inhibited by cMLCK RNA interference or ML-7, an inhibitor of MLCKs. Adenovirus containing the rat cMLCK coding region was injected into non-infarcted myocardium, and cardiac function was monitored using echocardiography and a haemodynamic machine. The dP/dt and fractional shortening decreasing significantly after MI, and improved by 15.7 and 32.1%, respectively, following local cMLCK application (all P < 0.05). CONCLUSION: Our results suggest that cMLCK is a downstream effector of rhNRG-1 involved in rhNRG-1-induced cardiac function improvement, and that myocardial cMLCK up-regulation can improve cardiac function in rats with MI.
Authors: Jeffrey E Cohen; Brendan P Purcell; John W MacArthur; Anbin Mu; Yasuhiro Shudo; Jay B Patel; Christopher M Brusalis; Alen Trubelja; Alexander S Fairman; Bryan B Edwards; Mollie S Davis; George Hung; William Hiesinger; Pavan Atluri; Kenneth B Margulies; Jason A Burdick; Y Joseph Woo Journal: Circ Heart Fail Date: 2014-06-05 Impact factor: 8.790
Authors: Atsushi Tachibana; Michelle R Santoso; Morteza Mahmoudi; Praveen Shukla; Lei Wang; Mihoko Bennett; Andrew B Goldstone; Mouer Wang; Masahiro Fukushi; Antje D Ebert; Y Joseph Woo; Eric Rulifson; Phillip C Yang Journal: Circ Res Date: 2017-07-25 Impact factor: 17.367