Purpose Renal ischemia-reperfusion (I/R), an important cause of acute kidney injury, is unavoidable during various types of operations, including renal transplantation, surgical revascularization of the renal artery, partial nephrectomy, and treatment of suprarenal aortic aneurysms. Exacerbation of I/R injury is mediated by reactive oxygen species (ROS). A recent study has shown that hydrogen has antioxidant properties. In this study, we tested the hypothesis that a hydrogen-rich saline solution (HRSS) attenuates renal I/R injury in a rodent model. Methods Rats were treated with an intravenous injection of HRSS or control saline solution followed by renal I/R. After 24 h of treatment, we performed a histological examination and transmission electron microscopy, and measured serum levels of 8-OHdG.
Reversed feeding uncouples peripheral and master clock gene rhythms and leads to an increased risk of disease development. The aim of this study was to determine the effects of clock gene uncoupling on sepsis-induced inflammation using a mouse cecal ligation and puncture (CLP) model. C57BL/6N mice were entrained to a 12-h light-dark cycle (lights on at 7 AM). Mice were permitted ad libitum feeding either during the night (7 PM-7 AM) or the nonphysiological light phase (7 AM-7 PM) for a week before CLP. In daytime-fed mice, phase inversion of clock gene expression was observed in the liver, but not in the suprachiasmatic nucleus. Daytime-fed mice also had decreased body weight and food intake. Survival rate was significantly lower in daytime-fed mice (29%) compared with nighttime-fed mice (54%) 72 h after CLP (P = 0.03). Serum levels of interleukin 6 (IL-6), tumor necrosis factor α, high mobility group box 1, IL-1α, IL-9, eotaxin, and granulocyte colony-stimulating factor increased in daytime-fed mice compared with nighttime-fed mice after CLP. Baseline expression levels of sirtuin peroxisome 1 and proliferator-activated receptor γ coactivator 1α in the liver decreased in daytime-fed mice compared with nighttime-fed mice. Thus, daytime feeding induces clock gene uncoupling, which leads to decreased expression of longevity-related and energy metabolism proteins. Daytime feeding may also increase the levels of inflammatory cytokines, thereby increasing mortality in a mouse sepsis model. Our findings suggest that uncoupling of peripheral and master clock gene rhythms by reversed feeding exacerbates inflammatory responses.
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