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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 glycoprotein hormones, ACTH, TSH, FSH, and LH regulate diverse functions in endocrine cells. Although cAMP and PKA have long been shown to mediate specific intracellular signaling events including the transcription of specific genes via the CREB-CBP complex, recent observations have indicated that PKA does not account for all of the intracellular targets of cAMP. For example, TSH stimulation of thyroid cell proliferation is not completely blocked by PKA inhibitors. TSH and FSH can stimulate
PKB
phosphorylation by a PKAindependent but PI3-K/
PDK1
-dependent pathway. An FSH inducible kinase, Sgk, has recently been shown to be a close relative of
PKB
. Sgk is also a target of PI3-K-
PDK1
pathway, indicating that some effects previously ascribed to
PKB
may be mediated by this inducible kinase. The identification of novel cAMP-binding proteins that exhibit guanine nucleotide exchange (GEF) activity (cAMP-GEFS; Epacs) has open new doors for cAMP action that include activation of small GTPases such as Rap1a, Rap2, and possibly Ras. These GTPases are known activators of downstream kinase cascades, including p38MAPK and Erk1/2 as well as PI3-K. Thus, FSH and TSH activation of
PKB
and Sgk may occur via this alternative cAMP pathway that involves cAMP-GEFs and the activation of the PI3-K/
PDK1
pathway.
...
PMID:New signaling pathways for hormones and cyclic adenosine 3',5'-monophosphate action in endocrine cells. 1115 28
Neutrophils play a central role in host defense and are recruited in vast numbers to sites of infection where they phagocytose and kill invading bacterial pathogens. Neutrophils have a short half-life that is extended at the inflamed site by pro-inflammatory cytokines and contact with bacterial cell walls. Normal resolution of inflammation involves the removal of neutrophils and other inflammatory cells by the induction of apoptosis. Spontaneous neutrophil apoptosis does not require Fas ligation, but is mediated by caspases 3, 8 and possibly caspase 9 and also involves activation of protein kinase C-delta. With chronic inflammatory disease, neutrophil apoptosis is delayed by pro-inflammatory cytokines, leading to persistence of neutrophils at the inflamed site and non-specific tissue damage. Here we discuss the evidence for inhibition of neutrophil apoptosis via signaling though PI-3-kinase and downstream pathways, including
PDK
-1 and
PKB
. Therapeutic strategies to resolve chronic inflammation could therefore usefully target neutrophil apoptosis and the PI-3-kinase or PKC-delta signaling pathways.
...
PMID:Regulation of neutrophil apoptosis: a role for protein kinase C and phosphatidylinositol-3-kinase. 1125 88
Phospholipid-dependent kinase 1 (
PDK
1) is a 3'-phospholipid-responsive serine/threonine kinase that plays a critical role in cell survival by phosphorylating and activating the anti-apoptotic AKT/
PKB
kinase. While
PDK
1 is clearly an important component of the cell survival machinery, the potential for phospholipid-independent activation of the AKT/
PKB
survival pathway has not been extensively examined at the molecular level. We have identified a second form of
PDK
1 in the nematode Caenorhabditis elegans that we have termed PIAK (phospholipid-independent AKT/
PKB
kinase). PIAK is highly homologous to C. elegans and mammalian
PDK
1 with the exception that the novel kinase lacks a phospholipid binding pleckstrin homology domain. The domain structure of PIAK suggests that it might be a phospholipid-independent kinase, and PIAK phosphorylates mammalian AKT/
PKB
at the activating Thr(308) residue in the presence of the phosphatidylinositol (PI) 3-kinase inhibitors as well as in the absence of growth factors. In addition, PIAK is capable of inducing the phospholipid-independent, AKT/
PKB
-induced phosphorylation of the AFX-type forkhead transcription factor, resulting in its cytoplasmic localization. Because the nuclear localization of this transcription factor induces an apoptotic state, this PIAK-mediated cytoplasmic sequestration allows for cell survival. Finally, PIAK activity appears to be induced by various inhibitors of cell cycle G(1) progression. These data suggest an alternate, phosphatidylinositol 3-kinase-independent mechanism for the activation of the AKT/
PKB
survival pathway that may be utilized during periods of cellular quiescence.
...
PMID:Caenorhabditis elegans PIAK, a phospholipid-independent kinase that activates the AKT/PKB survival kinase. 1127 60
Protein kinase B (
PKB
/Akt) is a regulator of cell survival and apoptosis. To become fully activated,
PKB
/Akt requires phosphorylation at two sites, threonine 308 and serine 473, in a phosphatidylinositol (PI) 3-kinase-dependent manner. The kinase responsible for phosphorylation of threonine 308 is the PI 3-kinase-dependent kinase-1 (PDK-1), whereas phosphorylation of serine 473 has been suggested to be regulated by
PKB
/Akt autophosphorylation in a
PDK
-1-dependent manner. However, the integrin-linked kinase (ILK) has also been shown to regulate phosphorylation of serine 473 in a PI 3-kinase-dependent manner. Whether ILK phosphorylates this site directly or functions as an adapter molecule has been debated. We now show by in-gel kinase assay and matrix-assisted laser desorption-ionization time-of-flight mass spectrometry that biochemically purified ILK can phosphorylate
PKB
/Akt directly. Co-immunoprecipitation analysis of cell extracts demonstrates that ILK can complex with
PKB
/Akt as well as
PDK
-1 and that ILK can disrupt
PDK
-1/
PKB
association. The amino acid residue serine 343 of ILK within the activation loop is required for kinase activity as well as for its interaction with
PKB
/Akt. Mutational analysis of ILK further shows a crucial role for arginine 211 of ILK within the phosphoinositide phospholipid binding domain in the regulation of
PKB
- serine 473 phosphorylation. A highly selective small molecule inhibitor of ILK activity also inhibits the ability of ILK to phosphorylate
PKB
/Akt in vitro and in intact cells. These data demonstrate that ILK is an important upstream kinase for the regulation of
PKB
/Akt.
...
PMID:Regulation of protein kinase B/Akt-serine 473 phosphorylation by integrin-linked kinase: critical roles for kinase activity and amino acids arginine 211 and serine 343. 1131 65
Insulin provokes rapid changes in phospholipid metabolism and thereby generates biologically active lipids that serve as intracellular signaling factors that regulate glucose transport and glycogen synthesis. These changes include: (i) activation of phosphatidylinositol 3-kinase (PI3K) and production of PIP3; (ii) PIP3-dependent activation of atypical protein kinase Cs (PKCs); (iii) PIP3-dependent activation of
PKB
; (iv) PI3K-dependent activation of phospholipase D and hydrolysis of phosphatidylcholine with subsequent increases in phosphatidic acid (PA) and diacylglycerol (DAG); (v) PI3K-independent activation of glycerol-3-phosphate acylytansferase and increases in de novo synthesis of PA and DAG; and (vi) activation of DAG-sensitive PKCs. Recent findings suggest that atypical PKCs and
PKB
serve as important positive regulators of insulin-stimulated glucose metabolism, whereas mechanisms that result in the activation of DAG-sensitive PKCs serve mainly as negative regulators of insulin signaling through PI3K. Atypical PKCs and
PKB
are rapidly activated by insulin in adipocytes, liver, skeletal muscles, and other cell types by a mechanism requiring PI3K and its downstream effector, 3-phosphoinositide-dependent protein kinase-1 (PDK-1), which, in conjunction with PIP3, phosphorylates critical threonine residues in the activation loops of atypical PKCs and
PKB
. PIP3 also promotes increases in autophosphorylation and allosteric activation of atypical PKCs. Atypical PKCs and perhaps
PKB
appear to be required for insulin-induced translocation of the GLUT 4 glucose transporter to the plasma membrane and subsequent glucose transport.
PKB
also appears to be the major regulator of glycogen synthase. Together, atypical PKCs and
PKB
serve as a potent, integrated PI3K/
PDK
-1-directed signaling system that is used by insulin to regulate glucose metabolism.
...
PMID:Insulin-sensitive phospholipid signaling systems and glucose transport. Update II. 1136 19
PKB
/Akt, S6K1 and SGK are related protein kinases activated in a PI 3-kinase-dependent manner in response to insulin/growth factors signalling. Activation entails phosphorylation of these kinases at two residues, the T-loop and the hydrophobic motif.
PDK1
activates S6K, SGK and
PKB
isoforms by phosphorylating these kinases at their T-loop. We demonstrate that a pocket in the kinase domain of
PDK1
, termed the 'PIF-binding pocket', plays a key role in mediating the interaction and phosphorylation of S6K1 and SGK1 at their T-loop motif by
PDK1
. Our data indicate that prior phosphorylation of S6K1 and SGK1 at their hydrophobic motif promotes their interaction with the PIF-binding pocket of
PDK1
and their T-loop phosphorylation. Thus, the hydrophobic motif phosphorylation of S6K and SGK converts them into substrates that can be activated by
PDK1
. In contrast, the PIF-binding pocket of
PDK1
is not required for the phosphorylation of PKBalpha by
PDK1
. The PIF-binding pocket represents a substrate recognition site on a protein kinase that is only required for the phosphorylation of a subset of its physiological substrates.
...
PMID:The PIF-binding pocket in PDK1 is essential for activation of S6K and SGK, but not PKB. 1150 Mar 65
The
PKB
(protein kinase B, also called Akt) family of protein kinases plays a key role in insulin signaling, cellular survival, and transformation.
PKB
is activated by phosphorylation on residues threonine 308, by the protein kinase
PDK1
, and Serine 473, by a putative serine 473 kinase. Several protein binding partners for
PKB
have been identified. Here, we describe a protein partner for PKBalpha termed CTMP, or carboxyl-terminal modulator protein, that binds specifically to the carboxyl-terminal regulatory domain of PKBalpha at the plasma membrane. Binding of CTMP reduces the activity of PKBalpha by inhibiting phosphorylation on serine 473 and threonine 308. Moreover, CTMP expression reverts the phenotype of v-Akt-transformed cells examined under a number of criteria including cell morphology, growth rate, and in vivo tumorigenesis. These findings identify CTMP as a negative regulatory component of the pathway controlling
PKB
activity.
...
PMID:Carboxyl-terminal modulator protein (CTMP), a negative regulator of PKB/Akt and v-Akt at the plasma membrane. 1159 1
Insulin-stimulated glucose transport is impaired in the early phases of type 2 diabetes mellitus. Studies in rodent cells suggest that atypical PKC (aPKC) isoforms (zeta, lamda, and iota) and
PKB
, and their upstream activators, PI3K and 3-phosphoinositide-dependent protein kinase-1 (PDK-1), play important roles in insulin-stimulated glucose transport. However, there is no information on requirements for aPKCs,
PKB
, or
PDK
-1 during insulin action in human cell types. Presently, by using preadipocyte-derived adipocytes, we were able to employ adenoviral gene transfer methods to critically examine these requirements in a human cell type. These adipocytes were found to contain PKC-zeta, rather than PKC-lamda/iota, as their major aPKC. Expression of kinase-inactive forms of
PDK
-1, PKC-zeta, and PKC-lamda (which functions interchangeably with PKC-zeta) as well as chemical inhibitors of PI 3-kinase and PKC-zeta/lamda, wortmannin and the cell-permeable myristoylated PKC-zeta pseudosubstrate, respectively, effectively inhibited insulin-stimulated glucose transport. In contrast, expression of a kinase-inactive, activation-resistant, triple alanine mutant form of
PKB
-alpha had little or no effect, and expression of wild-type and constitutively active PKC-zeta or PKC-lamda increased glucose transport. Our findings provide convincing evidence that aPKCs and upstream activators, PI 3-kinase and
PDK
-1, play important roles in insulin-stimulated glucose transport in preadipocyte-derived human adipocytes.
...
PMID:PKC-zeta mediates insulin effects on glucose transport in cultured preadipocyte-derived human adipocytes. 1183 10
PDK1
functions as a master kinase, phosphorylating and activating
PKB
/Akt, S6K and RSK. To learn more about the roles of
PDK1
, we generated mice that either lack
PDK1
or possess
PDK1
hypomorphic alleles, expressing only approximately 10% of the normal level of
PDK1
.
PDK1
(-/-) embryos die at embryonic day 9.5, displaying multiple abnormalities including lack of somites, forebrain and neural crest derived tissues; however, development of hind- and midbrain proceed relatively normally. In contrast, hypomorphic
PDK1
mice are viable and fertile, and insulin injection induces the normal activation of
PKB
, S6K and RSK. Nevertheless, these mice are 40-50% smaller than control animals. The organ volumes from the
PDK1
hypomorphic mice are reduced proportionately. We also establish that the volume of a number of
PDK1
-deficient cells is reduced by 35-60%, and show that
PDK1
deficiency does not affect cell number, nuclear size or proliferation. We provide genetic evidence that
PDK1
is essential for mouse embryonic development, and regulates cell size independently of cell number or proliferation, as well as insulin's ability to activate
PKB
, S6K and RSK.
...
PMID:Essential role of PDK1 in regulating cell size and development in mice. 1211 May 85
1. The sulphur mustard vesicant 2-chloroethylethyl sulphide (CEES) induced apoptosis in Jurkat cells. 2. Akt (
PKB
), a pivotal protein kinase which can block apoptosis and promotes cell survival, was identified to be chiefly down-regulated in a dose-dependent manner following CEES treatment. Functional analysis showed that the attendant Akt activity was simultaneously reduced. 3.
PDK1
, an upstream effector of Akt, was also down-regulated following CEES exposure, but two other upstream effectors of Akt, PI3-K and
PDK2
, remained unchanged. 4. The phosphorylation of Akt at Ser(473) and Thr(308) was significantly decreased following CEES treatment, reflecting the suppressed kinase activity of both
PDK1
and
PDK2
. 5. Concurrently, the anti-apoptotic genes, Bcl family, were down-regulated, in sharp contrast to the striking up-regulation of some death executioner genes, caspase 3, 6, and 8. 6. Based on these findings, a model of CEES-induced apoptosis was established. These results suggest that CEES attacked the Akt pathway, directly or indirectly, by inhibiting Akt transcription, translation, and post-translation modification. 7. Taken together, upon exposure to CEES, apoptosis was induced in Jurkat cells via the down-regulation of the survival factors that normally prevent the activation of the death executioner genes, the caspases.
...
PMID:Gene expressions in Jurkat cells poisoned by a sulphur mustard vesicant and the induction of apoptosis. 1220 82
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