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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)
Recent evidence from this laboratory indicates that at least two isoenzymic forms of
pyruvate dehydrogenase kinase
(
PDK1
and
PDK2
) may be involved in the regulation of enzymatic activity of mammalian pyruvate dehydrogenase complex by phosphorylation (Popov, K.M., Kedishvili, N.Y., Zhao, Y., Gudi, R., and Harris, R.A. (1994) J. Biol. Chem. 269, 29720-29724). The present study was undertaken to further explore the diversity of the
pyruvate dehydrogenase kinase
gene family. Here we report the deduced amino acid sequences of three isoenzymic forms of
PDK
found in humans. In terms of their primary structures, two isoenzymes identified in humans correspond to rat
PDK1
and
PDK2
, whereas a third gene (
PDK3
) encodes for a new isoenzyme that shares 68% and 67% of amino acid identities with
PDK1
and
PDK2
, respectively.
PDK3
cDNA expressed in Eschierichia coli directs the synthesis of a polypeptide with a molecular mass of approximately 45,000 Da that possesses catalytic activity toward kinase-depleted
pyruvate dehydrogenase
.
PDK3
appears to have the highest specific activity among the three isoenzymes tested as recombinant proteins. Tissue distribution of all three isoenzymes of human
PDK
was characterized by Northern blot analysis. The highest amount of
PDK2
mRNA was found in heart and skeletal muscle, the lowest amount in placenta and lung. Brain, kidney, pancreas, and liver expressed an intermediate amount of
PDK2
(brain > kidney = pancreas > liver). The tissue distribution of
PDK1
mRNA differs markedly from
PDK2
. The message for
PDK1
was expressed predominantly in heart with only modest levels of expression in other tissues (skeletal muscle > liver > pancreas > brain > placenta = lung > kidney). In contrast to PDk1 and
PDK2
, which are expressed in all tissues tested, the message for
PDK3
was found almost exclusively in heart and skeletal muscle, indicating that
PDK3
may serve specialized functions characteristic of muscle tissues. In all tissues tested thus far, the level of expression of
PDK2
mRNA was essentially higher than that of
PDK1
and
PDK3
, consistent with the idea that
PDK2
is a major isoenzyme responsible for regulation of
pyruvate dehydrogenase
in human tissues.
...
PMID:Diversity of the pyruvate dehydrogenase kinase gene family in humans. 749 31
Molecular cloning has provided evidence for a new family of protein kinases in eukaryotic cells. These kinases show no sequence similarity with other eukaryotic protein kinases, but are related by sequence to the histidine protein kinases found in prokaryotes. These protein kinases, responsible for phosphorylation and inactivation of the branched-chain alpha-ketoacid dehydrogenase and
pyruvate dehydrogenase
complexes, are located exclusively in mitochondrial matrix space and have most likely evolved from genes originally present in respiration-dependent bacteria endocytosed by primitive eukaryotic cells. Long-term regulatory mechanisms involved in the control of the activities of these two kinases are of considerable interest. Dietary protein deficiency increases the activity of branched-chain alpha-ketoacid dehydrogenase kinase associated with the branched-chain alpha-ketoacid dehydrogenase complex. The amount of branched-chain alpha-ketoacid dehydrogenase kinase protein associated with the branched-chain alpha-ketoacid dehydrogenase complex and the message level for branched-chain alpha-ketoacid dehydrogenase kinase are both greatly increased in the liver of rats starved for protein, suggesting increased expression of the gene encoding branched-chain alpha-ketoacid dehydrogenase kinase. The increase in branched-chain alpha-ketoacid dehydrogenase kinase activity results in greater phosphorylation and lower activity of the branched-chain alpha-ketoacid dehydrogenase complex. The metabolic consequence is conservation of branched chain amino acids for protein synthesis during periods of dietary protein deficiency. Two isoforms of
pyruvate dehydrogenase kinase
have been identified and cloned. Pyruvate dehydrogenase kinase 1, the first isoform cloned, corresponds to the 48 kDa subunit of the
pyruvate dehydrogenase kinase
isolated from rat heart tissue. Pyruvate dehydrogenase kinase 2, the second isoform cloned, corresponds to the 45 kDa subunit of this enzyme. In addition, it also appears to correspond to a possibly free or soluble form of
pyruvate dehydrogenase kinase
that was originally named kinase activator protein. Assuming that differences in kinetic and/or regulatory properties of these isoforms exist, tissue specific expression of these enzymes and/or control of their association with the complex will probably prove to be important for the long term regulation of the activity of the pyruvate dehydrogenase complex. Starvation and the diabetic state are known to greatly increase activity of the
pyruvate dehydrogenase kinase
in the liver, heart and muscle of the rat. This contributes in these states to the phosphorylation and inactivation of the pyruvate dehydrogenase complex and conservation of pyruvate and lactate for gluconeogenesis.(ABSTRACT TRUNCATED AT 400 WORDS)
...
PMID:A new family of protein kinases--the mitochondrial protein kinases. 757 41
We investigated the role of islet
pyruvate dehydrogenase
(
PDH
) enzyme activity and fatty acid oxidation in the impaired insulin secretion in spontaneously diabetic GK rats. Blood glucose levels were elevated in 2- to 3-month-old GK rats (8.7 +/- 0.5 vs. 6.5 +/- 0.3 mM in control Wistar rats; P < 0.01), whereas serum insulin levels were comparable to those in control rats. Insulin and DNA contents were similar in freshly isolated islets from GK and control rats, whereas insulin responses to 27 mM glucose from GK islets were reduced by 52%. The effect of acetate or pyruvate on insulin responses evoked by succinate monomethylester (SAM) were compared to indirectly assess deficient generation of acetyl-coenzyme A from pyruvate. Acetate potentiated SAM-induced insulin secretion similarly in GK and control islets, whereas 10 mM pyruvate (which supplies acetyl-coenzyme A through
PDH
enzyme activity) failed to normally potentiate insulin secretion in GK islets (92% of SAM-induced response in GK vs. 154% in control islets). The
PDH
activity (active form) was decreased in GK islets by 35% (P < 0.001). The proportion of active form
PDH
to total
PDH
activity was reduced in GK islets (56% vs. 71% in control islets; P < 0.01). The activity of
PDH kinase
(which inactivates
PDH
by phosphorylation) was increased in GK islets, the rate of ATP-dependent inactivation of
PDH
was -0.29 +/- 0.02 vs. -0.19 +/- 0.02/min in control islets (P < 0.05). Culturing GK islets for 48 h at 5.5 mM glucose failed to correct the impaired insulin response to glucose and the decreased
PDH
activity. Serum FFA levels and islet triglyceride contents did not differ between GK and control rats. Etomoxir (1.0 and 10 microM), a carnitine palmitoyl transferase I inhibitor, failed to enhance glucose-induced insulin release in GK islets. The following conclusions were reached: 1) a kinase-mediated decrease in
PDH
activity in islets of GK rats may in part account for the decreased ratio of oxidized to utilized glucose and impaired insulin release in these islets; and 2) impaired insulin release in the GK rats is not linked to an inhibitory influence of islet fatty acid oxidation.
...
PMID:Deficiency of pyruvate dehydrogenase activity in pancreatic islets of diabetic GK rats. 762 91
We previously found that long-term exposure to fatty acids impairs glucose-induced insulin release. In the present study, we investigated whether impairment is related to decreased
pyruvate dehydrogenase
(
PDH
) and increased
PDH kinase
activity. Rat pancreatic islets were cultured for 48 h in RPMI-1640 medium with or without 0.125 mmol/l palmitate. Potentiation of insulin responses to succinic acid monomethylester (SAM) by 10 mmol/l acetate and pyruvate were subsequently compared in order to assess whether generation of acetyl-coenzyme A (CoA) from pyruvate was deficient in the intact beta-cell. Potentiation by acetate was similar in control and palmitate-preexposed islets. In contrast, pyruvate potentiated SAM-induced response by 122% in control but by only 39% in palmitate-exposed islets (P < 0.001). In extracts of palmitate-exposed islets, the active (unphosphorylated) form of
PDH
was decreased by 50% and total
PDH
activity (assessed after phosphatase treatment) by 25%. The proportion of active form to total
PDH
activity was also reduced (42.7 +/- 2.6% after palmitate vs. 66.6 +/- 4.3% in control islets, P < 0.01). In the same preparations,
PDH kinase
activity was enhanced 1.7-fold by palmitate in terms of the rate constant of ATP-dependent inactivation of
PDH
(P < 0.05). To test for a role of free (not
PDH
-bound) kinase, a
PDH
-free mitochondrial fraction was prepared, and its kinase activity was tested against a pig heart
PDH
preparation. Free kinase activity was increased 1.9-fold in palmitate-treated islets (P < 0.01).(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Palmitate-induced beta-cell insensitivity to glucose is coupled to decreased pyruvate dehydrogenase activity and enhanced kinase activity in rat pancreatic islets. 769 6
We previously demonstrated in the rat that long term exposure to fatty acids inhibits B-cell function in vivo and in vitro. To further assess the clinical significance of these findings, we tested in human islets the effects of fatty acids on glucose-induced insulin release and biosynthesis and on
pyruvate dehydrogenase
(
PDH
) activity. Human islets were obtained from the beta-Cell Transplant Unit (Brussels, Belgium). Exposure to 0.125 mmol/L palmitate or oleate for 48 h during tissue culture (RPMI-1640 and 5.5 mmol/L glucose) inhibited the postculture insulin response to 27 mmol/L glucose by 40% and 42% (P < 0.01 for difference). Inhibition was partly prevented by coculture with 1 mumol/L etomoxir, a carnitine-palmitoyl-transferase-I inhibitor (P < 0.05 for effect of etomoxir). Inhibitory effects on glucose-induced insulin secretion by previous palmitate were additive to the inhibitory effects exerted by previous high glucose (11 and 27 mmol/L). Palmitate-induced inhibition of insulin secretion was evident after exposure to 25 mumol/L added fatty acid. The insulin content of islets exposed to fatty acids was significantly reduced, and glucose-induced proinsulin biosynthesis was inhibited by 59% after palmitate addition and by 51% after oleate exposure (P < 0.01). These effects were partly prevented by etomoxir (P < 0.05). The activity of
PDH
in mitochondrial extracts of islets preexposed for 48 h to palmitate was decreased by 35% (P < 0.05) vs. that in control islets, whereas the activity of
PDH kinase
(which inactivates
PDH
) was significantly increased in the same preparations (P < 0.05). The effects of ketones were tested by 48-h exposure to beta-hydroxybutyrate (beta-D-OHB). Ten millimoles of D-beta-OHB per L inhibited the subsequently tested insulin response to 27 mmol/L glucose by 56% (P < 0.001). Half-maximal inhibitory effects of D-beta-OHB on insulin secretion and insulin content were seen at concentrations between 0.5-2.5 mmol/L. Inhibition by D-beta-OHB was partially reversed by etomoxir, whereas exposure to D-beta-OHB failed to affect
PDH
and
PDH kinase
activities. We conclude that fatty acids as well as ketone bodies diminish B-cell responsiveness to glucose in human islets by way of a glucose-fatty acid cycle. Increased plasma concentrations of fatty acids and ketones are likely to be important factors behind the negative influences on B-cell function exerted by a diabetic state in both type 1 and type 2 diabetes.
...
PMID:Long term exposure to fatty acids and ketones inhibits B-cell functions in human pancreatic islets of Langerhans. 774 4
This review examines the molecular mechanisms underlying substrate competition between glucose and lipid in starvation and in insulin-resistant states. We demonstrate that lipid-derived substrates are oxidized in preference to glucose by skeletal muscle in vivo during prolonged starvation. An accelerated and exaggerated lipolytic and ketogenic response to starvation in late pregnancy is associated with more rapid suppression of glucose oxidation by the maternal skeletal-muscle mass. These benign adaptations to changes in lipid availability (which occur secondarily to changes in carbohydrate supply and demand) contrast with the well-documented detrimental effects to health of an inappropriately high supply of dietary lipid. We present results that indicate that the prolonged consumption of a diet high in saturated fat is associated with a stable enhancement of
pyruvate dehydrogenase
(
PDH
) kinase activity at least in two oxidative tissues--liver and heart. This long-term enhancement of
PDH kinase
activity is concomitant with the development of whole-body insulin resistance and adds a new dimension to the potential role of dietary composition in the pathogenesis of insulin resistance.
...
PMID:The pyruvate dehydrogenase complex: nutrient control and the pathogenesis of insulin resistance. 778 39
The branched-chain alpha-ketoacid dehydrogenase (BCKDH) and
pyruvate dehydrogenase
(
PDH
) complexes are regulated by phosphorylation cycles catalyzed by complex-specific protein kinases and phosphoprotein phosphatases. Molecular cloning of these mitochondrial protein kinases has established a new family of protein kinases in eukaryotes that appears related by primary sequence to the histidine protein kinase family of prokaryotes. Changes in the activities of both kinases that are stable, i.e., not caused directly by allosteric effectors, correlate inversely with the changes in the activity states of the complexes that occur in different nutritional states. For example, BCKDH kinase activity is increased and the BCKDH complex activity state is decreased in rats fed diets deficient in protein. The increase in BCKDH kinase activity is due to an increase in the amount of BCKDH kinase protein bound to the BCKDH complex. The message level for BCKDH kinase also increases in the liver of rats starved for protein, suggesting a pretranslational mechanism exists for the long-term regulation of BCKDH kinase. Starvation and high-fat feeding cause a stable increase in
PDH kinase
activity and a corresponding decrease in activity state of the
PDH
complex. The mechanism responsible has not been defined.
...
PMID:Nutritional regulation of the protein kinases responsible for the phosphorylation of the alpha-ketoacid dehydrogenase complexes. 778 41
Tyrphostins inhibit tyrosine kinases and have little effect on the activity of serine/threonine kinases. Pyruvate dehydrogenase kinase inactivates
pyruvate dehydrogenase
by phosphorylating serine residues within the multienzyme complex. This serine/theronine kinase represents a new family of protein kinases, and one (tyrphostin 47) of two tyrphostins tested appeared to activate the
pyruvate dehydrogenase kinase
as determined by [1-14C]-lactate oxidation to 14CO2. Experiments designed to determine if the tyrphostins altered
pyruvate dehydrogenase
activity in mitochondria prepared from rat epididymal adipocytes using [1-14C]-pyruvate as the substrate demonstrated a dose dependent increase in enzyme activity in the presence of tyrphostin 47, but not in tyrphostin 23. This apparent stimulation of
pyruvate dehydrogenase
activity was attributed to tyrphostin 47's ability to nonenzymatically decarboxylate [1-14C]-pyruvate, the substrate for the
pyruvate dehydrogenase
assay. Neither tyrphostin directly altered
pyruvate dehydrogenase kinase
activity. Therefore, assays utilizing [1-14C]-pyruvate and tyrphostin 47 are subject to analytical interference.
...
PMID:Tyrphostin 47 nonenzymatically decarboxylates [1-14C]-pyruvate. 781 37
The dihydrolipoyl acetyltransferase (E2) component of the mammalian pyruvate dehydrogenase complex forms a 60-subunit core in which E2's inner domain forms a dodecahedron shaped structure surrounded by its globular outer domains that are connected to each other and the inner domain by 2-3-kDa mobile hinge regions. Two of the outer domains are approximately 10 kDa lipoyl domains, an NH2-terminal one, E2L1, and, after the first hinge region a second one, E2L2. The
pyruvate dehydrogenase kinase
binds tightly to the lipoyl domain region of the oligomeric E2 core and phosphorylates and inactivates the
pyruvate dehydrogenase
(E1) component. We wished to determine whether lipoyl domain constructs prepared by recombinant techniques from a cDNA for human E2 could bind the bovine E1 kinase and, that being the case, to pursue which lipoyl domain the kinase binds. We also wished to gain insights into how a molecule of kinase tightly bound to the E2 core can rapidly phosphorylate 20-30 molecules of the
pyruvate dehydrogenase
(E1) component which are also bound to an outer domain of the E2 core. We prepared recombinant constructs consisting of the entire lipoyl domain region or the individual lipoyl domains with or without the intervening hinge region. Constructs were made and used both as free lipoyl domains and fused to glutathione S-transferase (GST). Using GSH-Sepharose to selectively bind GST constructs, tightly bound kinase was shown to rapidly transfer in a highly preferential way from intact E2 core to GST constructs containing the E2L2 domain rather than to ones containing only the E2L1 domain. GST-E2L2-kinase complexes could be eluted from GSH-Sepharose with glutathione. Delipoylation of E2L2 by treatment with lipoamidase eliminated kinase binding supporting a direct role of the lipoyl prosthetic group in this association. Transfer to and selective binding of the kinase by E2L2 but not E2L1 was also demonstrated with free constructs using a sucrose gradient procedure to separate the large E2 core from the various lipoyl domain constructs. E2L2 but not E2L1 increased the activity of resolved kinase by up to 43%. We conclude that the kinase selectively binds to the inner lipoyl domain of E2 subunits and that this association involves its lipoyl prosthetic group. We further suggest that transfer of tightly bound kinase between E2L2 domains occurs by a direct interchange mechanism without formation of free kinase (model presented).(ABSTRACT TRUNCATED AT 400 WORDS)
...
PMID:Binding of the pyruvate dehydrogenase kinase to recombinant constructs containing the inner lipoyl domain of the dihydrolipoyl acetyltransferase component. 782 13
Glucose is essential for the energy metabolism of some cells and conservation of glucose is obligatory for survival during starvation. The principal site of this glucose conservation is the mitochondrial
pyruvate dehydrogenase
(
PDH
) complex, which is regulated by reversible phosphorylation (phosphorylation is inactivating). In cells in which glucose oxidation is switched off during starvation, fatty acids are used as fuel, and acetyl CoA and NADH formed by beta-oxidation promote phosphorylation of
PDH
complex by activation of
PDH kinase
. A longer-term mechanism further increases
PDH kinase
activity in response to cAMP and products of beta-oxidation of fatty acids. Coordinated inhibition of glycolytic flux mediated by effects of citrate on PFK1 and PFK2 in muscles and liver results in an associated inhibition of glucose uptake. Similar mechanisms lead to impaired glucose oxidation in diabetes.
...
PMID:Glucose fatty acid interactions and the regulation of glucose disposal. 792 13
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