Objective To summarize the advance of bioenergetic metabolic mechanisms of cancer cell. Methods Literatures about the recent studies on the bioenergetic metabolic mechanisms of cancer cell were reviewed.Results Cancer cells required a steady source of metabolic energy in order to continue their uncontrolled growth and proliferation. Accelerated uptake of glucose and glycolysis was one of the biochemical characteristics of hypoxia cancer cells. Glucose transport and metabolism were essential for the survival of tumor cells, leading to poor prognosis. Conclusions The studies on relationships between hypoxia-inducible genes and cancer have come a new understanding of the bioenergetic metabolic mechanisms of cancer cell, become new and important supplementary means of diagnosis and treatment of cancer, and enhanced existing strategies so that the treatment could be more rationally applied and personalized for cancer patients.
Objective To elucidate whether glucose transporters-4 (GLUT-4) takes part in glucose uptake of mesenchymal stem cells (MSCs) and whether Akt gene improves translocation and expression of GLUT-4 in MSCs under hypoxic environment ex vivo. Methods MSCs, transfected by Akt gene and no, were cultured with normoxia (5% CO2) or hypoxia (94%N2, 1%O2 and 5% CO2) at 37 ℃ for 8 h. Glucose uptake was assayed by using radiation isotope 2-[3H]-deoxy-Dglucose (3H-G) and the expression of GLUT-4 protein and mRNA was assayed by immunocytochemistry, Western blot and RT-PCR, respectively. Results ①3 H-G intake of MSCs was significantly increased in hypoxiatransfection group than that in hypoxia-non-transfection 〔(1.39±0.13) fold, P<0.05〕, but which was lower than that in normoxia-non-transfection group, P<0.05. ②GLUT-4 was expressed by MSCs under any conditions. Compared with normoxia-non-transfection group, hypoxia decreased the expressions of GLUT-4 mRNA and protein significantly (P<0.05). ③Compared with hypoxianontransfection group, the expression of GLUT-4 〔mRNA(1.756±0.152) fold, total protein in cell (1.653±0.312) fold, protein in plasma membrane (2.041±0.258) fold〕 was increased in hypoxia-transfection group significantly (P<0.05), but which was lower than that in normoxianontransfection group (P<0.05). ④There was significantly positive relation between 3H-G intake and GLUT-4 protein expression in plasma membrane (r=0.415, P=0.001).Conclusion GLUT-4 may take part in glucose uptake of MSCs, and the capability of Akt gene to improve MSCs anti-hypoxia may be finished by its role in increasing the expression and translocation of GLUT-4.
Objective To study the effects of hypoxic preconditioning on the glucose metabol ism of rat BMSCs and its underlying mechanism so as to provide the theoretical basis for the optimization of the stem-cell based therapy. Methods Density gradient centrifugation method was adopted to isolate rat BMSCs from neonatal SD rats (aged 1-3 days). BMSCs were cultured to 4th passage and divided into 4 groups based on different culture conditions: group A in normoxia condition for 24 hours, group B in 1% O2 for 24 hours, group C in 2-methoxyestradiol (20 μmol/L) for 24 hours before hypoxic preconditioning, and group D in hypoxia-inducible factor 1 (HIF-1) specific siRNA (50 μmol/L) for 12 hours before hypoxicpreconditioning. MTT method was appl ied to evaluate the prol iferation of BMSCs. Biochemical analyzer and Real-timefluorescent quantitative PCR were appl ied to detect the glucose uptake, lactate production, and HIF-1α mRNA and Glut-1mRNA levels of BMSCs. Results MTT showed that the absorbance (A) values were 387.67 ± 58.92, 322.50 ± 50.60, 297.00 ± 53.00, and 286.00 ± 41.00 in groups A, B, C, and D, respectively, showing no significant difference among 4 groups (P gt; 0.05). The levels of glucose uptake and lactate production were higher in group B than in groups A, C, and D, showing significant differences (P lt; 0.05); the levels of groups C and D were higher than those of group A, but showing no significant difference (P gt; 0.05). The mRNA expressions of HIF-1α and Glut-1 elevated significantly in group B when compared with those in group A (P lt; 0.05); groups C and D were significantly lower than group B (P lt; 0.05) and were significantly higher than group A (P lt; 0.05). Conclusion Hypoxic preconditioning can stimulate the glucose uptake and metabol ism of rat BMSCs, whose mechanism is probably related to up-regulating the mRNA expressions of HIF-1α and Glut-1.
Objective To observe the different effect such as high concentration of glucose and high concentration of insulin on GLUT1 of Rabbit Retinal Muuml;ller Cell in vitro. Methods Rabbit retinal Muuml;ller cells were cultured in vitro with suspended constitution,which were divided as the following groups: common control group,high glucose group,insulin group,high glucose combined insulin group. Laser confocal microscope combined with immunocytochemical and fluorescence staining method to quantitatively analyze the expression condition of GLUT1. Results The expression of GLUT1 has been enhanced obviously by high glucose and high insulin,which locates mainly in the cytoplasm that near to the nucleus. Conclusion Rabbit retinal Muuml;ller cells can express GLUT1,and the expression of GLUT1 can be reinforced by high glucose and high insulin. (Chin J Ocul Fundus Dis,2008,24:265-267)
Objective To explore the effect of ghrelin on insulin secretion and expression of glucose transporter protein-2 (Glut-2) in isolated pancreas of rats. Methods Twenty five Wistar rats were randomly devided into normal control group (NC group), high concentration of glucose group (HCG group), high concentration of glucose with high concentration of ghrelin group (10-8mol/L, HCG+HCGh group), medium concentration of ghrelin group(10-9mol/L, HCG+MCGh group), and low concentration of ghrelin group (10-10mol/L, HCG+LCGh group) with 5 rats in each group. The rat isolated pancreas perfusion models were established firstly, then from the distal end of abdominal aortas, the models were perfused with low concentration of glucose (5.5mmol/L), high concentration of glucose (33.3mmol/L) or high concentration of glucose added with different concentrations of ghrelin. Levels of insulin outflowed from portal vein were tested by ELISA method, expression levels of Glut-2 protein were tested by immunohistochemical method,and ultrastructure changes of islet β cell were observed under the transmission electron microscope. Results There were no significant difference on levels of fasting blood glucose (FBG), fasting insulins (FINS), homeostasis model of assess-ment for insulin resistence index (HOMA-IR), and homeostasis model of assessment for pancreatic β cell function (HOMA-β),(P>0.05). There were no significant difference on insulin levels of effluent from portal vein of 5 groups (P>0.05) when isolated pancreas perfused with 5.5mmol/L glucose, while had 2 secretion peaks in 3min and 10-12min after 33.3 mmol/L glucose perfusion, where HCG+HCGh group at the top. The mean density value of Glut-2 protein in NC group was higher than that of other 4 groups (P<0.05). The results of transmission electron microscopy showed that apoptosis was lighter in NC group than that of other 4 groups, and apoptosis of HCG+HCGh group was lighter than that of HCG+MCGh group and HCG+LCGh group. Conclusions In isolated pancreas of rats, ghrelin promotes high concentration of glucose-stimulated insulin secretion, decreases expression of Glut-2 protein, and protects the islet β cell.
ObjectiveTo study the effects of Ghrelin for glucose metabolism and insulin sensitivity of L6 rat myoblasts in palmitic acid induced, and to explore its possible mechanisms. MethodsThe L6 rat myoblasts were cultured until differentiation, then using palmitic acid(0.3 mmol/L) for 16 hours. The experimental group was treated with different doses of Ghrelin(1, 10, and 100 nmol/L) for 8 hours, then the glucose uptake was detected by using glucose oxidase peroxidase method(GOD-POD), the cell membrane glucose transporter 4(GLUT-4) protein staining was observated under confocal microscopy, and the expressions of total protein kinase B(Akt), phosphorylated protein kinase B(pAkt), total glycogen synthase kinase-3β(GSK-3β), and phosphorylated glycogen synthase kinase-3β(pGSK-3β) were detected by using immunoblotting(Western blot). ResultsGhrelin enhanced the glucose uptake of L6 rat myoblasts with insulin resistance, the cell membrane Glut-4 stain was deepen, the expressions of pAkt and pGSK-3βprotein increased, and this effect could be PI3K blocker(LY294002) eliminated. ConclusionGhrelin promotes the glucose uptake of L6 rat myoblasts through PI3K/Akt/GSK-3βsignaling pathway, so as to improve the sensitivity of insulin in L6 rats muscle cells.