Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UNIPROT:P56851 (epididymal)
11,273 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Adipose tissue and liver from vitamin B6-deficient rats have an increased lipogenic capacity. Whether this phenomenon is accompanied by changes in the activities of certain enzymes involved in the metabolism of carbohydrate and lipid, or by altered transport of glucose into adipocytes, has been studied. Five glycolytic enzymes (hexokinase, phosphoglucose isomerase, phosphofructokinase, aldolase, and pyruvate kinase), two pentose phosphate pathway enzymes (glucose-6-phosphate dehydrogenase and 6-phosphogluconate dehydrogenase), malic enzyme, and ATP citrate lyase were measured in the epididymal adipose tissue, livers and kidneys of vitamin B6-deficient and control rats. Vitamin B6 deficiency did not significantly affect the glycolytic enzyme levels in the tissues studied, or the dehydrogenases measured in adipose tissue and kidneys. Liver glucose-6-phosphate dehydrogenase, and adipose tissue and liver malic enzyme were significantly lowered in deficient rats compared to ad libitum and pair-fed controls. Adipose tissue and liver ATP citrate lyase activities were also significantly decreased by vitamin B6 deficiency. In the presence of insulin, the uptake of glucose and 3-O-methyl glucose, a non-metabolizable sugar, by fat pads from deficient rats was greater than uptake by fat pads from control rats. These observations suggest that the increased glucose utilization by adipose tissue and liver of vitamin B6-deficient rats is not directly related to changes in the enzymes studied, but in the case of adipose tissue, may be explained, at least in part, by enhanced glucose uptake.
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PMID:Effects of vitamin B6 deficiency on liver, kidney, and adipose tissue enzymes associated with carbohydrate and lipid metabolism, and on glucose uptake by rat epididymal adipose tissue. 13 63

Four fractions of protein from intact and 'isolated' bull epididymides were extracted. The total extractable protein was increased by isolation mainly due to increases in the lipoprotein and DNA-protein fractions. Changes of lipoprotein may be associated with the increase of lipid which also occurs in isolated tissue. This may reflect the increase of pentose cycle activity and lipogenesis due to the absence of spermatozoa in the epididymal tubules. Changes of DNA-protein may indicate a change of protein metabolism. Electrophoresis of protein fractions showed that individual proteins may be changed by the zonal origin of the epididymal tissue and the presence or absence of spermatozoa in the epididymal tubules.
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PMID:Effect of epididymal isolation on the protein component of bull eididymal tissue. 119 55

A study was made of the effect of alimentary deficiency of niacin and of exogenous nicotinamide (500 mg/kg) on the activity of the key enzymes of the pentose phosphate pathway and NADP-dependent malate and isocitric dehydrogenase in the epididymal fatty tissue of rats. It is established that vitamin depletion in the animals' body brings about a 3-fold decrease in the content of NADP+ and a 1.7-fold decrease in the content of NADPH, a 43-percent inhibition of the activity of glucose 6-phosphate dehydrogenase and a 39-percent reduction with respect to transketolase. Nicotinamide suppresses the activity of glucose 6-phosphate dehydrogenase by 35% and that of isocitric dehydrogenase by 40% 12 hours after intraperitoneal injection. It is suggested that NADPH production in the fatty tissue of rats undergoes appreciable changes under the effect of niacin.
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PMID:[The role of niacin in regulating the pentosophosphate pathway and production of NADP-H in fatty tissue]. 253 4

The enzyme D-glycero D-ido octulose 1,8-bisphosphate:D-altro-heptulose 7-phosphotransferase (abbreviated to phosphotransferase, PT) catalyses the transfer of the phosphate ester group at C-1 between altro-heptulose (sedoheptulose) and octulose phosphate intermediates of the L-type pentose pathway. Using synthetically prepared and 14C-labelled octulose mono- and bisphosphates, two methods are described for the measurement of the catalytic capacity of the PT reaction operating in both the "forward" and "reverse" modes of L-type pentose pathway operation. PT activity was found in normal, regenerating and foetal rat liver, rat heart, rat epididymal fat pad, rat kidney, brain and skeletal muscle, extracts of C. fusca, pea leaf and a variety of tumour tissues. The highest activity of the enzyme was found in the neoplasms. The Michaelian kinetic constants, temperature and pH optima for the reaction of the enzyme from rat liver together with an assortment of its substrate specificities have been determined. Vanadate anion was found to inhibit the enzyme and the pattern of inhibition suggests that the PT may act by a sequential mechanism. Neither arabinose 5-phosphate nor inorganic phosphate showed any effect on the catalytic activity of the PT enzyme in liver.
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PMID:Identification and measurement of D-glycero D-ido octulose 1,8-bisphosphate: D-altro-heptulose 7-phosphotransferase enzyme in tissues with L-type pentose phosphate pathway activity. 300 66

The effects of dichloroacetate and phenazine methosulphate on the content of fructose-2,6-bisphosphate and glycogenesis in incubated epididymal adipose tissue were examined. Both agents stimulated the synthesis of fructose-2,6-bisphosphate in the presence of glucose, the effect being higher in tissue from fasted-refed rats than in normal fed rats. Additions of dichloroacetate to the incubation medium also increased the incorporation of [U-14C]glucose into glycogen and this effect was additive with that of insulin. However phenazine methosulphate strongly depressed the insulin-dependent glycogen synthesis. These data are considered in relation to the increased rate of glucose metabolism known to occur in the presence of dichloroacetate and the stimulation of pentose phosphate pathway with phenazine methosulphate.
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PMID:Regulation of fructose-2,6-bisphosphate and glycogen synthesis by dichloroacetate and phenazine methosulphate in rat adipose tissue. 352 72

1. The effect of dinitrophenol on the metabolism of glucose labelled with (14)C and tritium by epididymal fat-pad segments from fed rats was studied. Dinitrophenol at concentrations of 0.1-0.3mm: (a) had little effect on glucose utilization; (b) depressed synthesis of fatty acids and greatly increased that of lactate; (c) increased the T/(14)C ratio in fatty acids synthesized from [U-(14)C,3-T]glucose and decreased that in fatty acids synthesized from [U-(14)C,4-T]glucose; (d) abolished randomization of (14)C from [6-(14)C]glucose in lactate. 2. Dinitrophenol stimulated oxidation of pyruvate and greatly inhibited the oxidation of lactate. It inhibited lipogenesis from pyruvate and lactate. 3. From the isotope data it was calculated that: (a) dinitrophenol stimulates oxidation via the tricarboxylic acid cycle three- to six-fold; (b) dinitrophenol depresses markedly the operation of the pentose cycle; (c) in the presence of dinitrophenol, NADPH formed in the pentose cycle provides all the hydrogen equivalents for fatty acid reduction, whereas, in its absence, NADPH provides 50-70% of the hydrogen equivalents; (d) in the presence of dinitrophenol, there is an excess of ATP produced in the cytoplasm, which flows into the mitochondria. A reverse flow operates in the absence of dinitrophenol. 4. A balance of formation and utilization of reduced nicotinamide nucleotides in the cytoplasm was established. With dinitrophenol there is some excess of NADH. There are indications that this excess may be transferred into mitochondria in the form of malate. 5. Our results are interpreted to indicate the absence from adipose tissue of the alpha-glycerophosphate shuttle for transferring reducing equivalents from the cytoplasm to mitochondria. 6. The effects of dinitrophenol are accounted for in terms of decreased ATP concentrations in the cells, leading to marked decrease in pyruvate carboxylation in the mitochondria and depression of fatty acid synthesis in the cytoplasm.
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PMID:The effect of 2,4-dinitrophenol on adipose-tissue metabolism. 438 39

In order to study the quantitative relationship between fatty acid synthesis and pentose phosphate-cycle activity under different hormonal and dietary conditions affecting the extent of glucose uptake, cells isolated from rat epididymal adipose tissue were incubated in bicarbonate buffer containing [U-(14)C]-, [1-(14)C]- or [6-(14)C]-glucose. From the amount of glucose taken up, the production of lactate and pyruvate, and the incorporation of (14)C from differently labelled [(14)C]glucose into CO(2), fatty acids and glyceride glycerol, the rates of glucose metabolism via different pathways and the extent of lipogenesis under various experimental conditions were determined. The contribution of the pentose phosphate-cycle to glucose metabolism under normal conditions was calculated to be 8%. Starvation and re-feeding, and the presence of insulin, caused an enhancement of glucose uptake, pentose phosphate-cycle activity and fatty acid synthesis. Plots of both pentose phosphate-cycle activity and fatty acid synthesis versus glucose uptake revealed that the extent of glucose uptake, over a wide range, determines the rates of fatty acid synthesis and glucose metabolism via the pentose phosphate cycle. A balance of formation and production of nicotinamide nucleotides in the cytoplasm was established. The total amount of cytoplasmic NADH and NADPH formed was only in slight excess over the hydrogen equivalents required for the synthesis of fatty acids, glyceride glycerol and lactate. Except in cells from starved animals, the pentose phosphate cycle was found to provide only about 60% of the NADPH required for fatty acid synthesis. The results are discussed with respect to an overall control of the different metabolic and biosynthetic reactions in the fat-cells by the amount of glucose transported into the cell.
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PMID:Interrelationship and control of glucose metabolism and lipogenesis in isolated fat-cells. Effect of the amount of glucose uptake on the rates of the pentose phosphate cycle and of fatty acid synthesis. 440 62

Isolated fat cells were used for the study of in vitro effects of insulin on glucose metabolism in human and rat adipose tissue. In human subcutaneous fat cells, effects of insulin could be detected at concentrations of glucose in the medium from 1 to 10 micro moles/ml. Cellular responsiveness was inversely proportional to the glucose level. At a constant concentration of 6 micro moles of glucose per ml, the effects of insulin at various concentrations up to 500 micro U/ml were investigated. At the highest concentration, which gave the maximal response, there was a 100% increase in the conversion of glucose-U-(14)C to glyceride-glycerol and a 40% increase in glucose oxidation. The dose-response curve was steepest between 2 and 20 micro U/ml. Rat epididymal fat cells were much more responsive to insulin. Glucose lipogenesis and pentose cycle activity could also be demonstrated in rat cells, whereas these activities could not be shown in fat cells from human omental and subcutaneous tissue. The findings for human cells are attributed to changes in cellular activity during preparation.
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PMID:Effects of insulin on glucose metabolism in isolated human fat cells. 605 88

1. Glucose 6-phosphate, fructose 6-phosphate and altroheptulose 7-phosphate are the major products formed non-oxidatively from ribose 5-phosphate by rat epididymal fat pad enzymes. 2. Arabinose 5-phosphate was detected among the reaction products and significant activity of the new enzyme of the L-type pentose pathway, D-glycero D-ido octulose 1,8-bisphosphate: D-altroheptulose 7-phosphotransferase was found. 3. The glucose moieties of glucose 1-phosphate, glucose 6-phosphate and glucose 1,6-bisphosphate were degraded and showed that epididymal fat pad enzymes relocate 14C from [2-14C]glucose into C-1, C-2, and C-3 of each hexose-phosphate. 4. The 14C-distribution patterns in the hexose-phosphates revealed that these intermediates were not in isotopic equilibrium and the rate of the transaldolase exchange reaction was relatively small. 5. The 14C-distribution data suggest that glucose 1-phosphate, rather than glucose 6-phosphate, is the first intermediate in the path of glycogen synthesis from glucose in this tissue. 6. The data provide the first proof of the mechanism of the pentose pathway in adipose tissue.
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PMID:Mechanism and contribution of the pentose phosphate cycle to glucose metabolism in epididymal fat tissue. 627 50

When rats are fed a selenium-deficient diet, the glutathione peroxidase activity of epididymal fat-cells decreases to 5-9% of that of control rats fed the same diet supplemented with 0.5 p.p.m. of selenium as sodium selenite. [1-14C]Glucose oxidation in fat-cells from rats fed a selenium-deficient diet is unresponsive to the action of t-butyl hydroperoxide, which stimulates 14CO2 formation from [1-14C]glucose 4-fold in control rats. Insulin enhances [1-14C]glucose oxidation and incorporation into lipids in fat-cells from both groups of rats; however, the response elicited is reduced in fat-cells prepared from selenium-deficient animals. The 'C-1/C-6 ratio' (ratio of glucose C-1 to glucose C-6 oxidized) is enhanced by insulin to a similar degree in fat-cells from both groups of animals. The stimulatory action of Zn2+ and dithiothreitol on [1-14C]glucose oxidation observed in fat-cells from selenium-supplemented rats is greatly reduced in fat-cells from selenium-deficient rats. [1-14C]Glucose oxidation in fat-cells from both groups of animals is highly sensitive to the stimulatory action of adenosine. It is concluded that the enhanced formation and glutathione-linked destruction of H2O2 plays, at the most, only a minor role in the stimulation of the flux of glucose through the pentose phosphate pathway elicited by insulin, although elimination of glutathione peroxidase activity may influence the action of insulin on glucose oxidation. Production and subsequent destruction of H2O2 may play an important role in the stimulatory action of Zn2+ and dithiothreitol on fat-cell [1-14C]glucose oxidation.
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PMID:The effect of selenium-deficiency on rat fat-cell glucose oxidation. 635 53


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