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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)
During prolonged exercise, carbohydrate oxidation may result from decreased pyruvate production and increased fatty acid supply and ultimately lead to reduced pyruvate dehydrogenase (PDH) activity. Pyruvate also interacts with the amino acids
alanine
, glutamine, and glutamate, whereby the decline in pyruvate production could affect tricarboxycylic acid cycle flux as well as gluconeogenesis. To enhance our understanding of these interactions, we studied the time course of changes in substrate utilization in six men who cycled at 44+/-1% peak oxygen consumption (mean+/-SE) until exhaustion (exhaustion at 3 h 23 min+/-11 min). Femoral arterial and venous blood, blood flow measurements, and muscle samples were obtained hourly during exercise and recovery (3 h). Carbohydrate oxidation peaked at 30 min of exercise and subsequently decreased for the remainder of the exercise bout (P<0.05). PDH activity peaked at 2 h of exercise, whereas pyruvate production peaked at 1 h of exercise and was reduced (approximately 30%) thereafter, suggesting that pyruvate availability primarily accounted for reduced carbohydrate oxidation. Increased free fatty acid uptake (P<0.05) was also associated with decreasing PDH activity (P<0.05) and increased
PDH kinase
4 mRNA (P<0.05) during exercise and recovery. At 1 h of exercise, pyruvate production was greatest and was closely linked to glutamate, which was the predominant amino acid taken up during exercise and recovery.
Alanine
and glutamine were also associated with pyruvate metabolism, and they comprised approximately 68% of total amino-acid release during exercise and recovery. Thus reduced pyruvate production was primarily associated with reduced carbohydrate oxidation, whereas the greatest production of pyruvate was related to glutamate, glutamine, and
alanine
metabolism in early exercise.
...
PMID:Carbohydrate metabolism during prolonged exercise and recovery: interactions between pyruvate dehydrogenase, fatty acids, and amino acids. 1642 76
Pyruvate dehydrogenase (PDH), the first component of the human pyruvate dehydrogenase complex, has two isoenzymes, somatic cell-specific PDH1 and testis-specific PDH2 with 87% sequence identity in the alpha subunit of alpha(2) beta(2) PDH. The presence of functional testis-specific PDH2 is important for sperm cells generating nearly all their energy from carbohydrates via pyruvate oxidation. Kinetic and regulatory properties of recombinant human PDH2 and PDH1 were compared in this study. Site-specific phosphorylation/dephosphorylation of the three phosphorylation sites by four PDH kinases (
PDK1
-4) and two PDH phosphatases (PDP1-2) were investigated by substituting serines with
alanine
or glutamate in PDHs. PDH2 was found to be very similar to PDH1 as follows: (i) in specific activities and kinetic parameters as determined by the pyruvate dehydrogenase complex assay; (ii) in thermostability at 37 degrees C; (iii) in the mechanism of inactivation by phosphorylation of three sites; and (iv) in the phosphorylation of sites 1 and 2 by
PDK3
. In contrast, the differences for PDH2 were indicated as follows: (i) by a 2.4-fold increase in binding affinity for the PDH-binding domain of dihydrolipoamide acetyltransferase as measured by surface plasmon resonance; (ii) by possible involvement of Ser-264 (site 1) of PDH2 in catalysis as evident by its kinetic behavior; and (iii) by the lower activities of
PDK1
,
PDK2
, and
PDK4
as well as PDP1 and PDP2 toward PDH2. These differences between PDH2 and PDH1 are less than expected from substitution of 47 amino acids in each PDH2 alpha subunit. The multiple substitutions may have compensated for any drastic alterations in PDH2 structure thereby preserving its kinetic and regulatory characteristics largely similar to that of PDH1.
...
PMID:Characterization of testis-specific isoenzyme of human pyruvate dehydrogenase. 1643 77
The PDC (pyruvate dehydrogenase complex) is strongly inhibited by phosphorylation during starvation to conserve substrates for gluconeogenesis. The role of PDHK4 (
pyruvate dehydrogenase kinase
isoenzyme 4) in regulation of PDC by this mechanism was investigated with PDHK4-/- mice (homozygous PDHK4 knockout mice). Starvation lowers blood glucose more in mice lacking PDHK4 than in wild-type mice. The activity state of PDC (percentage dephosphorylated and active) is greater in kidney, gastrocnemius muscle, diaphragm and heart but not in the liver of starved PDHK4-/- mice. Intermediates of the gluconeogenic pathway are lower in concentration in the liver of starved PDHK4-/- mice, consistent with a lower rate of gluconeogenesis due to a substrate supply limitation. The concentration of gluconeogenic substrates is lower in the blood of starved PDHK4-/- mice, consistent with reduced formation in peripheral tissues. Isolated diaphragms from starved PDHK4-/- mice accumulate less lactate and pyruvate because of a faster rate of pyruvate oxidation and a reduced rate of glycolysis. BCAAs (branched chain amino acids) are higher in the blood in starved PDHK4-/- mice, consistent with lower blood
alanine
levels and the importance of BCAAs as a source of amino groups for
alanine
formation. Non-esterified fatty acids are also elevated more in the blood of starved PDHK4-/- mice, consistent with lower rates of fatty acid oxidation due to increased rates of glucose and pyruvate oxidation due to greater PDC activity. Up-regulation of PDHK4 in tissues other than the liver is clearly important during starvation for regulation of PDC activity and glucose homoeostasis.
...
PMID:Role of pyruvate dehydrogenase kinase isoenzyme 4 (PDHK4) in glucose homoeostasis during starvation. 1660 48
In an article presented in this issue of Molecular Pharmacology, Yacoub et al. (p. 589) examine the actions of 2-amino-N{4-5-(2-phenanthrenyl)-3-(trifluoromethyl)-1H-pyrazol-1-yl]phenyl}-acetamide (OSU-03012) on both primary and glioblastoma cell lines. The authors found that OSU-03012 could induce tumor cell death by itself but also acted as a strong sensitizing agent to radiotherapy-induced cell death. Glioblastoma cells were also more sensitive to this compound than nontransformed astrocytes. Radiation-induced cell death was refractory to small interfering RNA-directed inhibition of
PDK1
but not OSU-03012. These results indicate that OSU-03012, which has been thought to primarily mediate antitumor effects via the inhibition of
PDK1
, has actions independent of
PDK1
. Furthermore, the authors demonstrated that the effects of OSU-03012 were independent of ERB-B1-vIII and PTEN expression. These are important findings because they start to identify a new mechanism to sensitize glioblastoma cells and also suggest that OSU-03012 could be combined with existing inhibitors to further sensitize tumor cells. In glioblastoma cells, OSU-03012 seemed to induce apoptosis via endoplasmic reticulum stress-induced PERK-dependent signaling. OSU-03012-induced death of the glioblastoma was only weakly suppressed by the pan-caspase inhibitor, N-benzyloxycarbonyl-Val-
Ala
-Asp, suggesting that OSU-03012-induced cell death was largely caspase-independent. Overall, these are exciting results and suggest that new more effective treatment options may be obtainable for people suffering from these deadly tumors.
...
PMID:OSU-03012 in the treatment of glioblastoma. 1667 57
In Aplysia, persistent increases in synaptic strength are paralleled by the persistent activation of the novel protein kinase C Apl II. We raised a phosphospecific antibody against serine 725, the hydrophobic motif in protein kinase C Apl II. Phosphorylation of serine 725 increased in parallel to the persistent activation of the kinase. We expressed protein kinase C where this site was mutated to an
alanine
to prevent phosphorylation. The mutated protein kinase C showed decreased specific activity consistent with a model where the kinase is less stable in the absence of phosphorylation of this site. Endogenous phosphorylation of protein kinase C Apl II at serine 725 was unaffected by either activation of protein kinase C by phorbol esters, or inhibition of protein kinase C using two distinct inhibitors, suggesting the site is not autophosphorylated. Consistent with this, overexpressed kinase-dead protein kinase C Apl II still was phosphorylated at serine 725, although to a lesser extent than wild-type protein kinase C Apl II. While
PDK
appears to interact with the serine 725 site, it is not responsible for its phosphorylation. Finally inhibition of phosphoinositide-3 kinase or the target of rapamycin by pharmacological agents did not block basal phosphorylation of serine 725 in Aplysia ganglia. Our results suggest trans-phosphorylation of protein kinase C Apl II as Ser 725 occurs during persistent activation of the kinase, but this does not appear to be downstream of phosphoinositide-3 kinase.
...
PMID:Phosphorylation at the hydrophobic site of protein kinase C Apl II is increased during intermediate term facilitation. 1667 67
Pyruvate dehydrogenase kinase isoforms (
PDK1
-4) are the molecular switch that down-regulates activity of the human pyruvate dehydrogenase complex through reversible phosphorylation. We showed previously that binding of the lipoyl domain 2 (L2) of the pyruvate dehydrogenase complex to
PDK3
induces a "cross-tail" conformation in
PDK3
, resulting in an opening of the active site cleft and the stimulation of kinase activity. In the present study, we report that
alanine
substitutions of Leu-140, Glu-170, and Glu-179 in L2 markedly reduce binding affinities of these L2 mutants for
PDK3
. Unlike wildtype L2, binding of these L2 mutants to
PDK3
does not preferentially reduce the affinity of
PDK3
for ADP over ATP. The inefficient removal of product inhibition associated with ADP accounts for the decreased stimulation of
PDK3
activity by these L2 variants. Serial truncations of the
PDK3
C-terminal tail region either impede or abolish the binding of wild-type L2 to the
PDK3
mutants, resulting in the reduction or absence of L2-enhanced kinase activity.
Alanine
substitutions of residues Leu-27, Phe-32, Phe-35, and Phe-48 in the lipoyl-binding pocket of
PDK3
similarly nullify L2 binding and L2-stimulated
PDK3
activity. Our results indicate that the above residues in L2 and residues in the C-terminal region and the lipoyl-binding pocket of
PDK3
are critical determinants for the cross-talk between L2 and
PDK3
, which up-regulates
PDK3
activity.
...
PMID:Structural determinants for cross-talk between pyruvate dehydrogenase kinase 3 and lipoyl domain 2 of the human pyruvate dehydrogenase complex. 1684 21
Insulin and insulin-like growth factor (IGF1) participate in the regulation of renal electrolyte excretion. Insulin- and IGF1-dependent signaling includes phosphatidylinositide-3 (PI3)-kinase, phosphoinositide-dependent kinase
PDK1
as well as protein kinase B (PKB) and serum and glucocorticoid inducible kinase (SGK) isoforms, which in turn phosphorylate and thus inhibit glycogen synthase kinase GSK3alpha,beta. Replacement of the serines in the PKB/SGK consensus sequences by
alanine
(gsk3 ( KI )) confers resistance of GSK3 to PKB/SGK. To explore the role of PKB/SGK-dependent inhibition of GSK3 in the regulation of water/electrolyte metabolism, mice carrying the PKB/SGK resistant mutant (gsk3 ( KI )) were compared to their wild-type littermates (gsk3 ( WT ) ). Body weight was similar in gsk3 ( KI ) and gsk3 ( WT ) mice. Plasma aldosterone at 10 A.M: . and corticosterone concentrations at 5 P.M: . were significantly lower, but 24-h urinary aldosterone was significantly higher, and corticosterone excretion tended to be higher in gsk3 ( KI ) than in gsk3 ( WT ) mice. Food and water intake, fecal excretion, glomerular filtration rate, urinary flow rate, urine osmolarity, as well as urinary Na+, K+, urea excretion were significantly larger, and plasma Na+, urea, but not K+ concentration, were significantly lower in gsk3 ( KI ) than in gsk3 ( WT ) mice. Body temperature was significantly higher in gsk3 ( KI ) than in gsk3 ( WT ) mice. When allowed to choose between tap water and saline, gsk3 ( WT ) mice drank more saline, whereas gsk3 ( KI ) mice drank similar large volumes of tap water and saline. During high-salt diet, urinary vasopressin excretion increased to significantly higher levels in gsk3 ( KI ) than in gsk3 ( WT ) mice. After water deprivation, body weight decreased faster in gsk3 ( KI ) than in gsk3 ( WT ) mice. Blood pressure, however, was significantly higher in gsk3 ( KI ) than in gsk3 ( WT ) mice. The observations disclose a role of PKB/SGK-dependent GSK3 activity in the regulation of steroid hormone release, renal water and electrolyte excretion and blood pressure control.
...
PMID:Steroid hormone release as well as renal water and electrolyte excretion of mice expressing PKB/SGK-resistant GSK3. 1836 60
Acute insulin-releasing actions of amino acids have been studied in detail, but comparatively little is known about the beta-cell effects of long-term exposure to amino acids. The present study examined the effects of prolonged exposure of beta-cells to the metabolizable amino acid L-
alanine
. Basal insulin release or cellular insulin content were not significantly altered by
alanine
culture, but acute
alanine
-induced insulin secretion was suppressed by 74% (P<0.001). Acute stimulation of insulin secretion with glucose, KCl or KIC (2-oxoisocaproic acid) following
alanine
culture was not affected. Acute
alanine
exposure evoked strong cellular depolarization after control culture, whereas AUC (area under the curve) analysis revealed significant (P<0.01) suppression of this action after culture with
alanine
. Compared with control cells, prior exposure to
alanine
also markedly decreased (P<0.01) the acute elevation of [Ca(2+)](i) (intracellular [Ca(2+)]) induced by acute
alanine
exposure. These diminished stimulatory responses were partially restored after 18 h of culture in the absence of
alanine
, indicating reversible amino-acid-induced desensitization. (13)C NMR spectra revealed that
alanine
culture increased glutamate labelling at position C4 (by 60%; P<0.01), as a result of an increase in the singlet peak, indicating increased flux through pyruvate dehydrogenase. Consistent with this, protein expression of the pyruvate dehydrogenase kinases
PDK2
and
PDK4
was significantly reduced. This was accompanied by a decrease in cellular ATP (P<0.05), consistent with diminished insulin-releasing actions of this amino acid. Collectively, these results illustrate the phenomenon of beta-cell desensitization by amino acids, indicating that prolonged exposure to
alanine
can induce reversible alterations to metabolic flux, Ca(2+) handling and insulin secretion.
...
PMID:Prolonged L-alanine exposure induces changes in metabolism, Ca(2+) handling and desensitization of insulin secretion in clonal pancreatic beta-cells. 1870 13
Protein kinase B (PKB; also known as Akt) is important for mediating survival and proliferation signals. Following activation, PKB shuttles to various compartments of the cell, including the nucleus, where it phosphorylates an array of targets. PKB is phosphorylated at T308 by its activator
PDK1
.
PDK1
is normally excluded from the nucleus via a nuclear exclusion sequence (NES), and our previous work suggested that nuclear exclusion can be attenuated by IGF-1-induced phosphorylation of S396 proximal to the NES. No studies have been done to test the significance of S396 phosphorylation or the impact of nuclear accumulation of
PDK1
on PKB activation. To address these questions, we created isogenic embryonic stem cell (ESC) lines expressing various alleles of
PDK1
within a
PDK1
-/- background. Disruption of the NES domain of
PDK1
correlated with elevated PKB phosphorylation at both T308 and S473. In contrast, mutation of S396 to
alanine
reduced
PDK1
nuclear localization and reduced PKB phosphorylation and activation. The loss of phosphorylation of PKB by S396A mutation was rescued by forcing nuclear
PDK1
or by conversion of S396 to an aspartic acid. The phosphorylation of the PKB substrate FOXO3alpha was reduced in S396A
PDK1
ESC. Other known and suspected PKB substrates, including GSK3 and Raf1, were unaffected. This study therefore reveals that S396 plays a role in the activation of PKB leading to the regulated phosphorylation of some PKB substrates including FOXO3alpha.
...
PMID:Serine 396 of PDK1 is required for maximal PKB activation. 1871 28
The protein kinase C (PKC) family is the most prominent target of tumor-promoting phorbol esters. For the PKCepsilon isozyme, different intracellular localizations and oncogenic potential in several but not all experimental systems have been reported. To obtain information about PKCepsilon-signaling, we investigated the effects of constitutively active rat PKCepsilon (PKCepsilonA/E,
alanine
159 is replaced by glutamic acid) in HeLa cells in a doxycycline-inducible vector. Upon induction of PKCepsilonA/E expression by doxycycline, the major part of PKCepsilonA/E was localized to the Golgi. This led (i) to phosphorylations of PKCepsilon(S729), Elk-1(S383),
PDK1
(S241) and Rb(S807/S811), (ii) to elevated expression of receptor of activated C kinase 2 (RACK2) after 12 h, and (iii) increased colony formation in soft agar, increased cell migration and invasion, but not to decreased doubling time. Following induction of PKCepsilonA/E-expression by doxycycline for 24 h and additional short-term treatment with 12-O-tetradecanoylphorbol-13-acetate (TPA), PKCepsilonA/E translocated to the plasma membrane and increased phosphorylation of MARCKS(S152/156). Treatment with doxycycline/TPA or TPA alone increased phosphorylations of Elk-1(S383),
PDK1
(S241), Rb(S807/S811), PKCdelta(T505), p38MAPK(T180/Y182), MEK1/2(S217/S221) and ERK2(T185/T187). MARCKS was not phosphorylated after treatment with TPA alone, demonstrating that in this system it is phosphorylated only by PKCepsilon localized to the plasma membrane but not by PKCalpha or delta, the other TPA-responsive PKC isozymes in HeLa cells. These results demonstrate that PKCepsilon can induce distinctly different signaling from the Golgi and from the plasma membrane.
...
PMID:Signal transduction of constitutively active protein kinase C epsilon. 1916 30
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