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: EC:2.7.11.2 (PDK1)
2,238 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Sensitivity of rat heart pyruvate dehydrogenase kinase (PDHK) to pyruvate inhibition was tested under various conditions using pyruvate dehydrogenase complex (PDC) in mitochondria (mPDC) and in a high speed precipitate of whole tissue homogenates (hPDC). In the latter preparation pyruvate in the range of concentration 1-10 mM caused increasing inhibition of PDHK when the enzyme was prepared from animals fed ad libitum but had no effect when the enzyme was prepared from 48 h starved animals. Similar behaviour was observed in mPDC from fed and starved animals when rotenone was present, pyruvate at 1 mM concentration stimulated PDHK from hearts of fed animals but was without effect at 10 mM. When mPDC or hPDC from hearts of starved animals was incubated at 30 degrees C for 30 min, inhibition of PDHK by pyruvate was restored.
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PMID:Effects of pyruvate on pyruvate dehydrogenase kinase of rat heart. 856 51

Protein kinases play important roles in intracellular signalling pathways in probably all cells. In the heart, they are involved in the regulation of ion handling, contractility, fuel metabolism and growth. In this review, we discuss the consequences of activation of protein kinases known to be expressed in the heart. We concentrate principally on the following: cyclic AMP-dependent protein kinase, protein kinase C, mitogen-activated protein kinase, Ca2+/calmodulin-dependent protein kinases and pyruvate dehydrogenase kinase.
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PMID:Intracellular signalling through protein kinases in the heart. 857 96

The provision of a high-fat diet (47% of energy as fat) for 28 days led to a significant increase in hepatic pyruvate dehydrogenase kinase activity, together with significant suppression of hepatic pyruvate dehydrogenase (active form). An enhanced hepatic pyruvate dehydrogenase kinase activity continued to be observed at 6 h after the withdrawal of the high-fat diet. Significant suppression of hepatic pyruvate dehydrogenase kinase activity was observed in post-absorptive, high-fat-fed rats after a 2.5 h euglycaemic-hyperinsulinaemic clamp, such that differences in pyruvate dehydrogenase kinase activities between control and high-fat-fed rats were no longer evident. Starvation for 24 h in rats previously maintained on standard diet also evoked a substantial increase in hepatic pyruvate dehydrogenase kinase activity. This latter response was only partially reversed by 2.5 h of euglycaemic hyperinsulinaemia. Suppression of pyruvate dehydrogenase kinase activity by 2.5 h euglycaemic hyperinsulinaemia in high-fat-fed rats was associated with a substantial increase in hepatic pyruvate dehydrogenase activity (active form) whereas no significant increase in hepatic pyruvate dehydrogenase activity (active form) was observed after 2.5 h euglycaemic hyperinsulinaemia in 24 h-starved rats. The results are consistent with the proposition that hepatic pyruvate dehydrogenase kinase responds directly to an increase in lipid oxidation which is facilitated by insulin deficiency or an impaired action of insulin.
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PMID:Regulation of hepatic pyruvate dehydrogenase kinase by insulin and dietary manipulation in vivo. Studies with the euglycaemic-hyperinsulinaemic clamp. 867 48

Different isoenzymes of pyruvate dehydrogenase kinase (PDK) inhibit the mitochondrial pyruvate dehydrogenase complex by phosphorylation of the E1alpha subunit, thus contributing to the regulation of glucose metabolism. By positional cloning in the 7q21.3-q22.1 region linked with insulin resistance and non-insulin-dependent diabetes mellitus in the Pima Indians, we identified a gene encoding an additional human PDK isoform, as evidenced by its amino acid sequence identity (>65%) with other mammalian PDKs, and confirmed by biochemical analyses of the recombinant protein. We performed detailed comparative analyses of the gene, termed PDK4, in insulin-resistant and insulin-sensitive Pima Indians, and detected five DNA variants with comparable frequencies in both subject groups. Using quantitative reverse transcription polymerase chain reaction, we found that the variants identified in the promoter and 5'-untranslated region did not correlate with differences in mRNA level in skeletal muscle and adipose tissue. We conclude that alterations in PDK4 are unlikely to be the molecular basis underlying the observed linkage at 7q21.3-q22.1 in the Pima Indians. Information about the genomic organization and promoter sequences of PDK4 will be useful in studies of other members of this family of mitochondrial protein kinases that are important for the regulation of glucose metabolism.
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PMID:Cloning and characterization of PDK4 on 7q21.3 encoding a fourth pyruvate dehydrogenase kinase isoenzyme in human. 879 99

Both prolonged starvation and hyperthyroidism evoke stable increases in cardiac pyruvate dehydrogenase kinase (PDHK) activity. Pyruvate inhibits PDHK in rat heart mitochondria with activation of PDHC. The sensitivity of PDHK to inhibition by pyruvate declines after prolonged starvation. In the present study, pyruvate concentrations giving 50% active complex (PDHa) in mitochondria from fed, control and fed, hyperthyroid rats were 0.3 and 0.8 mM, respectively, compared with 1.0 and 2.8 mM, respectively in mitochondria from 24-h-starved and 48-h-starved rats. The results demonstrate that altered pyruvate sensitivity is not of necessity linked with altered PDHK activity. PDHK activities in mitochondria prepared from cardiac myocytes from fed rats were increased after culture for 24 h with dibutyryl cyclic AMP (50 microM) plus n-octanoate (1 mM), with a concomitant decline in sensitivity of PDHK to pyruvate inhibition, suggesting that changes in sensitivity of PDHK to pyruvate inhibition in vivo may be secondary to increased fatty acid supply and cyclic AMP concentrations.
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PMID:Pyruvate inhibition of pyruvate dehydrogenase kinase. Effects of progressive starvation and hyperthyroidism in vivo, and of dibutyryl cyclic AMP and fatty acids in cultured cardiac myocytes. 881 84

The transplacental supply of nutrients is interrupted at birth, which diverts maternal metabolism to lactation. After birth, energy homeostasis is rapidly regained through milk nutrients which supply the newborn with the fatty acids and ketone bodies required for neonatal development. However, immediately after birth and before the onset of suckling there is a time lapse in which the newborn undergoes a unique kind of starvation. During this period glucose is scarce and ketone bodies are not available owing to the delay in ketogenesis. Under these circumstances, the newborn is supplied with another metabolic fuel, lactate, which is utilized as a source of energy and carbon skeletons. Neonatal rat lung, heart, liver and brain utilize lactate for energy production and lipogenesis. Lactate is also utilized by the brain of human babies with type I glycogenosis. Both rat neurons and astrocytes in primary culture actively use lactate as an oxidizable substrate and as a precursor of phospholipids and sterols. Lactate oxidation is enhanced by dichloroacetate, an inhibitor of the pyruvate dehydrogenase kinase in neurons but not in astrocytes, suggesting that the pyruvate dehydrogenase is regulated differently in each type of cell. Despite the low activity of this enzyme in newborn brain, pyruvate decarboxylation is the main fate of glucose in both neurons and astrocytes. The occurrence of a yeast-like pyruvate decarboxylase activity in neonatal brain may explain these results.
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PMID:Metabolic fuel utilization and pyruvate oxidation during the postnatal period. 888 67

Kinetic behaviour of rat heart pyruvate dehydrogenase kinase (PDHK alpha) was studied in the multi-enzyme complex (PDC) contained in two preparations: mitochondria (mPDC) and a high speed pellet of Triton-extracted tissue (hPDC). Two parameters were evaluated: Vav, related to Vmax, and Fractional Pyruvate Inhibition (FPI). Starvation of rats for 48 h led to a rise in Vav and a fall in FPI. Injection into starved rats of agents which reduce beta-oxidation of fatty acids restored, in succession, FPI and then Vav, of hPDC, to levels found in hPDC from fed animals. In vitro incubation at 30 degrees C of hPDC from starved animals restored FPI, but not Vav to 'fed' values; both were restored during in vitro incubation of mPDC from starved animals within the same time frame as in the in vivo experiments. A sharp increase of FPI, but not Vav, of hPDC from both fed and starved rats was observed in later experiments. This could have been due to differential selection of the two genes for isoenzymes of PDHK alpha proposed by other workers.
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PMID:Suppression of beta-oxidation restores pyruvate inhibition of pyruvate dehydrogenase kinase in starved rat heart. 890 35

Pyruvate dehydrogenase is a catalyst for an irreversible step in the degradation of glucose and its activity is regulated by a highly specific protein kinase, pyruvate dehydrogenase kinase (PDK). PDK belongs to a family of mitochondrial protein kinases unique from other eukaryotic protein kinases. We cloned a cDNA encoding a putative PDK from Drosophila melanogaster (DmPDK). The deduced DmPDK consists of 413 amino acids and shares up to 57.8% homology with human and rat PDK isoenzymes. Developmental Northern blot analysis revealed two major transcripts of 2.1 kb and 2.7 kb. The 2.7-kb transcript was expressed throughout ontogeny, whereas the 2.1-kb transcript was specific to embryos and adult females. Whole-mount in situ hybridization revealed that PDK mRNA is ubiquitously distributed in the embryo. The DmPdk gene was cytologically mapped to the 45CD region on the right arm of the second chromosome.
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PMID:cDNA sequence and expression of a gene encoding a pyruvate dehydrogenase kinase homolog of Drosophila melanogaster. 911 42

Effects of aging on the activities of heart pyruvate dehydrogenase complex and pyruvate dehydrogenase kinase were examined using 7, 35 and 60 wk old rats. Aging did not affect the total activity of pyruvate dehydrogenase complex but decreased the activity state (percentage of active form) of the complex in rats under the fed condition (52%, 36% and 26% for 7, 35 and 60 wk old rats, respectively). This decrease in the complex activity with aging was suggested to be associated with an age-related decrease in the blood glucose disposal. Starvation for 24 h decreased the activity state to less than 3% in all of the age groups. The activity of pyruvate dehydrogenase kinase associated with the complex was not related to the alteration in the activity state of the complex; the kinase activity was slightly lower in 60 wk old rats than in the younger rats under the fed condition and activation of the kinase by starvation was greater in the younger rats. The mechanism for the decrease in activity of pyruvate dehydrogenase complex was discussed on the basis of glucose and fatty acid utilization of heart muscle cells.
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PMID:Effects of aging on the activities of pyruvate dehydrogenase complex and its kinase in rat heart. 919 86

Previous studies have demonstrated that pyruvate dehydrogenase kinase (PDHK) activity in extracts of rat cardiac mitochondria is increased @two-fold by providing a high-fat diet for 28 days. The present study sought to establish the factor(s) that might underlie the response of cardiac PDHK to the provision of a high-fat diet. ELISA assays of PDHKII, conducted over a range of PDHK activities, demonstrated that the increase in cardiac PDHK activity was not due to an increase in mitochondrial immunoreactive PDHKII concentration. The pyruvate concentration giving 50% active PDHC (PDHa) in mitochondria incubated with respiratory substrates was unaffected by high-fat feeding, demonstrating a dissociation between increased PDHK activity and altered sensitivity of PDHK to suppression by pyruvate. In cardiac myocytes cultured (25 h) with n-octanoate (1 mm) plus dibutyryl cAMP (50 microM), insulin at 12.5 microU/ml, 25 microU/ml and 75 microU/ml, suppressed PDHK activities in cells prepared from control rats, but insulin at concentrations <100 microU/ml failed to suppress PDHK activities in cardiac myocytes prepared from high-fat-fed rats. In vivo, cardiac insulin sensitivity (assessed by euglycaemic hyperinsulinaemic clamp in combination with 2-[3H] deoxyglucose administration) was suppressed after high-fat feeding. A sustained (24 h) two- to four-fold elevation in plasma insulin concentration (achieved by insulin infusion via osmotic pumps) did not affect PDHK activity in hearts of control rats. In contrast, PDHK activity in hearts of high-fat-fed rats was suppressed to values not significantly different from (insulin-infused) control rats. Basal and agonist-stimulated cAMP concentrations were unaffected by high-fat-feeding or insulin. Furthermore, rates of palmitate oxidation (to CO2) in cardiac myocytes (in the absence or presence of insulin or adrenergic agonists) were not statistically significantly affected by high-fat-feeding. The results indicate that an impaired action of insulin to suppress PDHK participates in the mechanism by which increased PDHK activity is achieved in response to high-fat feeding, but insulin does not act through decreasing cAMP concentrations or suppressing fatty acid oxidation.
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PMID:Molecular mechanisms underlying the long-term impact of dietary fat to increase cardiac pyruvate dehydrogenase kinase: regulation by insulin, cyclic AMP and pyruvate. 923 40


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