Naringenin is a natural flavonoid aglycone of naringin that has been reported to have a wide range of pharmacological properties, such as antioxidant activity and free radical scavenging capacity. This study was designed to examine the hepatoprotective effect of naringenin against acetaminophen (250 mg kg(-1), sc) in metallothionein (MT)-null mice. 42 SPF MT-knockout mice were used. Naringenin (200, 400, and 800 mg kg(-1), ig) was administered for 4 days before exposure to acetaminophen (250 mg kg(-1), sc). Liver injury was measured by serum alanine aminotransferase (ALT), aspartate aminotransferase (AST) and lactate dehydrogenase (LDH), as well as liver malondialdehyde (MDA). The glutathione-to-oxidized glutathione ratio (GSH/GSSG) was also assessed. The evidence of liver injury induced by acetaminophen included not only a significant increase in the levels of serum ALT, AST, LDH and liver MDA, and also a significant decrease in GSH/GSSG. Pretreatment of mice with naringenin at 400 and 800 mg kg(-1) reversed the altered parameters. Such reversal effects were dose-dependent: ALT decreased 78.62% and 98.03%, AST decreased 88.35% and 92.64%, LDH decreased 76.54% and 81.63%, MDA decreased 48.59% and 66.27% at a dose of 400 and 800 mg kg(-1) respectively; GSH/GSSG increased 22.57% and 16.93% at a dose of 400 and 800 mg kg(-1) respectively. Histopathological observation findings were also consistent with these effects. Together, this study suggests that naringenin can potentially reverse the hepatotoxic damage of acetaminophen intoxication in MT-null mice.
To clarify the physiological role(s) of metallothionein (MT) in carcinogenesis, we studied the susceptibility of MT-null mice to chemically mediated carcinogenesis in the 7,12-dimethylbenz[a]anthracene (DMBA)/12-O-tetradecanoylphorbol-13-acetate (TPA)-induced two-stage carcinogenesis model. The MT-null mice were subjected to a single topical application of DMBA (50 or 100 micro g/mouse) and, 1 week later, to promotion with TPA (10 micro g/mouse) twice a week for 20 weeks. At week 21, nearly all of the MT-null mice developed tumors in the skin, in contrast to only 10-40% of wild-type mice. No tumors were observed in MT-null or wild-type mice that were administered TPA alone. By using the PCR-restriction fragment length polymorphism and PCR-single strand conformation polymorphism methods, we found a transversion of A182 to T in codon 61 of c-Ha-ras in the papilloma tissue of MT-null mice and wild-type mice but failed to find any mutations in the c-Ki-ras and c-N-ras genes. In two-stage skin carcinogenesis induction by DMBA/TPA, p53 and p21(WAF1/Cip1) expression levels were found to be increased in MT-null mice compared with wild-type mice. As to an earlier change at the promotion stage triggered by TPA application, MT-null mice were found to have both hyperplasia of the epithelium and a marked degree of inflammation in the basal layer, indicating that the induced as well as endogenous MT acted as a protective factor against tumorigenesis. In conclusion, the present study has demonstrated that MT has antitumorigenic potential in both the initiation and promotion stages of the two-stage chemical skin carcinogenesis model.
High-purity hydrogen was produced by catalytic steam reforming of coke oven gas (COG) in a fluidized bed membrane reactor (FBMR), assisted by calcined dolomite and a tubular palladium membrane. This membrane-assisted and sorption-enhanced steam-COG reforming process was denoted as MA-SE-SRCOG. A novel bimetallic Ni–Fe/mayenite (Ca12Al14O33) catalyst was first tested in a fixed bed reactor and was then applied to steam reforming of COG in the pilot-scale FBMR. The Ni-0.1Fe/mayenite catalyst showed good sulfur tolerance during steam reforming of COG, and no carbon deposition was detected on the catalyst surface. Partial substitution of “free oxygens” in Ca12Al14O33 by sulfur to form Ca12Al14O32S was observed by XRD characterization. With hydrogen being separated by palladium membrane and CO2 being captured by calcined dolomite, a hydrogen recovery efficiency > 1.7 along with a CH4 conversion of 0.93 and near-zero CO selectivity was achieved by steam reforming of COG at 560 °C, S/C = 4 in the FBMR. Initial CO and H2 contents suppressed conversion of CH4 during steam reforming of COG at specific operating temperature, and restrictions from initial CO were more serious than initial H2. MA-SE-SRCOG efficiently overcame the restrictions of initial CO and H2 and was able to produce over 4.0-fold H2 from COG. A hydrogen permeation flux of 2.14 × 10–2–3.34 × 10–2 mol/m2·s having a purity of >99.9 vol % (with deletion of N2) was obtained at the permeation side. Excessive steam (S/C > 4) was observed to decrease CH4 conversion, which could be ascribed to the decreased residence time of reactants and increased bypassing of reactants through large voids in the reactor at a high S/C ratio. Over high concentration of steam in the reactor side also inhibited permeation of H2. Strong attachment of filler particles on the Pd membrane surface was detected by EPMA analysis, but no metal contents from the catalyst/sorbent were found inside the Pd layer yet after 30 h serving in FBMR.
Background: Glioma is one of the most wide-spreading brain cancers worldwide. Exosomes have emerged as essential regulators in intercellular communication, and exosomal circular RNAs (circRNAs) are critical for cancer progression. In this study, we aimed to investigate the role of exosomal circRNAs in glioma progression and associated mechanisms. Methods: Exosomes derived from glioma cells were isolated and identified by transmission electron microscopy and nanoparticle tracking analysis (NTA). CCK-8, wound healing assays, transwell invasion assays, and flow cytometry assays were performed to assess glioma progression. RNA sequencing, RT-qPCR, western blotting, fluorescence in situ hybridization assay, luciferase assays, and cell transfection assay were performed to investigate related molecular mechanisms. Results: The results demonstrated that exosomes derived from glioma cells promoted glioma progression. Also, exosomal circRNA 0001445 was taken up and upregulated in glioma cells treated with exosomes. In addition, exosomal circRNA 0001445 acted as a sponge for miRNA-127-5p to upregulate the expression of sorting nexin 5 (SNX5). Lastly, the effect of exosomal circRNA 0001445 was mediated by miRNA-127-5p/ SNX5 signaling pathway. Conclusion: These results demonstrated that exosomal circRNA 0001445 promoted glioma progression through miRNA-127-5p/SNX5 signaling pathway. This study provides a novel understanding of the molecular mechanism of glioma progression.
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