Objective To summarize the latest research progress of tumor energy metabolism regulated by long non-coding RNA (lncRNA). Method Literatures about the recent studies on the bioenergetic metabolic mechanisms regulated by lncRNA in tumor cells were reviewed according to the results searched from PubMed database, Springer database, HighWire database, and so on. Results Aerobic glycolysis (Warburg effect) was regarded as the most important characteristics of energy metabolism in tumor cells. lncRNA could regulate many key progressions involved energy metabolism in tumor cells, such as glucose metabolism, lipid metabolism, and glutamine metabolism, resulting in accelerated uptake of glucose, decomposition of glutamine, and formation of lipid. Conclusions The functions and mechanisms of energy metabolism in tumor cells regulated by lncRNA are entirely unclear. The role of lncRNA played in cancer needs to be understood, which may contribute to new tumor biomarker detection and effective treatment strategies.
【Abstract】ObjectiveTo evaluate the relationships between the transporters BSEP, MRP2, MDR3 and cholesterol calculus formation. MethodsTwenty hepatic tissue specimens were taken from consented patients with cholesterol calculus during intraoperative liver biopsy, of which ten were taken from patients without cholesterol calculus. RNA of liver tissue from all the samples was extracted and ultraviolet spectrophotometry was used to measure the content and purity of it. The mRNA and protein expressions of BSEP, MRP2 and MDR3 were determined by reverse transcriptionpolymerase chain reaction (RTPCR) and Western blot analysis, respectively. ResultsRTPCR showed that the mRNA expressions of BSEP, MRP2 and MDR3 in liver were significantly lower in patients with cholesterol calculus (0.47±0.18, 1.12±0.39 and 1.02±0.24) than those in the liver of patients without calculus (0.90±0.42, 2.48±0.89 and 1.94±0.80),P<0.01. And Western blot also showed the protein expressions of these transporters were significantly lower in patients with cholesterol calculus (90.16±18.82, 45.43±22.77 and 61.08±14.77) than those in the liver of patients without calculus (186.17±4.34, 160.47±30.19 and 100.84±15.44). ConclusionThe decreased expression of BSEP, MRP2 and MDR3 may correlate with the formation of cholesterol calculus.