-Aspirin has been reported to regulate lipid metabolism. However, the mechanism underlying the regulation is not clear. We presently investigated aspirin's promotion of AMP-activated protein kinase (AMPK) pathway activation in human hepatoma HepG2 cells by examining AMPK expression, the promotion of AMPK activation. Then we investigated the influence of aspirin-promoted AMPK signaling on fatty acid oxidation in HepG2 cells. The results demonstrated that aspirin treatment did not regulate the expression of AMPK and its downstream target, Acetyl-Coenzyme A Carboxylase (ACC), but activated the AMPK signaling pathway by promoting the phosphorylation of AMPK and ACC. And, interestingly, the promotion by aspirin is dependent of cellular esterase, which catalyzes aspirin to salicylate. Moreover, the activated AMPK signaling promoted the fatty acid oxidation, by promoting expression of Carnitine palmitoyltransferase I (CPT1) and Medium-Chain Acyl-CoA Dehydrogenase (MCAD) in both mRNA and protein levels. Thus, we confirmed in this study that aspirin promoted lipid oxidation by upregulating the AMPK signaling pathway.
This meta-analysis revealed that 32.4% of patients with HC and 27.6% of patients with GBC may avoid unnecessary laparotomy with the use of SL. It is worthwhile to perform SL combined with an intraoperative ultrasound in patients with suspected GBC or HC.
Objectives Overexpression of human trophoblast cell surface antigen 2 (Trop2) has been observed in many cancers; however, its roles in proliferation, apoptosis, migration, and invasion of hepatocellular carcinoma (HCC) remain unclear. Thus, this study aimed to characterize the function of Trop2 in HCC. Methods Trop2 protein expression was detected by immunohistochemistry in HCC tissues. Cell proliferation, apoptosis, and invasion were respectively measured by CCK-8, flow cytometry, Transwell, and wound healing assays. Expression levels of epithelial–mesenchymal transition-related proteins and Trop2 protein in HCC cell lines were detected by western blotting after silencing of the TROP2 gene. Results Trop2 protein was highly expressed in HCC tissues and HCC cell lines. Trop2 mRNA and protein expression levels decreased in HepG2 and HCCLM3 cells after transfection with Trop2 siRNA. Silencing of the TROP2 gene in HepG2 and HCCLM3 cells strongly inhibited cell proliferation and migration, while enhancing cell apoptosis. Investigation of the molecular mechanism revealed that silencing of the TROP2 gene suppressed epithelial–mesenchymal transition of HepG2 and HCCLM3 cells. Conclusions The results of the present study may improve understanding of the role of Trop2 in regulation of cell proliferation and invasion, and may aid in development of novel therapy for HCC.
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