A previous study indicated that Rheb1 is required for mammalian target of TOR complex 1 (mTORC1) signaling in the brain. However, the function of Rheb1 in the heart is still elusive. In the present study, we deleted Rheb1 specifically in cardiomyocytes and found that reduced Rheb1 levels conferred cardioprotection against pathologic remodeling in myocardial infarction (MI) and pressure overload (transverse aortic constriction) mouse models. Cardiomyocyte apoptosis was reduced and mTORC1 activity was suppressed in cardiomyocyte Rheb1-deletion mice, suggesting that Rheb1 regulates mTORC1 activation in myocardium. Furthermore, we demonstrated that astragaloside IV (As-IV) could inhibit mTORC1, and As-IV treatment displayed similar protection against MI and transverse aortic constriction as Rheb1 genetic inhibition. This study indicates that Rheb1 is essential for mTORC1 activation in cardiomyocytes and suggests that targeting Rheb1-mTORC1 signaling, such as by As-IV treatment, may be an effective therapeutic method for treating patients with adverse cardiac remodeling after MI and hypertrophy.
In the present study, we observed a rapid and robust activation of the ribosomal protein S6K (S6 kinase) provoked by MI (myocardial infarction) in mice. As activation of S6K promotes cell growth, we hypothesized that increased S6K activity contributes to pathological cardiac remodelling after MI and that suppression of S6K activation may prevent aberrant cardiac remodelling and improve cardiac function. In mice, administration of rapamycin effectively suppressed S6K activation in the heart and significantly improved cardiac function after MI. The heart weight/body weight ratio and fibrotic area were substantially reduced in rapamycin-treated mice. In rapamycin-treated mice, decreased cardiomyocyte remodelling and cell apoptosis were observed compared with vehicle-treated controls. Consistently, inhibition of S6K with PF-4708671 displayed similar protection against MI as rapamycin. Mechanistically, we observed significantly enhanced Thr308 phosphorylation and activation of Akt in rapamycin- and PF-4708671-treated hearts. Cardiomyocyte-specific deletion of PDK1 (phosphoinositide-dependent kinase 1) and Akt1/3 abolished cardioprotection after MI in the presence of rapamycin administration. These results demonstrate that S6K inhibition rendered beneficial effects on left ventricular function and alleviated adverse remodelling following MI in mice by enhancing Akt signalling, suggesting the therapeutic value of both rapamycin and PF-4708671 in treating patients following an MI.
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