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)

Prostaglandin A1 (PGA1) inhibits energy-dependent cyclic AMP export by pigeon red cells [Brunton and Mayer, J. Biol. Chem. 254:9714 (1979)]. To assess the specificity of this action, we observed the effect of 10 microM PGA1 (a concentration that inhibits cyclic AMP efflux greater than 95%) on a variety of membrane-protein-mediated processes that we could readily characterize and quantify in the pigeon red cell. Included in this study were isoproterenol-sensitive cyclic AMP production, ouabain-inhibitable 86Rb+ influx, furosemide-sensitive NaCl-KCl symport, 4-acetamido-4'-isothiocyano-2, 2'-disulfonic stilbene (SITS)-sensitive sulfate exchange, Na+-dependent alpha-aminoisobutyrate influx, and glucose and adenosine uptake. Remarkably, none of these membrane activities is significantly affected by PGA1. Furthermore, SITS, nitrobenzylthioinosine, cytochalasin B, and Na+-free extracellular medium (inhibitors of band 3, the nucleoside transporter, the hexose transporter, and amino acid uptake, respectively), failed to inhibit cyclic AMP export by pigeon red cells. On the basis of this data, we conclude that PGA1 does not act via a generalized alteration of a basic property at the plasma membrane, such as its fluidity; rather, PGA1 acts specifically to inhibit cyclic AMP extrusion. The data also imply that a transporter not relying on the Na+ gradient and distinct from transporters of cations, anions, amino acids, sugars, and nucleosides mediates cyclic AMP export.
Mol Pharmacol 1985 Jan
PMID:Export of cyclic AMP from avian red cells. Independence from major membrane transporters and specific inhibition by prostaglandin A. 298 2

Fructose bisphosphatase catalyzes a key reaction of gluconeogenesis. We have cloned the fructose bisphosphatase (FBP1) structural gene from Saccharomyces cerevisiae by screening a genomic library for complementation of an Escherichia coli fbp deletion mutation. The cloned DNA expresses in E. coli a fructose bisphosphatase activity which is precipitable with antibodies specific for the yeast enzyme and is sensitive to inhibition by fructose 2,6-bisphosphate. Evidence is presented demonstrating that the entire gene, including all cis-acting regulatory sequences, has been cloned. A substitution mutation that disrupts FBP1 was incorporated into the yeast genome by transplacement to construct a fructose bisphosphatase null mutation. The fbp1 mutant strain is a hexose auxotroph, otherwise growing normally. Southern blot hybridization analysis confirmed the structure of the transplacement and demonstrated that FBP1 is present in single copy in the haploid genome. Northern blot hybridization analysis revealed an mRNA of about 1350 nucleotides, whose presence was repressible by glucose in the medium. Fructose bisphosphatase activity was not greatly overproduced when the FBP1 gene was present on a multicopy vector in yeast.
J Mol Biol 1985 Nov 20
PMID:Fructose bisphosphatase of Saccharomyces cerevisiae. Cloning, disruption and regulation of the FBP1 structural gene. 300 64

Function and various parameters of myocardial substrate and energy metabolism were measured in preload-controlled isolated working guinea-pig hearts perfused with normoxic (95% O2) and hypoxic (30 to 45% O2) Krebs-Henseleit buffers ([Ca2+] = 1.25 mM). Energy-yielding substrates were glucose, pyruvate, lactate, and fatty acids (acetate, octanoate). Hypoxia typically produced an increase in coronary flow but a fall in cardiac oxygen uptake (MVO2); left ventricular pressure and work parameters as well as myocardial high energy phosphate levels were decreased while the releases of adenosine plus inosine (V (Ado + Ino)) and lactate were increased. Extra pyruvate (1 to 5 mM) as compared to physiologic concentrations of pyruvate (0.2 mM) produced a relative stabilization of left ventricular pressure and work parameters combined with an attenuation of V (Ado + Ino) provided 5 to 10 mM glucose was the cosubstrate. Coinfusion of 2-deoxyglucose, a nondegradable hexose, in presence of excess pyruvate as sole substrate was without effects on residual ventricular pump function. When 1 mM lactate plus 5 mM glucose were the substrates, hypoxic heart function was also depressed, V (Ado + Ino) was relatively increased, and post-hypoxic recovery of pressure parameters was impaired. Similarly, the fatty acid substrates tested seemed to adversely affect cardiac performance during hypoxia. Extra pyruvate in presence of glucose induced a fall in hypoxic myocardial lactate and alpha-glycerophosphate contents while cellular citrate reached millimolar levels. Obviously, utilizable amounts of glucose were required for pyruvate stabilization of the high flow hypoxic heart. The beneficial effects of pyruvate appeared to depend on a functioning glycolysis; other effects seemed to include redox-related changes in energy state and/or purine nucleoside metabolism as well as a possible citrate buffering of intracellular Ca2+ load.
J Mol Cell Cardiol 1986 Apr
PMID:Pyruvate attenuation of hypoxia damage in isolated working guinea-pig heart. 308 60

Short-term stimulation of the pancreatic B-cell with glucose produces a time-dependent potentiation of this cell, which markedly enhances the insulin response to a renewed stimulation with the hexose. To study if a redistribution of the B-cell secretory granules to a location close to the B-cell plasma membrane could underlie the priming effect of glucose, an investigation by ultrastructural morphometry was performed. After exposure of perfused rat pancreas to non-priming or priming concentrations of glucose, pale and dark B-cell secretory granules were distinguished and analysed both within a central and a peripheral zone of the B-cell. The pale secretory granules comprised 30-40% of the total granule population in the B-cell. Whereas no difference in diameter of the granules was observed, there was evidence for a greater numerical density of dark granules in the central than in the peripheral part of the B-cell. This finding may be in line with observations implying that newly synthesized insulin is released preferentially to older insulin. The present experiments did, however, not reveal any significant priming effect of glucose on the intracellular distribution of secretory granules in the pancreatic B-cell. The lack of morphological changes in the B-cell by glucose priming of insulin release should, rather, direct increased attention to the biochemical aspects of the priming phenomenon.
Mol Cell Endocrinol 1988 Apr
PMID:The priming effect of glucose on insulin release does not involve redistribution of secretory granules within the pancreatic B-cell. 328 24

The activities of the hexose monophosphate dehydrogenases increased in adipose tissue, remained unchanged in liver and decreased in mammary gland following the weaning of rats at mid-lactation (day 14). When dietary intake was restricted at mid-lactation, the activities of the hexose monophosphate dehydrogenases increased in adipose tissue, decreased in liver, but were unaltered in mammary gland. Premature weaning on day 14 postpartum resulted in maternal increases in both plasma insulin and glucose, which peaked at day 16. The plasma insulin levels decreased from day 14 to day 18 postpartum in the normal lactating rat, and a similar trend was observed for animals on a restricted dietary intake. Daily food consumption in the lactating rat decreased from 50 g to 20 g after premature weaning. The live weight of pups raised on dams given a restricted food intake from day 14 had decreased by day 17 postpartum, whereas an increase in daily live weight gain was recorded for the litters from the lactating controls. The results demonstrate that the activities of the hexose monophosphate dehydrogenases are regulated differentially between tissues of the lactating rat.
Mol Cell Biochem 1987 Aug
PMID:Alterations in the activities of rat tissue hexose monophosphate dehydrogenases in response to premature weaning and dietary restriction at mid-lactation. 331

The nucleotide sequences of the glpT gene of Escherichia coli and its regulatory region have been elucidated and the primary structure of the glycerol-3-phosphate transport protein deduced. Extensive amino acid sequence homology was found with two other cytoplasmic membrane proteins: the functionally related hexose-6-phosphate transport protein, and the UHPC protein involved in regulating hexose-6-phosphate uptake. Although no significant amino acid sequence homology was found with other transport proteins, such as the arabinose, citrate, glucose, melibiose, lactose or xylose transporters, all of these proteins share a common secondary structure arrangement with the GLP T protein as they apparently contain twelve membrane-spanning alpha-helical segments. The promoter for glpT was located by transcript mapping and shown to overlap a site to which catabolite activator protein binds in vitro. These findings indicate how catabolite repression may be mediated but do not explain its physiological significance in glycerol metabolism.
Mol Microbiol 1987 Nov
PMID:Nucleotide sequence and transcriptional startpoint of the glpT gene of Escherichia coli: extensive sequence homology of the glycerol-3-phosphate transport protein with components of the hexose-6-phosphate transport system. 332 81

Novel enterobacterial core oligosaccharides were isolated from Citrobacter O4 and O36 lipopolysaccharides, and their structures were determined by methylation analysis, Smith degradation and enzymatic degradations, gas chromatography/mass spectrometry, and two-dimensional phase-sensitive correlated, relayed coherence transfer, double-quantum, triple-quantum-filtered, and nuclear Overhauser effect (NOE) 1H NMR spectroscopy at 500 MHz. In the formulas, all hexose residues are D-hexopyranoses, and heptoses are L-glycero-D-manno-heptopyranoses; the alternative locations of the side-chain heptose and pyrophosphorylethanolamine (PPEtN) residues are marked by dashed lines; dOclA stands for 3-deoxy-D-manno-octulosonic acid. (formula; see text) Along with these complete cores, incomplete ones, lacking the hexosamine trisaccharides, occur in the lipopolysaccharides of both types. Qualitative NOE data were in good agreement with the minimum energy conformation of the above O36 oligosaccharide, calculated with the aid of the SUGAR program [Sundin, A., Carter, R. E., & Liljefors, T. (1988) J. Mol. Graphics (in press)].
 ...
PMID:Structure elucidation of the core regions from Citrobacter O4 and O36 lipopolysaccharides by chemical and enzymatic methods, gas chromatography/mass spectrometry, and NMR spectroscopy at 500 MHz. 341 78

Kallikrein and bradykinin additively increased adipocyte hexose transport under conditions of maximal intrinsic insulin stimulation, while no such effect occurred in the absence of insulin. The potentiation of insulin action follows a dose-response relationship with kallikrein and bradykinin concentrations consistent with a physiological role for the latter in the modulation of insulin action. Insulin degradation by isolated adipocytes and insulin binding to its receptors on adipocyte plasma membranes were not affected by either kallikrein or bradykinin. Thus, the kallikrein and bradykinin potentiation of insulin action occur at post-insulin binding sites. In conclusion, the kallikrein-bradykinin system increases the supply of substrates to target tissues through vasodilation and augmented blood perfusion, and it also stimulates glucose uptake and metabolism via its potentiation of insulin action. These actions suggest that the kallikrein-bradykinin system regulate both the availability and utilization of metabolic substrates, in target tissues.
Mol Cell Endocrinol 1987 Apr
PMID:Potentiation of insulin stimulation of hexose transport by kallikrein and bradykinin in isolated rat adipocytes. 355 83

A nitrophenyl azide derivative of maltose, N-(4-azido-2-nitrophenyl)-maltosylamine (NAP-maltosylamine), was synthesized as a potential photoaffinity label for the hexose carrier of the rat adipocyte. This derivative inhibited 3-O-methylglucose uptake with a Ki of 1.3 mM in the dark, while that of maltose was 10.0 mM. Carbon-14-labeled maltose and NAP-maltosylamine entered adipocytes via the hexose carrier, the latter in a concentrative fashion. Photolysis of NAP-[14C]maltosylamine in the presence of an adipocyte low density microsomal membrane fraction labeled several electrophoretic bands. Among these are a 45 kDa band which showed features expected of the hexose carrier: its labeling was decreased 40% by D- but not L-glucose and pretreatment of intact adipocytes with insulin decreased labeling of the 45 kDa band by 10-40%, as predicted by the translocation theory of insulin-stimulated transport activation. These studies show the suitability of using carbon-1-modified sugar photoaffinity labels as probes for the hexose carrier and possibly of its regulation in rat adipocytes.
Mol Cell Endocrinol 1987 Feb
PMID:Photolabeling of the adipocyte hexose carrier with an aryl azide derivative of maltose. 355 53

Liver regeneration after partial hepatectomy was used as an experimental model for studying mammalian cell division and replication. The rate of cell proliferation in this hyperplastic model was correlated with hepatic de novo synthesis of cholesterol, with the hexose monophosphate shunt pathway of glucose metabolism, and with serum lipoproteins. An increase of hepatic cholesterol esters and of incorporation of tritiated water in cholesterol esters was observed at 24 hr after partial hepatectomy. Partial hepatectomy also resulted in an increase of hepatic glucose-6-phosphate dehydrogenase and in alteration of serum lipoproteins, primarily due to a selective decline in high density lipoprotein fraction.
Exp Mol Pathol 1986 Apr
PMID:Hepatic glucose-6-phosphate dehydrogenase, cholesterogenesis, and serum lipoproteins in liver regeneration after partial hepatectomy. 369 35


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