Highlights d TGF-bR2 ablation combined with hypercholesterolemia reprograms smooth muscle cells d Reprogrammed SMCs undergo clonal differentiation into varied mesenchymal lineages d Loss of normal aortic SMCs and increased non-SMC mass induce aortic aneurysms
Aim: Berberine (BBR), an isoquinoline-derived alkaloid isolated from Rhizoma coptidis, exerts cardioprotective effects. Because endoplasmic reticulum (ER) stress plays a pivotal role in myocardial ischemia/reperfusion (MI/R)-induced apoptosis, it was interesting to examine whether the protective effects of BBR resulted from modulating ER stress levels during MI/R injury, and to define the signaling mechanisms in this process. Methods: Male rats were treated with BBR (200 mg·kg -1 ·d -1 , ig) for 2 weeks, and then subjected to MI/R surgery. Cardiac dimensions and function were assessed using echocardiography. Myocardial infarct size and apoptosis was examined. Total serum LDH levels and CK activities, superoxide production, MDA levels and the antioxidant SOD activities in heart tissue were determined. An in vitro study was performed on cultured rat embryonic myocardium-derived cells H9C2 exposed to simulated ischemia/reperfusion (SIR). The expression of apoptotic, ER stress-related and signaling proteins were assessed using Western blot analyses. Results: Pretreatment with BBR significantly reduced MI/R-induced myocardial infarct size, improved cardiac function, and suppressed myocardial apoptosis and oxidative damage. Furthermore, pretreatment with BBR suppressed MI/R-induced ER stress, evidenced by down-regulating the phosphorylation levels of myocardial PERK and eIF2α and the expression of ATF4 and CHOP in heart tissues. Pretreatment with BBR also activated the JAK2/STAT3 signaling pathway in heart tissues, and co-treatment with AG490, a specific JAK2/STAT3 inhibitor, blocked not only the protective effects of BBR, but also the inhibition of BBR on MI/R-induced ER stress. In H9C2 cells, treatment with BBR (50 μmol/L) markedly reduced SIR-induced cell apoptosis, oxidative stress and ER stress, which were abolished by transfection with JAK2 siRNA. Conclusion: BBR ameliorates MI/R injury in rats by activating the AK2/STAT3 signaling pathway and attenuating ER stress-induced apoptosis.Keywords: berberine; myocardial ischemia/reperfusion injury; apoptosis; ER stress; oxidative stress; JAK2/STAT3; AG490 Acta Pharmacologica Sinica (2016) 37: 354-367; doi: 10.1038/aps.2015 published online 25 Jan 2016 Original Article # These authors contributed equally to this work. * To whom correspondence should be addressed. E-mail yunwangww@163.com (Yun WANG);shiqiangyu210@126.com (Shi-qiang YU) Received 2015-08-26 Accepted 2015-11-20
IntroductionIschemic heart disease remains the leading cause of mortality and disability worldwide. Although timely reperfusion therapy is the primary treatment, reperfusion itself results in major cardiac damage, commonly referred to as myocardial ischemia/reperfusion (MI/R) injury [1,2] . The endoplasmic reticulum (ER) is a multifunctional organelle in eukaryotic cells, which participates in the biosynthesis and folding of proteins. MI/R injury is known to result in the accumulation of unfolded proteins in the ER, which causes a severe unfolded protein response (UPR). Persistent UPR eventually ...
HIV-associated cardiovascular diseases have been widely described, but clinical studies aimed at establishing cause-effect relationships between HIV-associated cardiovascular disease and either the HIV infection or antiretroviral therapy have been problematic. Endothelial dysfunction is a sensitive marker and early event in atherosclerosis, and many have suggested that protease inhibitors promote endothelial dysfunction indirectly by inducing elevations in circulating lipids. To determine whether nucleoside reverse transcriptase inhibitors and/or protease inhibitors induce endothelial dysfunction, and to test whether this effect is dependent upon drug-mediated alteration in plasma lipid concentrations, we treated male Sprague-Dawley rats with pharmacological doses of azidothymidine (AZT), indinavir, or AZT plus indinavir through their drinking water for 1 month and assessed endothelial function in aortic rings using an isometric force measurement. Circulating levels of plasma lipids and endothelin-1, a marker for endothelial injury and/or dysfunction, were also determined. We found that AZT and AZT plus indinavir treatments dramatically reduced endothelium-dependent vessel relaxation. However, AZT treatment did not significantly alter plasma levels of cholesterol or triglyceride. In addition, plasma endothelin-1 levels were elevated in rats treated with AZT plus indinavir. Indinavir treatment alone increased plasma cholesterol levels but had no effect on endothelial function. These findings suggest that in addition to modulating plasma lipid levels, antiretrovirals, particularly AZT and perhaps other nucleoside reverse transcriptase inhibitors, may have direct effects on the vascular endothelium. Together with other increased risk factors for atherosclerosis in HIV patients, AZT-induced endothelial dysfunction may contribute to the cardiovascular diseases associated with HIV antiretroviral therapy.
The homeostatic link between oxidative stress and autophagy plays an important role in cellular responses to a wide variety of physiological and pathological conditions. However, the regulatory pathway and outcomes remain incompletely understood. Here, we show that reactive oxygen species (ROS) function as signaling molecules that regulate autophagy through ataxia-telangiectasia mutated (ATM) and cell cycle checkpoint kinase 2 (CHK2), a DNA damage response (DDR) pathway activated during metabolic and hypoxic stress. We report that CHK2 binds to and phosphorylates Beclin 1 at Ser90/Ser93, thereby impairing Beclin 1-Bcl-2 autophagyregulatory complex formation in a ROS-dependent fashion. We further demonstrate that CHK2-mediated autophagy has an unexpected role in reducing ROS levels via the removal of damaged mitochondria, which is required for cell survival under stress conditions. Finally, CHK2 À/À mice display aggravated infarct phenotypes and reduced Beclin 1 p-Ser90/Ser93 in a cerebral stroke model, suggesting an in vivo role of CHK2-induced autophagy in cell survival. Taken together, these results indicate that the ROS-ATM-CHK2-Beclin 1-autophagy axis serves as a physiological adaptation pathway that protects cells exposed to pathological conditions from stress-induced tissue damage.
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