To explore the mechanism(s) of exercise training on ovariectomized (OVX)-induced liver lipid disorder, we observed effects of treadmill training on liver fat accumulation and ER alpha expression in intact and ovariectomized rats. Sixty female rats were randomly assigned to six groups: Sham sedentary (S-S), Sham exercised (S-EX), ovariectomized sedentary (O-S), ovariectomized exercised (O-EX), ovariectomized injected subcutaneously with 17beta-estradiol (E(2)) (O-E(2)), and ovariectomized treated with E(2) and exercise (O-E(2)-EX). Twelve weeks after intervention, OVX resulted in significantly higher body weight gain, intra-abdominal fat mass, serum levels of total cholesterol (TC), and liver triacylglycerol (TAG) concentrations and ER alpha expression than S-S group, while the relative uterus and liver mass, serum levels of E(2), TAG, and the ratio of high density lipoprotein (HDL) to TC were markedly lower in O-S group. All of these changes were decreased in O-S rats after treatment with E(2) alone with the exception of serum TC and HDL-C levels and liver ER alpha expression. Exercise alone significantly reversed the effect of OVX on serum E(2), the ratio of HDL-C to TC and the liver and intra-abdominal fat accumulation in OVX rats. The addition of E(2) to exercise induced the same uterus and lipid profile as E(2) alone. Moreover, an additive effect of exercise and E(2) was observed on liver ER alpha expression in Sham or OVX rats. In conclusion, treadmill training alone could prevent liver fat accumulation in OVX rats and the regulation of exercise on liver ER alpha expression in both OVX and Sham rats needs the presence of physical estrogen levels.
Exercise training has been reported to prevent bone loss in ovariectomized (OVX) rats and postmenopausal women. We hypothesized that treadmill training inhibited adipogenesis and enhanced osteogenesis through the regulation of adipocyte differentiation factor peroxisome proliferators-activated receptor gamma (PPARγ) and the osteogenic factor runt-related transcription factor 2 (Runx2) in a model of OVX-induced osteoporosis. To test this hypothesis, 3-month-old female Sprague-Dawley rats were divided randomly into the following groups: Sham, OVX, OVX exercised (EX), and OVX estrogen replacement (E(2)). At the end of the experiment, the bone mineral density (BMD) was detected using DEXA and the morphology change of bone tissues and uterus was observed by HE staining. The protein expression for PPARγ and Runx2 were measured by immunohistochemistry and western blot and the bone triacylglycerol (TG) was extracted by methanol/chloroform. OVX dramatically increased the number of fat vacuoles, protein levels for PPARγ and Runx2 as well as the TG level in tibiae and lumbar vertebrate. In contrast, the serum level of E(2), the lumbar vertebrate BMD as well as the proximal and distal femur BMD was significantly decreased in the OVX group. All changes induced by OVX were significantly reversed by exercise treatment except for the protein expression level of Runx2. Moreover, exercise treatment produced no estrogenic effects on uterus as evidenced by the uterus wet weight and histology. Treadmill training could prevent bone loss induced by OVX through the inhibition of adipocyte differentiation factor PPARγ rather than promoting osteogenic factor Runx2.
Nowadays, technology for the fabrication of batteries is critical in determining cell durability, especially for 18 650 power batteries. We report herein on the design of three types of electrode tabs serving as the current terminals of 18 650 full cells, including: one, the most common configuration in which one positive tab is located opposite to the negative tab; two, the more common configuration in which one positive tab is located in the middle, whereas the negative tab is located at the end; three, the optimal configuration in which two negative tabs are in parallel, whereas one positive tab is located in the middle. Among them, batteries with the type 3 tab configuration, owing to the smallest ohmic resistance, exhibit superior capacity retention of approximately 86 % at a discharge current of 7 C, which is much better than batteries with the common tab configuration (only 47 %). Besides, the optimized batteries could effectively suppress the decomposition of the electrolyte and loss of lithium from the cathode materials, which enabled excellent long‐term cycling stability (≈91 % capacity retention over 1000 cycles). The electrochemical degradation mechanism was also investigated. After the cycling test, the batteries with the optimal tab configuration showed the lowest increase in the impedance, the slightest cracks of the cathode materials, and the best structure integrity of the graphite anode than the two other counterparts.
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