The effect of glucose and fructose and fetal bovine serum on the expression of the fructose transporter GLUT5 was studied in clone PD7 of the human colon cancer cell line Caco-2, which has been characterized previously [Chantret, Rodoloswe, Barbat et al. (1994) J. Cell Sci. 107, 213-225; Mahraoui, Rodolosse, Barbat et al. (1994) Biochem. J. 298, 629-633]. Culture of the cells in dialysed serum and hexose-free media, down-regulated the expression of GLUT5, which was below detection within 3-4 days. This effect was reversed by fructose and glucose feeding of the cells. Fructose feeding yielded a 3-fold higher abundance of GLUT5 protein and mRNA as compared with that expressed in glucose-fed cells. Cells fed normal serum exhibited an inverse hierarchy of expression, with glucose being a better inducer than fructose for the expression of GLUT5. The GLUT5 mRNA and protein abundances obtained in fructose-fed cells did not depend on the type of serum. A linear relationship between cyclic AMP (cAMP) levels and GLUT5 mRNA abundance was found in cells fed dialysed serum, whereas in cells fed normal serum, mRNA abundances were not correlated to cAMP levels. These results indicate that glucose and fructose, together with serum-related factors and cAMP, have combined effects on the expression of GLUT5 in Caco-2 cells.
Although induction of cytochrome P-450 1A1 (CYP1A1) in the Caco-2 clone TC7 alters glucose utilization and modifies the expression of sucrase-isomaltase (SI) and hexose transporters, nothing is known of the events that control these effects. In this study, we analyzed the effects of β-naphthoflavone (β-NF) and hypoxia on these parameters and expression of key enzymes of glucose metabolism. Both β-NF and hypoxia induce similar changes: 1) induction of CYP1A1 mRNA; 2) increased glucose consumption and lactic acid production and lower glycogen content; 3) downregulation of SI and upregulation of GLUT1 mRNAs; 4) downregulation of fructose-1,6-bisphosphatase and pyruvate kinase mRNAs and upregulation of phospho enolpyruvate carboxykinase, pyruvate dehydrogenase, lactate dehydrogenase, and phosphofructokinase mRNAs; and 5) upregulation of c- fos and c- jun mRNAs. Although addition of inhibitors of CYP1A1 catalytic activity to β-NF-treated cells totally inhibits the enzyme activity, it does not modify CYP1A1 mRNA response and associated effects, thus excluding a direct role for the enzyme per se. These results point to a possible physiological implication of the signal-transduction pathway responsible for CYP1A1 induction.
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