MicroRNAs play critical roles in regulating cell survival under multiple pathological conditions of heart diseases. Oxidative stress-induced apoptosis contributes greatly to heart ischemia-reperfusion injury. Herein, we describe a novel regulatory role of miR-28 on the survival of cardiomyocytes. We show that miR-28 was upregulated in cardiomyocytes treated with hydrogen peroxide (HO). MiR-28 gain of function sensitized cell apoptosis, whereas miR-28 loss of function partially rescued cell apoptosis induced by HO. Importantly, we observed a significant reduction in Akt/mammalian target of rapamycin (mTOR) signaling activity after miR-28 treatment. Luciferase activity assay and western blot analysis both revealed that, phosphoinositide-dependent kinase-1 (PDK1), which is critical for Akt activation, was directly and negatively modulated by miR-28. Our results therefore indicate that miR-28 regulates oxidative stress-induced cell apoptosis in heart muscle cells, which possibly involves a PDK1/Akt/mTOR-dependent mechanism. MIR-28 could serve as a critical therapeutic target to diminish oxidative stress-induced cell death in the heart.
Acute lung injury (ALI) and acute respiratory distress syndrome (ARDS), the prime causes of morbidity and mortality in critically ill patients, are usually treated by general supportive treatments. Endoplasmic reticulum autophagy (ER-phagy) maintains cellular homeostasis by degrading damaged endoplasmic reticulum (ER) fragments and misfolded proteins. ER-phagy is crucial for maintaining ER homeostasis and improving the internal environment. ER-phagy has a particular role in some aspects, such as immunity, inflammation, cell death, pathogen infection, and collagen quality. In this review, we summarized the definition, epidemiology, and pathophysiology of ALI/ARDS and described the regulatory mechanisms and functions of ER-phagy as well as discussed the potential role of ER-phagy in ALI/ARDS from the perspectives of immunity, inflammation, apoptosis, pathogen infection, and fibrosis to provide a novel and effective target for improving the prognosis of ALI/ARDS.
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