BackgroundMesenchymal stem cells (MSCs) have been widely applied to treat various inflammatory diseases. Inflammatory cytokines can induce both apoptosis and autophagy in MSCs. However, whether autophagy plays a pro- or con-apoptosis effect on MSCs in an inflammatory microenvironment has not been clarified.MethodsWe inhibited autophagy by constructing MSCs with lentivirus containing small hairpin RNA to knockdown Beclin-1 and applied these MSCs to a model of sepsis to evaluate therapeutic effect of MSCs.ResultsHere we show that inhibition of autophagy in MSCs increases the survival rate of septic mice more than control MSCs, and autophagy promotes apoptosis of MSCs during application to septic mice. Further study demonstrated that autophagy aggravated tumor necrosis factor alpha plus interferon gamma-induced apoptosis of MSCs. Mechanically, autophagy inhibits the expression of the pro-survival gene Bcl-2 via suppressing reactive oxygen species/mitogen-activated protein kinase 1/3 pathway.ConclusionsOur findings indicate that an inflammatory microenvironment-induced autophagy promotes apoptosis of MSCs. Therefore, modulation of autophagy in MSCs would provide a novel approach to improve MSC survival during immunotherapy.
Statin treatment in patients with coronary heart disease is associated with a reduced incidence of short-term adverse events and endpoint cardiac events. However, the effects of statin treatment on atherosclerotic plaques, particularly stable plaques, remain poorly defined. In total, 228 consecutive patients with stable atherosclerotic plaques who had undergone coronary arteriography (CAG) and intravascular ultrasound (IVUS) were randomly assigned to receive placebo (placebo group, n=54) or atorvastatin (ATOR) at a single daily dose of 10 mg (ATOR 10 mg group, n=47), 20 mg (ATOR 20 mg group, n=45), 40 mg (ATOR 40 mg group, n=43) or 80 mg (ATOR 80 mg group, n=39). Endpoints, including serum lipids, serum inflammation, plaque volume and percentage of plaque necrosis were assessed after 3–6 months. At baseline, mean low-density lipoprotein (LDL), high-density lipoprotein (HDL) and high-sensitivity C-reactive protein (hs-CRP) levels, as well as plaque volumes and percentages of plaque necrosis, were similar between all groups. At 6 months of follow-up, the LDL levels in the ATOR groups were below those at their respective baselines (P<0.01). HDL levels in the ATOR 80 mg group following treatment were significantly higher compared with baseline (P=0.001). Additionally, they were significantly higher compared with those in the placebo, ATOR 10, 20 and 40 mg groups (P<0.01, P=0.001, P=0.048, P=0.047, respectively). Hs-CRP levels in the placebo group following treatment were higher compared with baseline levels (6.87±2.62 vs. 5.07±1.80, P<0.01), but hs-CRP levels in the ATOR 80 mg group following treatment were lower compared with baseline (3.59±1.07 vs. 6.10±2.12, P<0.01). According to the virtual histology (VH) of IVUS, the percentages of plaque necrosis following treatment in the placebo and ATOR 10 mg groups rose above baseline levels (15.51±12.56 vs. 7.69±1.31%, 13.54±11.76 vs. 7.83±1.43%, P<0.01) and conformed to the diagnostic criteria for unstable plaques (15.51±12.56, 13.54±11.76%). By contrast, in the ATOR 20, 40 and 80 mg groups, percentages of plaque necrosis remained stable following treatment compared with baseline (P=0.069, 0.846 and 0.643, respectively). Plaque volumes following treatment in the placebo, ATOR 10 and 20 mg groups were similar to baseline levels. However, in the ATOR 40 and 80 mg groups, plaque volumes decreased following treatment compared with baseline plaque volumes (30.69±8.12 vs. 37.09±12.01 mm3, 24.99±1.01 vs. 36.47±14.68 mm3, P=0.019, P<0.01, respectively). ATOR (20 mg/day) is able to lower LDL to standard levels while ATOR 40 mg/day was superior to 20 mg/day and had similar effects to 80 mg/day. Only ATOR 80 mg/day was able to increase HDL levels. Hs-CRP in patients without ATOR was higher and ATOR 80 mg/day decreased levels. ATOR ≥20 mg/day is able to stabilize plaques and ATOR 80 mg/day was superior to 20 and 40 mg/day. Thus, ATOR 40–80 mg/day reduces the volume of plaques.
Background: Heart failure (HF) is an end-stage syndrome of all structural heart diseases which accompanies the loss of myocardium and cardiac fibrosis. Although the role of inflammasome in cardiac fibrosis has recently been a point of focus, the mechanism of inflammasome activation in HF has not yet been elucidated.Methods: In this study, we investigated the expression of inflammasome proteins in a rat thoracic aorta constriction (TAC) model and cultured cardiac fibroblasts with stimulation of norepinephrine (NE).Results: Our results showed that levels of inflammasome proteins in the myocardial of TAC rats were elevated. By blocking β-adrenergic signaling in the rats, inflammasome activation was suppressed and heart function was improved. The stimulation of cultured cardiac fibroblasts with NE activated inflammasome in vitro, which was abrogated by the inhibition of the calcium channels and reactive oxygen species (ROS). The activation of inflammasome by NE promoted cardiac fibrosis, whereas the inhibition of the calcium channels, ROS, and inflammasome reduced this effect.Conclusions: The present study indicated that activation of inflammasome by β-adrenergic signaling promotes cardiac fibrosis. Therefore, modulation of inflammasome during HF might provide a novel strategy to treat this disease.
Renal insufficiency and heart disease are two challenging conditions for the current health-care system. More than 660,000 Americans suffer from end-stage kidney disease (ESKD) and have reached the point of intervention, with 468,000 receiving dialysis therapy. 1 Moreover, in a Duke Electrophysiology Genetic and Genomic Studies (EPGEN) study, estimated glomerular filtration rate (eGFR) decreased by 10 ml/min/1.73 m 2 and mortality increased by 48% (p < 0.001) 2 and major cardiac events account for nearly 50% of deaths in patients with chronic kidney disease (CKD). 3 Renal insufficiency is a common complication of cardiovascular diseases and is a strong independent risk factor for mortality. 4 CKD has been reported in up to 40% of chronic heart failure patients. 5 Moreover, progressive heart failure can lead to renal hypoperfusion and activation of inflammatory factors, and further result in the deterioration of renal function. 5 Similarly, arrhythmia is also a common cause of death in dialysis patients, accounting for 26% and 25% of hemodialysis and peritoneal dialysis deaths respectively. 6 Cardiac resynchronization therapy (CRT) can improve clinical symptoms and left ventricular ejection fraction (LVEF) and reduce
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