Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P06889 (Mol)
 630,302 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A cDNA cloned from Trypanosoma brucei brucei codes for a putative membrane protein which is homologous to the erythrocyte glucose transporter and several other sugar transporters from Escherichia coli, yeast, algae and Leishmania. This cDNA hybridizes to a 2.3-kb mRNA that accumulates to a much higher degree in the bloodstream mammalian form than in the procyclic insect form of the parasite. The correlation between the expression of this gene and the hexose metabolism of Leishmania enriettii and T. brucei suggest that these 2 related genes probably encode hexose transporters. The gene encoding this mRNA is a member of a multigene family. The putative hexose transporter gene is highly conserved among Kinetoplastidae, indicating an important role for this protein in the parasite life cycle.
Mol Biochem Parasitol 1992 May
PMID:A potential hexose transporter gene expressed predominantly in the bloodstream form of Trypanosoma brucei. 162 98

We show that D- but not L-hexoses modulate the accumulation of radioactive vinblastine in injected Xenopus laevis oocytes expressing the murine Mdr1b P-glycoprotein. We also show that X. laevis oocytes injected with RNA encoding the rat erythroid/brain glucose transport protein (GLUT1) and expressing the corresponding functional transporter exhibit a lower accumulation of [3H]vinblastine and show a greater capacity to extrude the drug than do control oocytes not expressing the rat GLUT1 protein. Cytochalasin B and phloretin, two inhibitors of the mammalian facilitative glucose transporters, can overcome the reduced drug accumulation conferred by expression of the rat GLUT1 protein in Xenopus oocytes but have no significant effect on the accumulation of drug by Xenopus oocytes expressing the mouse Mdr1b P-glycoprotein. These drugs also increase the accumulation of [3H]vinblastine in multidrug-resistant Chinese hamster ovary cells. Cytochalasin E, an analog of cytochalasin B that does not affect the activity of the facilitative glucose transporter, has no effect on the accumulation of vinblastine by multidrug-resistant Chinese hamster cells or by oocytes expressing either the mouse Mdr1b P-glycoprotein or the GLUT1 protein. In all three cases, the drug verapamil produces a profound effect on the cellular accumulation of vinblastine. Interestingly, although immunological analysis indicated the presence of massive amounts of P-glycoprotein in the multidrug-resistant cells, immunological and functional studies revealed only a minor increase in the expression of a hexose transporter-like protein in resistant versus drug-sensitive cells. Taken together, these results suggest the participation of the mammalian facilitative glucose transporter in the development of drug resistance.
Mol Cell Biol 1991 Jul
PMID:A possible role for a mammalian facilitative hexose transporter in the development of resistance to drugs. 167 25

A membrane transport protein of the glucose transporter superfamily from Leishmania enriettii is encoded by a family of tandemly repeated genes. The first gene in this tandem repeat codes for a structural isoform that contains a unique amino-terminal hydrophilic domain, probably located in the cytoplasm; the remainder of the protein is identical to the polypeptide encoded by the internal genes in the tandem repeat. The unique isoform is represented by a distinct stable RNA.
Mol Cell Biol 1990 Dec
PMID:Structural isoforms of a membrane transport protein from Leishmania enriettii. 170 Oct 25

The binding affinities of the glucose transporter isoforms GLUT1, GLUT2, and GLUT4 for the inhibitory ligands cytochalasin B, forskolin, dipyridamole, and isobutylmethylxanthine (IBMX) were compared in membranes from human erythrocytes and rat brain containing the erythrocyte-type glucose transporter (GLUT1), in membranes from rat liver containing the liver-type glucose transporter (GLUT2), and in membranes from adipocytes and heart containing predominantly the adipose/muscle-type glucose transporter (GLUT4). The binding affinities of cytochalasin B for GLUT1 and GLUT4 were virtually identical (KD) in membranes from erythrocytes, 190 nM; in brain, 130 nM; in adipocytes, 160 nM; and in heart, 170 nM). In contrast, no specific glucose-inhibitable binding of cytochalasin B was detected in liver membranes. The binding affinity for forskolin of GLUT1 was significantly lower than that of GLUT4 (KD in erythrocytes, 2360 nM; Kl in brain, 4360 nM; and KD in adipocytes, 200 nM; and in heart, 210 nM); specific glucose-inhibitable binding to GLUT2 was not detectable. Like forskolin, the glucose transport inhibitors dipyridamole (Kl in adipocyte membranes, 1.2 microM; in erythrocytes, greater than 40 microM) and IMBX (Kl in adipocyte membranes, 60 microM; and in erythrocytes, greater than 500 microM) bound with higher affinity to GLUT4 than to GLUT1. These data demonstrate striking differences of GLUT1, GLUT2, and GLUT4 with respect to their binding affinity for the inhibitory ligands cytochalasin B, forskolin, dipyridamole, and IBMX. It is suggested that the complex differences result from interaction of more than one heterogeneous binding site at the glucose transporters with the inhibitory ligand.
Mol Pharmacol 1991 Sep
PMID:Differentiation of erythrocyte-(GLUT1), liver-(GLUT2), and adipocyte-type (GLUT4) glucose transporters by binding of the inhibitory ligands cytochalasin B, forskolin, dipyridamole, and isobutylmethylxanthine. 171 31

High-level expression of the low-Km glucose transporter isoform GLUT-1 is characteristic of many cultured tumor and oncogene-transformed cells. In this study, we tested whether induction of GLUT-1 occurs in tumors in vivo. Normal mouse beta islet cells express the high-Km (approximately 20 mM) glucose transporter isoform GLUT-2 but not the low-Km (1 to 3 mM) GLUT-1. In contrast, a beta cell line derived from an insulinoma arising in a transgenic mouse harboring an insulin-promoted simian virus 40 T-antigen oncogene (beta TC3) expressed very low levels of GLUT-2 but high levels of GLUT-1. GLUT-1 protein was not detectable on the plasma membrane of islets or tumors of the transgenic mice but was induced in high amounts when the tumor-derived beta TC3 cells were grown in tissue culture. GLUT-1 expression in secondary tumors formed after injection of beta TC3 cells into mice was reduced. Thus, high-level expression of GLUT-1 in these tumor cells is characteristic of culture conditions and is not induced by the oncogenic transformation; indeed, overnight culture of normal pancreatic islets causes induction of GLUT-1. We also investigated the relationship between expression of the different glucose transporter isoforms by islet and tumor cells and induction of insulin secretion by glucose. Prehyperplastic transgenic islet cells that expressed normal levels of GLUT-2 and no detectable GLUT-1 exhibited an increased sensitivity to glucose, as evidenced by maximal insulin secretion at lower glucose concentrations, compared with that exhibited by normal islets. Further, hyperplastic islets and primary and secondary tumors expressed low levels of GLUT-2 and no detectable GLUT-1 on the plasma membrane; these cells exhibited high basal insulin secretion and responded poorly to an increase in extracellular glucose. Thus, abnormal glucose-induced secretion of insulin in prehyperplastic islets in mice was independent of changes in GLUT-2 expression and did not require induction of GLUT-1 expression.
Mol Cell Biol 1992 Jan
PMID:Glucose transporter isotypes switch in T-antigen-transformed pancreatic beta cells growing in culture and in mice. 172 14

In African trypanosomes the requirements for glucose and its metabolism vary in different stages of the life cycle. Here we present evidence that cultured procyclic trypanosomes of Trypanosoma brucei rhodesiense uptake glucose against a concentration gradient in a time and dose-dependent manner. Moreover, glucose transport is completely inhibited by the sulphydryl inhibitor N-ethylmaleimide, suggesting the presence of a protein moiety as the carrier molecule. Comparison of glucose uptake in bloodstream and procyclic trypanosomes point to the possibility that different transporters may function in the 2 developmental stages. Glucose uptake by bloodstream trypanosomes requires Na+ ions and is inhibited by phlorizin, an inhibitor of Na(+)-dependent glucose transporters in mammalian cells. Conversely, procyclic trypanosomes transport glucose in a Na(+)-dependent manner, and transport is not affected by phlorizin. Finally, the putative procyclic glucose transporter has a higher affinity for glucose (apparent Km 23 microM) than the bloodstream carrier (apparent Km 237 microM).
Mol Biochem Parasitol 1991 Jul
PMID:Differences in glucose transport between blood stream and procyclic forms of Trypanosoma brucei rhodesiense. 185 87

Elevation of the steady-state mRNA levels of glucose transporter and c-myc are among the earliest changes in gene expression observed after Ha-rasT24 stimulation of Rat-1 fibroblasts to enter the cell cycle. Since the expression of these genes may be the result of either increased cell proliferation or a specific response to rasT24, we evaluated the expression of glucose transporter and c-myc and their induction during the cell cycle in both parental Rat-1 cells and cell lines bearing a metallothionein rasT24 fusion gene (MTrasT24). We showed that, although levels of glucose transporter and c-myc mRNAs in Rat-1 cells underwent a transient increase within hours of the addition of serum, epidermal growth factor, or 12-O-tetradecanoylphorbol-13-acetate to quiescent (G0) cells, the levels of glucose transporter and c-myc mRNA otherwise remained constant throughout the normal cell cycle. In cells carrying MTrasT24 (MR5 cells), induction of rasT24 expression by ZnSO4 led to a rapid induction of glucose transporter and c-myc mRNA expression in both quiescent (density-arrested) and G1/S-synchronized (aphidicolin-blocked) cells. These increases exceeded the constitutive levels expressed in rapidly proliferating Rat-1 cells, indicating that the ras oncogene has an effect on these genes that is independent of growth status. In addition, the transin gene, which is not expressed in proliferating Rat-1 cells in the continuous presence of serum growth factors, was also induced after increased expression of the mutant ras gene. These results suggest that the induction of glucose transporter, c-myc, and transin is the direct result of rasT24-mediated alterations in cellular gene expression and is distinct from normal cell-cycle events.
Mol Carcinog 1991
PMID:Elevation of glucose transporter, c-myc, and transin RNA levels by Ha-rasT24 is independent of its effect on the cell cycle. 187 50

The increase in glucose transport that occurs when chicken embryo fibroblasts (CEFs) are transformed by src is associated with an increase in the amount of type 1 glucose transporter protein, and we have previously shown that this effect is due to a decrease in the degradation rate of this protein. The rate of CEF type 1 glucose transporter biosynthesis and the level of its mRNA are unaffected by src transformation. To study the molecular basis of this phenomenon, we have been isolating chicken glucose transporter cDNAs by hybridization to a rat type 1 glucose transporter probe at low stringency. Surprisingly, these clones corresponded to a message encoding a protein which has most sequence similarity to the human type 3 glucose transporter and which we refer to as CEF-GT3. CEF-GT3 is clearly distinct from the CEF type 1 transporter that we have previously described. Northern (RNA) analysis of CEF RNA with CEF-GT3 cDNA revealed two messages of 1.7 and 3.3 kb which were both greatly induced by src transformation. When the CEF-GT3 cDNA was expressed in rat fibroblasts, a three-to fourfold enhancement of 2-deoxyglucose uptake was observed, indicating that CEF-GT3 is a functional glucose transporter. Northern analyses using a CEF-GT3 and a rat type 1 probe demonstrated that there is no hybridization between different isoforms but that there is cross-species hybridization between the rat type 1 probe and the chicken homolog. Southern blot analyses confirmed that the chicken genomic type 1 and type 3 transporters are encoded by distinct genes. We conclude that CEFs express two types of transporter, type 1 (which we have previously reported to be regulated posttranslationally by src) and a novel type 3 isoform which, unlike type 1, shows mRNA induction upon src transformation. We conclude that src regulates glucose transport in CEFs simultaneously by two different mechanisms.
Mol Cell Biol 1991 Sep
PMID:Differential regulation of glucose transporter isoforms by the src oncogene in chicken embryo fibroblasts. 187 32

The present study was designed to see the effects of glucose on glucose transporter expression and glucose transport activity using cultured human skin fibroblasts. When the cells were incubated with various concentrations of glucose (11.1-44.4 mM), no differences were found in the HepG2 glucose transporter mRNA, protein levels and basal and insulin-stimulated 2-deoxyglucose uptake. Glucose deprivation, however, resulted in approximately 4-fold increases in the mRNA and 3-fold increases in the protein and the basal 2-deoxyglucose uptake. Chronic exposure to insulin increased the glucose transporter protein levels to similar degrees in the cells incubated with 11.1, 22.2 and 44.4 mM glucose accompanied by increases in the glucose transport activity. Effects of insulin on the glucose transporter mRNA and protein levels, however, were not evident in the glucose-deprived cells. It is concluded that glucose transport activity correlates closely with HepG2 glucose transporter expression in cultured human fibroblasts and that glucose (11.1-44.4 mM) does not affect the glucose transporter expression and glucose transport activity.
Mol Cell Endocrinol 1991 Mar
PMID:Regulation of glucose transporter synthesis in cultured human skin fibroblasts. 202 75

Normal human erythrocytes, preincubated with the oxidizing agent diamide, did not demonstrate any increased permeability, but showed a significant decrease in their ability to transport the nucleoside adenosine. Diamide appeared to have little effect on glucose permeation in uninfected and Plasmodium falciparum infected cells. The inhibition of adenosine transport in human erythrocytes by diamide pretreatment appeared to be unrelated to the inhibition by the established nucleoside transport inhibitor, nitrobenzylthioinosine (NBMPR). An ID50 for diamide of 0.3 mM was determined for 1 microM adenosine transport in human erythrocytes after preincubation for 45 min at 37 degrees C. However, preincubation of diamide (20 mM, 60 min at 37 degrees C) with Babesia bovis-infected bovine erythrocytes resulted in complete inhibition of the capacity of the parasitised cell to transport adenosine and partial inhibition of glucose permeation. By contrast, diamide was shown to have little or no effect on the new or induced nucleoside permeation site in P. falciparum (trophozoite) infected erythrocytes nor on the glucose transporter in these cells. The results further indicate the differences between the normal human erythrocyte nucleoside and glucose transporters and those new or altered transporters in the membrane of P. falciparum or B. bovis-infected red blood cells.
Mol Biochem Parasitol 1991 Feb
PMID:Effect of diamide on nucleoside and glucose transport in Plasmodium falciparum and Babesia bovis infected erythrocytes. 205 21


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