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)

Ram cauda epididymal spermatozoa were incubated for 10 min at 34 degrees C with or without 1.0 mM-RS-alpha-chlorohydrin before (1) 5 mM-D-glucose or (2) 10 mM-L-lactate plus 1 mM pyruvate or (3) 5 mM-D-glucose plus 10 mM-L-lactate plus 1 mM-pyruvate or (4) no substrate was added. Without alpha-chlorohydrin, the motility, the ATP concentration and the energy charge of the spermatozoa were maintained for 240 min by substrate combinations 1-3 but with no added substrate (4) the motility declined after 60 min. All the values decreased dramatically after 10 min in spermatozoa exposed to alpha-chlorohydrin in substrate conditions 1 and 3 (glucose present) but alpha-chlorohydrin had no significant effect in conditions 2 and 4 (no glucose) except after prolonged incubation. In a dose-response experiment glucose-dependent ATP dissipation began to occur with 0.025 mM-RS-alpha-chlorohydrin. A similar effect was seen in boar spermatozoa exposed to 0.1-5.0 mM-alpha-chlorohydrin and 5 mM-D-glucose. With boar spermatozoa the presence of 10 mM-L-lactate and 1 mM-pyruvate as well as glucose prevented the loss of ATP. We conclude that this concerted action of alpha-chlorohydrin and glucose is probably responsible for the contraceptive action of alpha-chlorohydrin and propose that it may depend on 'futile substrate cycling' in the glycolytic pathway.
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PMID:The presence of glucose increases the lethal effect of alpha-chlorohydrin on ram and boar spermatozoa in vitro. 396 53

Sperm passing through the male tract interact with accessory sex gland fluids during ejaculation. Cellular metabolism is stimulated by this interaction for unknown reasons. These experiments involved calorimetric measurements [P.B. Inskeep and R.H. Hammerstedt (1983) J. Biochem. Biophys. Methods 7, 199-210] on ejaculated sperm (EJS) and cauda epididymal sperm (CES) from bulls to establish the contribution of individual pathways to total cellular ATP synthesis. Parallel incubations outside the calorimeter yielded samples for oxygen consumption measurements and for motility analysis, the major ATP-consuming reaction of sperm. Energy charge values were identical for incubations of EJS and CES with glucose, thereby establishing that the ratios of rates of ATP synthesis and degradation were equivalent for these cells under this incubation condition. The total rate of ATP synthesis was greater for EJS than for CES (5 vs 13 mumol ATP h-1/10(8) cells) with less than 2 mumol ATP h-1 for each cell type coming from degradation of endogenous reserves. Thus, ejaculation is associated with a large increase in catabolic rate that is satisfied by degradation of extracellular glucose. No difference in percentage of motile sperm was noted, but mean velocity was lower for CES (58 micron s-1) than for EJS (85 micron s-1). A difference in forward motility pattern was observed (wig-wag to flipping). We conclude from these data that interaction with accessory sex gland fluids alters ATP requiring activities of sperm, with one obvious alteration being their motility pattern. The increase in ATP requirement is satisfied by increased degradation of extracellular substrates, but not intracellular reserves, to provide sufficient ATP to satisfy cellular needs.
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PMID:Alterations in motility and metabolism associated with sperm interaction with accessory sex gland fluids. 402 11

31P NMR signals assigned to intracellular adenine nucleotides and to inorganic phosphate were detected in dense suspensions of epididymal sperm obtained from bulls or hamsters. Similar adenine nucleotide signals and an additional large resonance peak, attributable to extracellular glycerylphosphorylcholine, were observed with whole bovine cauda epididymides. Provision of the glycolytic substrate fructose to such sperm suspensions promoted apparent conversion of intracellular ADP to ATP with a concomitant decrease in cellular inorganic phosphate (Pi) content. Subsequent treatment with the methylxanthine caffeine resulted in diminution of the intracellular gamma-P-ATP signal that was consistent with the decreased ATP and ADP contents previously demonstrated by chemical analyses of cellular extracts. Alternatively, treatment with fructose followed by the membrane-selective detergent digitonin produced loss of the nucleotide NMR signals, indicating release of ATP and Pi from the sperm cytosol with subsequent hydrolysis in the extracellular medium. Comparison of intracellular Pi and ATP resonance signals with those of ATP and Pi in vitro, in media of varied pH and cation composition, allowed calculation of a cytosolic pH of 6.5-6.6 and a cytosolic Mg2+ concentration of 0.5 mM for fresh suspensions of bovine cauda epididymal sperm. Intracellular Pi of hamster epididymal sperm reported a similar cytosolic pH. Other, more acidic compartments were not detected in these experiments. However, during prolonged incubation, the pH of the bovine sperm interior slowly decreased as the extracellular medium was acidified by extensive production of lactate. Intracellular ATP was detectable until cytosolic pH declined to approximately 5.5. Rapid intracellular acidification, resulting from exchange of internal K+ for H+, was observed after treatment with carboxylic acid ionophore nigericin. This lowering of internal pH was followed by a slower return toward initial internal pH values, probably as a consequence of secondary exchange of internal protons for other external monovalent cations, rather than as a result of the operation of a cellular homeostatic mechanism. Together, these studies utilizing noninvasive NMR techniques provide evidence that within the bovine epididymis sperm utilize an unknown energy source to phosphorylate adenine nucleotides and maintain a slightly acidic cytosolic pH.
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PMID:A 31P NMR study of the epididymis and epididymal sperm of the bull and hamster. 407 1

The rate of TEMPONE reduction by electrons originating from ubiquinone in intact rabbit spermatozoa was observed for control, high ionic strength (HIS) medium-treated, and HIS-seminal plasma-treated (HIS-SP) samples. The presence of TEMPONE in the incubation medium had no effect on oxygen consumption, demonstrating the utility of TEMPONE as a nonperturbing probe of the ubiquinol redox state. The rate of TEMPONE reduction was significantly increased over control levels for sperm incubated in hypertonic medium and was correlated to a decrease in oxygen consumption and a relative increase in ATP in the total adenine nucleotide pool. This increase in TEMPONE reduction in HIS sperm was reversed by treatment of sperm with seminal plasma, but seminal plasma had no effect on oxygen consumption or relative amounts of ATP in the adenine nucleotide pool. These observations are consistent with state 3 respiration in control sperm and state 4 respiration in HIS- and HIS-SP-treated sperm. Arrhenius data were obtained for ejaculated and epididymal sperm subjected to a variety of treatments. Lines fitted to plots of Arrhenius data revealed that each treatment affected the activation energy and intercept relative to controls. Evidence is presented for a phase transition occurring at 13 degrees C based on changes in the rate of TEMPONE reduction by ubiquinol. It was noted that, above the phase transition, rate constants for the reaction were dependent upon both treatment and temperature, but below the transition the differential effects of treatment were no longer apparent. The present study has demonstrated that events taking place in the respiratory chain can be closely monitored by measuring oxygen uptake and TEMPONE reduction, and that these events are affected by alterations in the sperm environment.
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PMID:Alterations of oxygen uptake and the redox state of ubiquinone in rabbit sperm exposed to a variety of physiologic treatments. 408 32

1. Methods are described for the extraction, partial purification and assay of phosphofructokinase in rat epididymal adipose tissue. 2. The enzyme was inhibited by ATP at concentrations above 20mum and by citrate; the enzyme was activated by ADP, AMP, 3',5'-(cyclic)-AMP, phosphate and sulphate. 3. The enzyme lost activity on incubation at 25 degrees or during chromatography on DEAE-cellulose unless fluoride at a concentration of 4mm was present. 4. The significance of these results in relation to the role of glycolysis and citrate in lipogenesis is discussed.
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PMID:Citrate and the regulation of adipose-tissue phosphofructokinase. 422 77

1. Attempts were made to define the role of phosphofructokinase in glycolytic control and the factors regulating the concentration of l-glycerol 3-phosphate in rat epididymal fat pads incubated in vitro. 2. Glycolysis rates were altered by anoxia or by additions of insulin, adrenaline or both to the incubation medium, and the changes in rate were related to changes in the steady-state concentrations of hexose phosphates, adenine nucleotides, l-glycerol 3-phosphate and citrate in the whole tissue. Measurements were also made of the lactate/pyruvate concentration ratio in the medium after incubation. 3. The mass-action ratios of phosphofructokinase, calculated from the whole-tissue concentrations of products and substrates, were less than 0.1% of the value of the ratio at pH7.4 at equilibrium. 4. Only in the presence of adrenaline could the observed stimulation of glycolytic flux be related to a possible activation of phosphofructokinase since, in this situation, the concentration of one substrate, fructose 6-phosphate, was not altered and the concentration of the other, ATP, was decreased. Increased glycolytic flux in the presence of insulin may be explained by an observed increase in the concentration of the substrate, fructose 6-phosphate. Under anaerobic conditions, glycolytic flux was decreased but this did not appear to be the result of inhibition of phosphofructokinase, since the concentrations of both substrates, fructose 6-phosphate and ATP, were decreased. The changes in glycolytic flux with insulin and anoxia may be secondary to changes in the rate of glucose uptake. 5. Changes in l-glycerol 3-phosphate concentration appear to be related both to changes in the concentration of dihydroxyacetone phosphate and to changes in the NADH/NAD(+) concentration ratio in the cytoplasm. They do not seem to be related directly to alterations in glycolytic rate.
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PMID:Regulation of glycolysis and L-glycerol 3-phosphate concentration in rat epididymal adipose tissue in vitro. Role of phosphofructokinase. 430 37

Brief incubation of partially purified preparations of hormone-sensitive lipase from rat epididymal fat pads with ATP, Mg(++), cyclic adenosine 3':5'-monophosphate and rabbit muscle protein kinase (phosphorylase b kinase kinase) resulted in enhancement of lipolytic activity (44-93%). Little or no activation was observed when either the cofactor mixture or the protein kinase was omitted. When the fat pads were incubated with epinephrine prior to homogenization, addition of kinase and cofactors to the soluble supernatant fraction caused no activation whereas good activation was obtained in preparations from paired fat pads not exposed to epinephrine. The results indicate that the cyclic AMP-mediated activation of hormone-sensitive lipase in adipose tissue involves a protein phosphorylation step. Whether the lipase itself is phosphorylated and thus activated or whether the protein kinase is activating a mediating enzyme, in analogy with its action in the glycogen phosphorylase system, remains to be determined.
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PMID:ATP-dependent and cyclic AMP-dependent activation of rat adipose tissue lipase by protein kinase from rabbit skeletal muscle. 431 80

The metal-ion requirement of extracted and partially purified pyruvate dehydrogenase phosphate phosphatase from rat epididymal fat-pads was investigated with pig heart pyruvate dehydrogenase [(32)P]phosphate as substrate. The enzyme required Mg(2+) (K(m) 0.5mm) and was activated additionally by Ca(2+) (K(m) 1mum) or Sr(2+) and inhibited by Ni(2+). Isolated fat-cell mitochondria, like liver mitochondria, possess a respiration- or ATP-linked Ca(2+)-uptake system which is inhibited by Ruthenium Red, by uncouplers when linked to respiration, and by oligomycin when linked to ATP. Depletion of fat-cell mitochondria of 75% of their total magnesium content and of 94% of their total calcium content by incubation with the bivalent-metal ionophore A23187 leads to complete loss of pyruvate dehydrogenase phosphate phosphatase activity. Restoration of full activity required addition of both MgCl(2) and CaCl(2). SrCl(2) could replace CaCl(2) (but not MgCl(2)) and NiCl(2) was inhibitory. The metal-ion requirement of the phosphatase within mitochondria was thus equivalent to that of the extracted enzyme. Insulin activation of pyruvate dehydrogenase in rat epididymal fat-pads was not accompanied by any measurable increase in the activity of the phosphatase in extracts of the tissue when either endogenous substrate or (32)P-labelled pig heart substrate was used for assay. The activation of pyruvate dehydrogenase in fat-pads by insulin was inhibited by Ruthenium Red (which may inhibit cell and mitochondrial uptake of Ca(2+)) and by MnCl(2) and NiCl(2) (which may inhibit cell uptake of Ca(2+)). It is concluded that Mg(2+) and Ca(2+) are cofactors for pyruvate dehydrogenase phosphate phosphatase and that an increased mitochondrial uptake of Ca(2+) might contribute to the activation of pyruvate dehydrogenase by insulin.
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PMID:Calcium and magnesium ions as effectors of adipose-tissue pyruvate dehydrogenase phosphate phosphatase. 437 62

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

1. Monochloroacetate, dichloroacetate, trichloroacetate, difluoroacetate, 2-chloropropionate, 2,2'-dichloropropionate and 3-chloropropionate were inhibitors of pig heart pyruvate dehydrogenase kinase. Dichloroacetate was also shown to inhibit rat heart pyruvate dehydrogenase kinase. The inhibition was mainly non-competitive with respect to ATP. The concentration required for 50% inhibition was approx. 100mum for the three chloroacetates, difluoroacetate and 2-chloropropionate and 2,2'-dichloropropionate. Dichloroacetamide was not inhibitory. 2. Dichloroacetate had no significant effect on the activity of pyruvate dehydrogenase phosphate phosphatase when this was maximally activated by Ca(2+) and Mg(2+). 3. Dichloroacetate did not increase the catalytic activity of purified pig heart pyruvate dehydrogenase. 4. Dichloroacetate, difluoroacetate, 2-chloropropionate and 2,2'-dichloropropionate increased the proportion of the active (dephosphorylated) form of pyruvate dehydrogenase in rat heart mitochondria with 2-oxoglutarate and malate as respiratory substrates. Similar effects of dichloroacetate were shown with kidney and fat-cell mitochondria. Glyoxylate, monochloroacetate and dichloroacetamide were inactive. 5. Dichloroacetate increased the proportion of active pyruvate dehydrogenase in the perfused rat heart, isolated rat diaphragm and rat epididymal fat-pads. Difluoroacetate and dichloroacetamide were also active in the perfused heart, but glyoxylate, monochloroacetate and trichloroacetate were inactive. 6. Injection of dichloroacetate into rats starved overnight led within 60 min to activation of pyruvate dehydrogenase in extracts from heart, psoas muscle, adipose tissue, kidney and liver. The blood concentration of lactate fell within 15 min to reach a minimum after 60 min. The blood concentration of glucose fell after 90 min and reached a minimum after 120 min. There was no significant change in plasma glycerol concentration. 7. In epididymal fatpads dichloroacetate inhibited incorporation of (14)C from [U-(14)C]glucose, [U-(14)C]fructose and from [U-(14)C]lactate into CO(2) and glyceride fatty acid. 8. It is concluded that the inhibition of pyruvate dehydrogenase kinase by dichloroacetate may account for the activation of pyruvate dehydrogenase and pyruvate oxidation which it induces in isolated rat heart and diaphragm muscles, subject to certain assumptions as to the distribution of dichloroacetate across the plasma membrane and the mitochondrial membrane. 9. It is suggested that activation of pyruvate dehydrogenase by dichloroacetate could contribute to its hypoglycaemic effect by interruption of the Cori and alanine cycles. 10. It is suggested that the inhibitory effect of dichloroacetate on fatty acid synthesis in adipose tissue may involve an additional effect or effects of the compound.
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PMID:Mechanism of activation of pyruvate dehydrogenase by dichloroacetate and other halogenated carboxylic acids. 447 69


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