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Query: UNIPROT:P06889 (Mol)
 630,302 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Neonatal and adult rat islets, cultured for 7-9 days in the presence of 10.5 mM D-glucose, were incubated for 120 min with either D-glucose (2.8 and 16.7 mM) or L-leucine (1.0 and 20.0 mM). The total and anaerobic rates of glycolysis, as judged respectively through the generation of 3H2O from D-[5-3H]glucose and 14C-labelled lactate from D-[3,4-14C]glucose or D-[6-14C]glucose were higher in neonatal than adult islets, but increased to a lesser relative extent in neonatal than adult islets in response to a rise in hexose concentration. The flow through the pentose phosphate pathway, as judged from the difference between D-[1-14C]glucose and D-[6-14C]glucose oxidation was higher in neonatal than adult islets. The flow through the reaction catalyzed by pyruvate dehydrogenase, as judged from the oxidation of D-[3,4-14C]glucose, was lower in neonatal than adult islets incubated in the presence of 16.7 mM (but not 2.8 mM) D-glucose. The oxidation of acetyl residues relative to their generation rate, as judged from the ratio of D-[6-14C]glucose to D-[3,4-14C]glucose oxidation, was not affected by the hexose concentration whether in neonatal or adult islets, but was about twice higher in the latter than former islets. The rate of D-[6-14C]glucose oxidation was also higher in adult than neonatal islets, especially at the high concentration of D-glucose. In both neonatal and adult islets, a rise in hexose concentration stimulated preferentially the oxidation of D[3,4-14C]glucose or D-[6-14C]glucose relative to the utilization of D-[5-3H]glucose.(ABSTRACT TRUNCATED AT 250 WORDS)
Mol Cell Endocrinol 1990 Oct 01
PMID:D-glucose and L-leucine metabolism in neonatal and adult cultured rat pancreatic islets. 229 40

The ability of polyamines and other cationic compounds including monoamines, amino acids, poly-L-arginine, poly-D-lysine and poly-L-lysine, to alter pyruvate dehydrogenase (PDH) activity in mitochondria from rat epididymal adipocytes was determined. PDH was assayed with the substrate [1-14C] pyruvate in the presence of 0.05 mM Ca2+ and Mg2+. Nine of the fourteen compounds tested at 0.1 mM caused a significant increase (procaine, 3-(beta-morpholinopropionyl) benzo [b]thiophene [VII], spermine, spermidine, putrescine, lysine and tryptophan) or decrease (poly-L-arginine, 3-(beta-piperidinopropionyl) benzo[b]thiophene) in PDH activity. None of these compounds nonenzymatically decarboxylated [1-14C] pyruvate to release 14CO2. NaF, a PDH phosphatase inhibitor, suppressed the stimulatory effects of those compounds tested: procaine, tryptophan, VII, spermine and spermidine. These results imply that these five compounds activate PDH activity through stimulation of the PDH phosphatase. When the Mg2+ concentration was increased from 0.05 to 4.5 mM, the stimulatory effect of spermine was increased, consistent with the finding by others that spermine lowers the Km of the enzyme for Mg2+. However, at Mg2+ concentrations greater than 0.3 mM, the stimulatory effect of VII was unaltered, procaine failed to alter PDH activity, lysine inhibited PDH activity, and poly-L-lysine stimulated PDH activity. Therefore, polyamines and other positively charged small molecules may be physiologic regulators of PDH activity.
Mol Cell Biochem 1990 Mar 27
PMID:The effect of amino acids, monoamines and polyamines on pyruvate dehydrogenase activity in mitochondria from rat adipocytes. 234 44

We have studied the effects of insulin on several aspects of cell metabolism in the insulin-sensitive, nonfusing muscle cell line BC3H-1. In the absence of exogenous hexose, insulin did not alter basal glycogen synthase percentage I activity, or attenuate the increase in intracellular cAMP content, the activation of glycogen phosphorylase a, or the decrease in glycogen synthase I brought about by beta-adrenergic receptor activation with epinephrine. In contrast, both insulin and the tumor-promoting phorbol ester, tetradecanoylyl phorbol acetate markedly increased mitochondrial pyruvate dehydrogenase activity in the absence of hexose. Both glycogen synthase phosphatase and glycogen synthase kinase activities were present in BC3H-1 cell extracts and were regulated in the expected manner by glucose 6-phosphate and cAMP, respectively. Since the pattern of partial insulin resistance seen in BC3H-1 myocytes would require that several potentially insulin-sensitive enzymes be insensitive to insulin-generated signals, the most likely explanation for these data is that the myocytes are defective in some mechanism of insulin signaling which is independent of the mechanism for pyruvate dehydrogenase activation.
Mol Pharmacol 1986 Dec
PMID:Hexose-independent activation of glycogen synthase and pyruvate dehydrogenase by insulin is dissociated in the mouse BC3H-1 cell line. 243 Dec 65

Poly(A)+ RNA was isolated from Ascaris suum body wall muscle and translated in a cell-free rabbit reticulocyte lysate system. Specific antisera and immunoglobulins against the alpha-pyruvate dehydrogenase and dihydrolipoyl transacetylase components of ascarid pyruvate dehydrogenase complex were used to immunoprecipitate individual radiolabelled polypeptides from the in vitro translation mixtures. Both polypeptides appeared to be synthesized as preproteins about 1.5 and 8 kDa larger than the corresponding native proteins. Incubation of the dihydrolipoyl transacetylase preprotein with an ascarid high-speed mitochondrial supernatant fraction resulted in the formation of a polypeptide with apparent molecular weight intermediate in size between the preprotein and the native enzyme. This processing was insensitive to phenylmethylsulfonyl fluoride and leupeptin but was completely abolished by EDTA. These results suggest that in A.suum, as in other organisms, mitochondrial matrix proteins coded by the nuclear genome are synthesized as larger preproteins and processed by a specific, metal-dependent mitochondrial matrix protease.
Mol Biochem Parasitol 1988 May
PMID:In vitro synthesis and processing of components of the Ascaris suum pyruvate dehydrogenase complex. 245 26

In vitro deletion and site-directed mutagenesis of the aceF gene of Escherichia coli was used to generate dihydrolipoamide acetyltransferase (E2p) polypeptide chains containing various permutations and combinations of functional and non-functional lipoyl domains. A lipoyl domain was rendered non-functional by converting the lipoylatable lysine residue to glutamine. Two- and three-lipoyl domain E2p chains, with lipoyl-lysine (Lys244) substituted by glutamine in the innermost lipoyl domains (designated +/- and +/+/-, respectively), and similar chains with lipoyl-lysine (Lys143) substituted by glutamine in the outer lipoyl domains (designated -/+ and -/-/+), were constructed. In all instances, pyruvate dehydrogenase complexes were assembled in vivo around E2p cores composed of the modified peptide chains. All the complexes were essentially fully active in catalysis, although the complex containing the -/-/+ version of the E2p polypeptide chain showed a 50% reduction in specific catalytic activity. Similarly, active-site coupling in the complexes containing the +/-, +/+/- and -/+ constructions of the E2p chains was not significantly different from that achieved by the wild-type complex. However, active-site coupling in the complex containing the -/-/+ version of the E2p chain was slightly impaired, consistent with the reduced overall complex activity. These results indicate that during oxidative decarboxylation there is no mandatory order of reductive acetylation of repeated lipoyl domains within E2p polypeptide chains, and strongly suggest that the three tandemly repeated lipoyl domains in the wild-type E2p chain function independently in the pyruvate dehydrogenase complex.
J Mol Biol 1989 Aug 20
PMID:Reductive acetylation of tandemly repeated lipoyl domains in the pyruvate dehydrogenase multienzyme complex of Escherichia coli is random order. 250 11

Although the myocardium is capable of utilizing both glucose and fatty acid substrates, glucose metabolism is inhibited in the presence of fatty acid during normal perfusion conditions. Fatty acid regulation of glucose utilization in intact beating rat hearts was studied with 13C-enriched substrates and 13C and 31P NMR spectroscopy at 8.5 T. During [1-13C]glucose and insulin perfusion, the 13C appeared in alanine, lactate and the glutamate isotopomers, indicating glycolytic flux through pyruvate and glucose-supported tricarboxylic acid (TCA) cycle oxidation, respectively. Following the addition of hexanoic acid, 1 mM, [1-13C]glucose metabolism proceeded through the hexokinase and phosphofructokinase reactions, as evidenced by continued production of [3-13C]alanine and [3-13C]lactate, but was completely inhibited at the pyruvate dehydrogenase (PDH) reaction as evidenced by a lack of appearance of the 13C label in the glutamate isotopomers. This inhibition of PDH was associated with increased PCr/ATP levels and was readily reversed by removal of hexanoic acid. Addition of dichloroacetate, 5 mM, which increases the active form of PDH, to fatty acid and glucose containing perfusate reinstituted carbon flux through the PDH reaction, indicating that the mechanism of fatty acid cessation of PDH flux is by reversible inactivation of the PDH enzyme complex. Thus the point of inhibition and mechanism of action of fatty acid modulation of glucose metabolism can be continuously and non-destructively studied in the intact beating heart with 13C and 31P NMR and is primarily attributable, in this model, to reversible PDH enzyme inactivation.
J Mol Cell Cardiol 1989 May
PMID:Fatty acid regulation of glucose metabolism in the intact beating rat heart assessed by carbon-13 NMR spectroscopy: the critical role of pyruvate dehydrogenase. 252 40

Site-directed mutagenesis of the aceF gene of Escherichia coli was used to generate a nested set of deletions in the long (alanine + proline)-rich sequence that separates the lipoyl domain from the dihydrolipoamide dehydrogenase-binding domain in the "one-lipoyl domain" dihydrolipoamide acetyltransferase polypeptide chains of a pyruvate dehydrogenase multienzyme complex. The deletions reduced the number of residues in this sequence successively from 32 to 20, 13, 7 and just 1 residue. In all instances, pyruvate dehydrogenase complexes were still assembled in vivo around cores containing the deleted chains, and those with the two shortest deletions were essentially fully active. However, the two most severe deletions caused falls of 50% or more in specific catalytic activity. Similarly, although shortening the interdomain sequence to 20 residues left the system of active-site coupling unimpaired, cutting it to 13 residues or less caused substantial falls in the reductive acetylation of the lipoyl domains and corresponding losses of active-site coupling. The changes in specific catalytic activity and active-site coupling that accompanied the shortening of the (alanine + proline)-rich segment were reflected in the poorer growth rates of the relevant strains of E. coli on stringent substrates. All these results are consistent with this (alanine + proline)-rich sequence acting as a linker region that facilitates the movements of the lipoyl domains required for full catalytic activity and active-site coupling in the complex. The other two such sequences that separate the additional lipoyl domains in the N-terminal half of the wild-type "three-lipoyl domain" dihydrolipoamide acetyltransferase chain are presumed to function similarly. This role is consistent with the conformational flexibility assigned to these segments from previous studies based on 1H nuclear magnetic resonance spectroscopy and protein engineering.
J Mol Biol 1988 Jul 05
PMID:Investigation of the mechanism of active site coupling in the pyruvate dehydrogenase multienzyme complex of Escherichia coli by protein engineering. 305 Jan 22

In Saccharomyces cerevisiae a nuclear recessive mutation, lpd1, which simultaneously abolishes the activities of lipoamide dehydrogenase, 2-oxoglutarate dehydrogenase and pyruvate dehydrogenase has been identified. Strains carrying this mutation can grow on glucose or poorly on ethanol, but are unable to grow on media with glycerol or acetate as carbon source. The mutation does not prevent the formation of other tricarboxylic acid cycle enzymes such as fumarase, NAD+-linked isocitrate dehydrogenase or succinate-cytochrome c oxidoreductase, but these are produced at about 50%-70% of the wild-type levels. The mutation probably affects the structural gene for lipoamide dehydrogenase since the amount of this enzyme in the cell is subject to a gene dosage effect; heterozygous lpd1 diploids produce half the amount of a homozygous wild-type strain. Moreover, a yeast sequence complementing this mutation when present in the cell on a multicopy plasmid leads to marked overproduction of lipoamide dehydrogenase. Homozygous lpd1 diploids were unable to sporulate indicating that some lipoamide dehydrogenase activity is essential for sporulation to occur on acetate.
Mol Gen Genet 1986 Jul
PMID:A mutation affecting lipoamide dehydrogenase, pyruvate dehydrogenase and 2-oxoglutarate dehydrogenase activities in Saccharomyces cerevisiae. 352 55

Fat cells of hypophysectomized and fasted rats metabolize 10 times less glucose than adipocytes of normal rats in the presence of insulin. Glucose transport (3-O-methylglucose influx), transport plus phosphorylation (2-deoxyglucose uptake), hexokinase, pyruvate dehydrogenase and glucose-6-phosphate dehydrogenase activities were determined in an attempt to localize the metabolic defects. Insulin stimulates 3-O-methylglucose influx 5-fold in normal cells and 3-fold in cells of fasted rats. The basal influx in cells of fasted rats is increased and even more so in cells of hypophysectomized rats where the rate of basal influx is the same as that in cells of normal rats under maximal insulin stimulation. It cannot be further stimulated by insulin. In contrast to 3-O-methylglucose influx, basal uptake and phosphorylation of 2-deoxyglucose in cells of fasted and hypophysectomized rats is drastically decreased and stimulation by insulin is abolished. Total hexokinase and pyruvate dehydrogenase activities are drastically reduced in the homogenate of fat cells of hypophysectomized and fasted rats. Phosphorylation by hexokinase appears to become one of the rate-limiting steps of glucose metabolism in cells of hypophysectomized rats.
Mol Cell Endocrinol 1986 Oct
PMID:Glucose uptake and phosphorylation in fat cells of fasted and hypophysectomized rats. 353 Aug 35

The two-phase character of essential histidine residues modification of pyruvate dehydrogenase component of pyruvate dehydrogenase complex from pigeon breast muscle by diethylpyrocarbonate has been demonstrated. The relative amplitude of the fast phase increases with increasing the modificator concentration. The model of chemical modification of dimeric enzyme where the modification of the residue in one subunit leads to the change of reactivity of corresponding residue in the other subunit is used for the description of inactivation kinetics. The expression for the diminishing of enzyme activity in the course of chemical modification and the methods of kinetic parameters estimation have been proposed. The following values of kinetic parameters for the modification of pyruvate dehydrogenase component by diethylpyrocarbonate were obtained (pH 6.0; 20 degrees C): k1 = 6400 +/- 400 M-1 min-1 (the microscopic rate constant for the modification of histidine residue in the intact dimer), k2 = 890 +/- 200 M-1 min-1 (the rate constant for the modification of histidine residue in the intact subunit in the dimer which contains one modified subunit) and kt = 0.9 +/- 0.2 min-1 (the rate constant for conformational transition of the dimer induced by modification of histidine residue in one of the subunits in the dimeric molecule).
Mol Biol (Mosk)
PMID:[Pyruvate dehydrogenase from pigeon breast muscle. Chemical modification of the enzyme associated with conformation changes in the protein molecule]. 365 75


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