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)

The effects of a series of medium-chain fatty acids (C6-C12) on glucose metabolism in isolated acini from lactating rat mammary glands have been studied. Hexanoate (C6) octanoate (C8) and decanoate (C10), but not laurate (C12), decreased [1-14C]glucose conversion into [14C]lipid and the production of 14CO2 (an index of the pentose phosphate pathway). With hexanoate and octanoate, glucose utilization was decreased, whereas decanoate had a slight stimulatory effect on glucose utilization, but there was a large accumulation of lactate. Addition of dichloroacetate (an inhibitor of pyruvate dehydrogenase kinase) decreased this accumulation of lactate and stimulated the conversion of [1-14C]glucose into [14C]lipid and 14CO2. Insulin had no effect on the rate of glucose utilization in the presence of hexanoate. It stimulated the rate in the presence of octanoate and laurate and increased the conversion of [1-14C]glucose into [14C]lipid in the presence of octanoate, decanoate or laurate. The major fate of 1-14C-labelled medium-chain fatty acids (C6, C8 and C12) was conversion into [14C]lipid. The proportion converted into 14CO2 decreased with increasing chain length, whereas the rate of [14C]lipid formation increased. It is concluded that the interactions between medium-chain fatty acids and glucose metabolism represent a feed-back mechanism to control milk lipid synthesis, and this may be important when milk accumulates in the gland.
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PMID:Chain-length dependency of interactions of medium-chain fatty acids with glucose metabolism in acini isolated from lactating rat mammary glands. A putative feed-back to control milk lipid synthesis from glucose. 173 63

The activities of pyruvate dehydrogenase (PDH) kinase and of PDH kinase activator protein (KAP) were increased 2-2.4-fold during 25 h of culture of hepatocytes from fed rats with glucagon plus n-octanoate. PDH kinase activity in hepatocytes from starved rats (initially 2.2 x fed control) fell during 25 h of culture in medium 199 (to 1.5 x fed control), but was maintained by glucagon plus octanoate. Dibutyryl or 8-bromo cyclic AMP increased PDH kinase activity 2-2.2-fold in hepatocytes from fed rats, but phenylephrine and isoproterenol (isoprenaline) were without effect. Insulin blocked the action of glucagon to increase PDH kinase activity and decreased the effect of octanoate and octanoate plus glucagon. It is suggested that the effects of starvation to increase activities of PDH kinase and of KAP in liver are mediated by alterations in circulating concentrations of glucagon, fatty acids and insulin and in hepatic cyclic AMP.
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PMID:Longer-term regulation of pyruvate dehydrogenase kinase in cultured rat hepatocytes. 253 88

Pyruvate inhibited pyruvate dehydrogenase kinase activity in mitochondria from adipose tissue, heart, brain and kidney of fed rats. Starvation for 24 h led to increased kinase activity in mitochondria from adipose tissue and heart but not from brain or kidney and to reduction of pyruvate inhibition of the enzyme from adipose tissue, heart and brain. Insulin injection into starved animals rapidly restored pyruvate inhibition without alteration of kinase activity in adipose tissue and heart mitochondria. Induction of streptozotocin diabetes resulted in loss of pyruvate inhibition of the kinase in heart mitochondria at 48 h but not at 24 h whereas a significant increase of kinase activity was seen at 24 h. It is concluded that the mechanisms which control fluctuations of pyruvate sensitivity of the kinase are different from the mechanisms which control fluctuations of the uninhibited kinase activity.
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PMID:Pyruvate inhibition of pyruvate dehydrogenase kinase is a physiological variable. 388 4

An insulin-sensitive subcellular system was developed from rat adipocytes consisting of plasma membranes and mitochondria. Direct addition of insulin, concanavalin A or anti-insulin receptor antibody to this system resulted in the production of a mediator substance from the plasma membrane that caused dephosphorylation of the alpha subunit of pyruvate dehydrogenase in the mitochondria with concomitant activation of the enzyme. The mediator activated pyruvate dehydrogenase by activating the pyruvate dehydrogenase phosphatase and not by inhibiting the pyruvate dehydrogenase kinase. This was similar to the mechanism by which insulin causes activation of the enzyme in the intact cell. The insulin-sensitive mediator material from the adipocyte plasma membrane was acid-stable with a molecular weight of 1,000 to 1,500. Our laboratory has shown that the mediator that activates pyruvate dehydrogenase was present in intact adipocytes, hepatoma cells, and IM-9 lymphocytes. Insulin altered the amount or activity of the mediator consistent with the effect of the hormone on the cell. Other laboratories have shown similar effects on skeletal muscle and liver. We have shown the mediator to mimic insulin action on the low Km cyclic adenosine monophosphate (AMP) phosphodiesterase and the (calcium++-magnesium++)-adenosine triphosphatase (Ca++-Mg++)-ATPase of adipocyte plasma membranes in addition to pyruvate dehydrogenase. Other laboratories have shown the mediator to activate glycogen synthase. A body of direct and indirect evidence exists that demonstrates that more than one mediator exists. The chemical nature of the mediator is unknown but probably represents a new family of intracellular mediators of hormone action. These mediators may have clinical relevance in postreceptor defects of obesity and type II diabetes (noninsulin-dependent diabetes mellitus).
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PMID:The chemical mediators of insulin action: possible targets for postreceptor defects. 633 85

Bacitracin is a proteolytic inhibitor which interacts with the intracellular processing of insulin. Its effects on pyruvate, fatty acid and amino acid metabolism were examined in rat hepatocyte suspensions. Bacitracin (0.25-1.0 mM) increased the oxidation of [1-14C]pyruvate by 50-70% and presumably therefore increased the flux through pyruvate dehydrogenase. This was found both in the presence of extracellular Ca2+ and in its absence, but not in the presence of 2 mM-2-chloropropionate, which inhibits pyruvate dehydrogenase kinase. Insulin did not further stimulate [1-14C]pyruvate oxidation in the presence of 1 mM-bacitracin. Bacitracin decreased 14CO2 formation from [2-14C]pyruvate (20-40%) and [U-14C]palmitate (30-70%), suggesting a decreased flux through the tricarboxylic acid cycle. Fatty acid oxidation before acetyl-CoA formation was also decreased. Bacitracin decreased the incorporation of label from [3H]leucine into protein in the absence of insulin, but not in its presence. Bacitracin is commonly used in studies on insulin action. Our results suggest that in such studies the effects noted may be related not only to an interaction of bacitracin with the intracellular processing of insulin but also to direct metabolic effects of bacitracin independent of insulin.
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PMID:Metabolic effects of bacitracin in isolated rat hepatocytes. 641 32

Hyperthyroidism [produced by the administration of 3,5,3'-triiodothyronine (T3) for 3 days to adult rats] increased PDH kinase activities of freshly isolated cardiomyocytes by 1.6-fold. The effects of hyperthyroidism and 48 h-starvation to increase PDH kinase activities were additive. Culture of cardiomyocytes prepared from fed, euthyroid rats for 25 h with T3 (100 nM) increased PDH kinase activities to values comparable in magnitude to those observed in response to experimental hyperthyroidism in vivo. PDH kinase activities in cardiomyocytes from fed, euthyroid rats after culture with n-octanoate (1 mM) or dibutyryl cyclic AMP (DBcAMP)(50 microM) exceeded those of freshly isolated myocytes. DBcAMP and T3 were without further effect in the presence of n-octanoate. The inclusion of insulin (100 microU/ml) alone in the culture medium did not affect PDH kinase activity, but insulin suppressed the effects of T3, DBcAMP and n-octanoate to increase cardiomyocyte PDH kinase activity in culture. PDH kinase activities in cardiomyocytes isolated from starved rats declined after 25 h of culture. This decline was prevented by the inclusion of T3, but not of DBcAMP, in the culture medium. Insulin (100 microU/ml) suppressed the effects of T3 to oppose the loss of cardiomyocyte PDH kinase activity experienced during culture. The results demonstrate that hyperthyroidism leads to a stable increase in the activity of cardiomyocyte PDH kinase, a response that is mimicked by T3 in vitro. Insulin opposes the effects of T3 (and of fatty acids and cyclic AMP) to increase PDH kinase activity in cultured cardiomyocytes.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Interactive effects of insulin and triiodothyronine on pyruvate dehydrogenase kinase activity in cardiac myocytes. 760 8

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.
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PMID:Deficiency of pyruvate dehydrogenase activity in pancreatic islets of diabetic GK rats. 762 91

Previous studies have shown that (i) the insulin-induced activation of heart 6-phosphofructo-2-kinase (PFK-2) is wortmannin-sensitive, but is insensitive to rapamycin, suggesting the involvement of phosphatidylinositol 3-kinase; and (ii) protein kinase B (PKB) activates PFK-2 in vitro by phosphorylating Ser-466 and Ser-483. In this work, we have studied the effects of phosphorylation of these residues on PFK-2 activity by replacing each or both residues with glutamate. Mutation of Ser-466 increased the V(max) of PFK-2, whereas mutation of Ser-483 decreased citrate inhibition. Mutation of both residues was required to decrease the K(m) for fructose 6-phosphate. We also studied the insulin-induced activation of heart PFK-2 in transfection experiments performed in human embryonic kidney 293 cells. Insulin activated transfected PFK-2 by phosphorylating Ser-466 and Ser-483. Kinase-dead (KD) PKB and KD 3-phosphoinositide-dependent kinase-1 (PDK-1) cotransfectants acted as dominant negatives because both prevented the insulin-induced activation of PKB as well as the inactivation of glycogen-synthase kinase-3, an established substrate of PKB. However, the insulin-induced activation of PFK-2 was prevented only by KD PDK-1, but not by KD PKB. These results indicate that the insulin-induced activation of heart PFK-2 is mediated by a PDK-1-activated protein kinase other than PKB.
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PMID:Heart 6-phosphofructo-2-kinase activation by insulin results from Ser-466 and Ser-483 phosphorylation and requires 3-phosphoinositide-dependent kinase-1, but not protein kinase B. 1052 87

Insulin stimulation of Glut 4 translocation requires the activation of phosphatidylinositol 3-kinase (PI 3-kinase) but the downstream pathway remains ill-defined. We demonstrated that the overexpression of PDK1 (3-phosphoinositide-dependent protein kinase 1), a downstream effector of PI 3-kinase, stimulated Glut 4 translocation in adipocytes. This effect does not require the PH domain of PDK1, but expression of the pleckstrin homology domain-deleted PDK1 inhibits the effect of insulin, but not okadaic acid, on Glut 4 translocation. These results support a role of the PDK1 pathway in the transmission of insulin signal to Glut translocation.
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PMID:Potential role of 3-phosphoinositide-dependent protein kinase 1 (PDK1) in insulin-stimulated glucose transporter 4 translocation in adipocytes. 1056 11

Activation of protein kinase C-zeta (PKC-zeta) by insulin requires phosphatidylinositol (PI) 3-kinase-dependent increases in phosphatidylinositol-3,4,5-(PO(4))(3) (PIP(3)) and phosphorylation of activation loop and autophosphorylation sites, but actual mechanisms are uncertain. Presently, we examined: (a) acute effects of insulin on threonine (T)-410 loop phosphorylation and (b) effects of (i) alanine (A) and glutamate (E) mutations at T410 loop and T560 autophosphorylation sites and (ii) N-terminal truncation on insulin-induced activation of PKC-zeta. Insulin acutely increased T410 loop phosphorylation, suggesting enhanced action of 3-phosphoinositide-dependent protein kinase-1 (PDK-1). Despite increasing in vitro autophosphorylation of wild-type PKC-zeta and T410E-PKC-zeta, insulin and PIP(3) did not stimulate autophosphorylation of T560A, T560E, T410A/T560E, T410E/T560A, or T410E/T560E mutant forms of PKC-zeta; thus, T560 appeared to be the sole autophosphorylation site. Activating effects of insulin and/or PIP(3) on enzyme activity were completely abolished in T410A-PKC-zeta, partially compromised in T560A-PKC-zeta, T410E/T560A-PKC-zeta, and T410A/T560E-PKC-zeta, and largely intact in T410E-PKC-zeta, T560E-PKC-zeta, and T410E/T560E-PKC-zeta. Activation of the T410E/T560E mutant suggested a phosphorylation-independent mechanism. As functional correlates, insulin effects on epitope-tagged GLUT4 translocation were compromised by expression of T410A-PKC-zeta, T560A-PKC-zeta, T410E/T560A, and T410A/T560E-PKC-zeta but not T410E-PKC-zeta, T560E-PKC-zeta, or T410E/T560E-PKC-zeta. Insulin, but not PIP(3), activated truncated, pseudosubstrate-lacking forms of PKC-zeta and PKC-lambda by a wortmannin-sensitive mechanism, apparently involving PI 3-kinase/PDK-1-dependent phosphorylations but independent of PIP(3)-dependent conformational activation. Our findings suggest that insulin, via PIP(3), provokes increases in PKC-zeta enzyme activity through (a) PDK-1-dependent T410 loop phosphorylation, (b) T560 autophosphorylation, and (c) phosphorylation-independent/conformational-dependent relief of pseudosubstrate autoinhibition.
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PMID:Insulin and PIP3 activate PKC-zeta by mechanisms that are both dependent and independent of phosphorylation of activation loop (T410) and autophosphorylation (T560) sites. 1114 Oct 77


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