Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.7.11.1 (protein kinase)
 81,284 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Mitogen-activated protein kinase and Phosphatidylinositol-3 kinase/Akt-mediated signaling pathways play a major role in controlling cell proliferation, differentiation and cell death. Phosphorylation and dephosphorylation of their specific Thr/Tyr residues is critical in determining their activity. We determined the expression pattern and activity of MAP kinases and Akt in Primitive Neuroectodermal Tumors (PNETs). The kinase activity of extracellular signal-regulated kinase (ERK) was higher in both primary tumors and cell lines, as evident from the increased phosphorylation of ERK1 and ERK2. We did not observe the activation of C-jun N-terminal kinase (JNK) or p38 MAPK The expression of Raf-1, a kinase acting upstream of ERK, was significantly increased in primary tumors compared to normal brain. The PI-3 kinase-activated phosphorylation of Akt was also higher in primary tumors. These results suggest that activation of the Raf-1/ERK module of the MAP kinase pathway play an important role in PNETs.
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PMID:Role of MAP kinase pathways in primitive neuroectodermal tumors. 1172 48

The addition of ammonium ions to Aspergillus niger cells originally growing on another nitrogen source resulted in rapid medium acidification. The addition of glucose or other fermentable sugars to the mycelium growing on glycerol did not have the same effect. The enzyme responsible for acidification seems to be plasma membrane H+-ATPase, which is most probably triggered by phosphorylation. Using specific activators and inhibitors, we tried to figure out which signalling pathway is involved in the process. No activation of H+-ATPase could be detected in the presence of diacylglycerol and other activators of protein kinase C, indicating that the stimulus is transmitted by another signalling chain. In the presence of inhibitors known to suppress the phosphatidyl-inositol signalling pathway, such as neomycin, compound 48/80 and calmidazolium, no increased H+-ATPase activity could be detected after the addition of ammonium ions. However, some tested inhibitors of the cAMP signalling pathway could not prevent activation of the enzyme by the stimulant. These results support the model in which ammonium-induced activation of proton extrusion in A. niger is mediated via the phosphatidyl-inositol signalling pathway, involving Ca2+/calmoduline-dependent protein kinase but not protein kinase C.
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PMID:Activation of plasma membrane H+-ATPase by ammonium ions in Aspergillus niger. 1175 87

Phosphatidylinositol 4-phosphate 5-kinase (PIP-5kin) regulates actin cytoskeletal reorganization through its product phosphatidylinositol 4,5-bisphosphate. In the present study we demonstrate that PIP-5kin is essential for neurite remodeling, which is regulated by actin cytoskeletal reorganization in neuroblastoma N1E-115 cells. Overexpression of wild-type mouse PIP-5kin-alpha inhibits the neurite formation that is normally stimulated by serum depletion, whereas a lipid kinase-defective mutant of PIP-5kin-alpha, D266A, triggers neurite extension even in the presence of serum and blocks lysophosphatidic acid-induced neurite retraction. These results phenocopy those previously reported for the small GTPase RhoA and its effector p160 Rho-associated coiled coil-forming protein kinase (ROCK). However, the ROCK-specific inhibitor Y-27632 failed to block the inhibition by PIP-5kin-alpha of neurite extension, whereas D266A did block the neurite retraction induced by overexpression of ROCK. These results, taken together, suggest that PIP-5kin-alpha functions as a downstream effector for RhoA/ROCK to couple lysophosphatidic acid signaling to neurite retraction presumably through its product phosphatidylinositol 4,5-bisphosphate.
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PMID:Phosphatidylinositol 4-phosphate 5-kinase is essential for ROCK-mediated neurite remodeling. 1187 91

Phosphatidylinositol (PI) 3-kinase signaling regulates numerous cellular processes, including proliferation, migration, and survival, which are required for neointimal hyperplasia and restenosis. The effectors of PI 3-kinase are activated by the phospholipid products of PI 3-kinase. In this report, we investigated the hypothesis that overexpression of the tumor suppressor protein PTEN, an inositol phosphatase specific for the products of PI 3-kinase, would inhibit the vascular smooth muscle cell (VSMC) responses necessary for neointimal hyperplasia and restenosis. Effects of PTEN were assessed in primary rabbit VSMCs after overexpression with a recombinant adenovirus and compared with uninfected or control virus-infected cells. PTEN was expressed endogenously in VSMCs, and PTEN overexpression inhibited PDGF-induced phosphorylation of p70(s6k), Akt, and glycogen synthase kinase-3-alpha and -beta but not ERK1 or -2. Overexpression of PTEN significantly inhibited both basal and PDGF-mediated VSMC proliferation and migration, the latter possibly due in part to downregulation of focal adhesion kinase. Moreover, PTEN overexpression induced cleavage of caspase-3 and significantly increased apoptosis compared with control cells. Taken together, these results demonstrate that PTEN overexpression potently inhibits the VSMC responses required for neointimal hyperplasia and restenosis. Adenovirus-expressed PTEN may therefore provide a useful tool for the local treatment of these and other vascular proliferative disorders.
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PMID:Inhibition of vascular smooth muscle cell proliferation, migration, and survival by the tumor suppressor protein PTEN. 1200 81

Platelet-derived growth factor (PDGF) is one of the most potent mitogen for cultured HSC isolated from rat, mouse, or human liver. Phosphotyrosines on the activated PDGF receptor operate as high affinity binding sites for several molecules involved in the downstream propagation of the signal, including the sequential activation of Raf-1, MEK and extracellular-signal regulated kinase (ERK). Nuclear translocation of ERK is associated to the phosphorylation of several transcription factors, including Elk-1 and SAP, and represents an absolute requirement for triggering a proliferative response. Phosphatidylinositol 3-kinase (PI 3-K), is another molecule recruited by the activated PDGF receptor. In human HSC cultures, PI 3-K activation is necessary for both mitogenesis and chemotaxis induced by PDGF. In addition, PI 3-K is involved in the activation of the Ras-ERK pathway in human HSC, although it is not strictly necessary, since established PI 3-K inhibitors inhibit ERK activation only by 40-50%. Therefore, in HSC, PI 3-K regulates PDGF-related mitogenesis and cell migration by pathways that are at least in part independent of ERK activation. Accumulated evidence indicates that the induction of replicative competence by PDGF is dependent on the maintenance of sustained increase in [Ca2+]i due to calcium entry rather than from the release from intracellular stores. In addition, stimulation with PDGF increases the activity of the Na+/H+ exchanger in rat or human HSC with consequent sustained changes in intracellular pH.
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PMID:PDGF and signal transduction in hepatic stellate cells. 1213 17

Neurotrophins and semaphorin 3A are present along pathways and in targets of developing axons of dorsal root ganglion (DRG) sensory neurons. Growth cones of sensory axons are probably regulated by interaction of cytoplasmic signaling triggered coincidentally by both types of guidance molecules. We investigated the in vitro interactions of neurotrophins and semaphorin 3A (Sema3A) in modulating growth cone behaviors of axons extended from DRGs of embryonic day 7 chick embryos. Growth cones of DRGs raised in media containing 10(-9) m NGF or BDNF were more resistant to Sema3A-induced growth cone collapse than when DRGs were raised in 10(-11) m NGF. After overnight culture in 10(-11) m NGF, a 1 hr treatment with 10(-9) m NGF or BDNF was sufficient to increase growth cone resistance to Sema3A-induced collapse. This neurotrophin-mediated decrease in the collapse response of DRG growth cones was not associated with reduced expression on growth cones of the Sema3A-binding protein neuropilin-1. A series of pharmacological studies followed. Phosphatidylinositol 3 kinase activity is not required for these effects of NGF. The effects of inhibitors and activators of protein kinase A (PKA) indicate that PKA activity is involved in NGF modulation of Sema3A-induced growth cone collapse. The effects of inhibitors and activators of PKG indicate that PKG activity is involved in Sema3A-induced growth cone collapse. The effects of inhibitors also indicate that Rho-kinase activity is involved in Sema3A-induced growth cone collapse. These results are consistent with the idea that growth cone responses to an individual guidance cue depend on coincident signaling by other guidance cues and by other regulatory pathways.
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PMID:Nerve growth factor and semaphorin 3A signaling pathways interact in regulating sensory neuronal growth cone motility. 1215 45

Parathyroid-related peptide (PTHrP) is abundant in human syncytiotrophoblast where it was suggested to play an important role in maternal-fetal calcium homeostasis. On the other hand, parathyroid hormone (PTH), another hypercalcemic factor, would be implicated in the maintenance of the mother's calcium balance. In many cells, these hormones are associated to G-coupled receptors and activate protein kinase (PKC). Thus, the first aim of this study was to determine the cellular pathway (phospholipase; PLC and phosphatidyl-inositol-3 kinase; PI3K) leading to the activation of PKC following a PTH or PTHrP stimulation in brush border (BBM) and basal plasma membranes (BPM) of human term placenta. Both peptides were shown to be potent modulators of the PKC activity in these membranes with optimal concentrations of 10(-8)M and 10(-9)M for hPTH and hPTHrP, respectively. Furthermore, the use of bisindolylmaleimide (BIM), a non-selective PKC inhibitor, serves to demonstrate the specificity of the PKC-dependent MARCKS-psd phosphorylation. While LY-294002, a PI3K inhibitor failed to counteract the hPTH- and hPTHrP-induced PKC stimulation in BBM and BPM, U-73122, a PLC inhibitor, totally abolished the PKC stimulation by hPTH and hPTHrP. Taken together, these data suggest that the activation of PKC by hPTH or hPTHrP, in BBM and BPM, is preferentially associated to the PLC pathway rather than the PI3K's.
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PMID:Phospholipase C axis is the preferential pathway leading to PKC activation following PTH or PTHrP stimulation in human term placenta. 1241 54

The transcription factor hypoxia inducible factor alpha-subunit (HIFalpha) is pivotal in the cellular response to the stress of hypoxia. Post-translational modification of HIFalpha by hydroxylase enzymes has recently been identified as a key "oxygen sensing" mechanism within the cell. The absence of the substrate oxygen prevents the hydroxylases from modifying HIFalpha during hypoxia and allows dramatic up-regulation of both HIFalpha protein stability and transcriptional activation capability. In addition to this oxygen-dependent response, increased HIFalpha protein levels and/or enhanced transcriptional activity during normoxic conditions can be stimulated by various receptor-mediated factors such as growth-factors and cytokines (insulin, insulin-like growth factor 1 or 2, endothelial growth factor, tumour necrosis factor alpha, angiotensin-2). Oncogenes are also capable of HIFalpha activation. This induction is generally less intense than that stimulated by hypoxia and although not fully elucidated, appears to occur via hypoxia-independent, receptor-mediated signal pathways involving either phosphatidyl-inositol-3-kinase/Akt or mitogen activated protein kinase (MAPK) pathways, depending on the cell-type. Activation of Akt increases HIFalpha protein synthesis in the cell and results in increased HIFalpha protein and transcriptional activity. MAPK also activates HIFalpha protein synthesis and additionally may potentiate HIF1alpha transcriptional activity via a separate mechanism that does not necessarily require protein stabilization. Here we review the mechanisms and function of receptor-mediated signals in the multifaceted regulation of HIFalpha.
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PMID:The subtle side to hypoxia inducible factor (HIFalpha) regulation. 1260 12

Estrogen receptor-alpha (ER) is down-regulated in the presence of its cognate ligand, estradiol (E2), as well as in the presence of antiestrogens, through the ubiquitin proteasome pathway. Here, we show that, at pharmacological concentrations, the degradation rate of pure antagonist/endogenous ER complexes from human breast cancer MCF-7 cells is 10 times faster than that of ER-E2 complexes, while 4-hydroxy-tamoxifen (4-OH-T)-ER complexes are stable. Whereas pure antagonist-ER complexes are firmly bound to a nuclear compartment from which they are not extractable, the 4-OH-T-ER accumulates in a soluble cell compartment. No difference was observed in the fate of ER whether bound to pure antiestrogens ICI 182,780 or RU 58668. Cycloheximide experiments showed that, while the proteasome-mediated destruction of E2-ER (unlike that of RU 58668- and ICI 182,780-ER) complexes could implicate (or not) a protein synthesis-dependent process, both MAPKs (p38 and ERKs p44 and p42) are activated. By using a panel of kinase inhibitors/activators to study the impact of phosphorylation pathways on ER degradation, we found that protein kinase C is an enhancer of proteasome-mediated degradation of both ligand-free and ER bound to either E2, 4-OH-T, and pure antagonists. On the contrary, protein kinase A, MAPKs, and phosphatidyl-inositol-3 kinase all impede proteasome-mediated destruction of ligand free and E2-bound ER while only MAPKs inhibit the degradation of pure antiestrogens/ER species. In addition, no correlation was found between the capacity of kinase inhibitors to affect ER stability and the basal or E2-induced transcription. These results suggest that, in MCF-7 breast cancer cells, ER turnover, localization, and activity are maintained by an equilibrium between various phosphorylation pathways, which are differently modulated by ER ligands and protein kinases.
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PMID:Various phosphorylation pathways, depending on agonist and antagonist binding to endogenous estrogen receptor alpha (ERalpha), differentially affect ERalpha extractability, proteasome-mediated stability, and transcriptional activity in human breast cancer cells. 1285 46

The G protein-coupled sst2 somatostatin receptor is a critical negative regulator of cell proliferation. sstII prevents growth factor-induced cell proliferation through activation of the tyrosine phosphatase SHP-1 leading to induction of the cyclin-dependent kinase inhibitor p27Kip1. Here, we investigate the signaling molecules linking sst2 to p27Kip1. In Chinese hamster ovary-DG-44 cells stably expressing sst2 (CHO/sst2), the somatostatin analogue RC-160 transiently stimulates ERK2 activity and potentiates insulin-stimulated ERK2 activity. RC-160 also stimulates ERK2 activity in pancreatic acini isolated from normal mice, which endogenously express sst2, but has no effect in pancreatic acini derived from sst2 knock-out mice. RC-160-induced p27Kip1 up-regulation and inhibition of insulin-dependent cell proliferation are both prevented by pretreatment of CHO/sst2 cells with the MEK1/2 inhibitor PD98059. In addition, using dominant negative mutants, we show that sst2-mediated ERK2 stimulation is dependent on the pertussis toxin-sensitive Gi/o protein, the tyrosine kinase Src, both small G proteins Ras and Rap1, and the MEK kinase B-Raf but is independent of Raf-1. Phosphatidylinositol 3-kinase (PI3K) and both tyrosine phosphatases, SHP-1 and SHP-2, are required upstream of Ras and Rap1. Taken together, our results identify a novel mechanism whereby a Gi/o protein-coupled receptor inhibits cell proliferation by stimulating ERK signaling via a SHP-1-SHP-2-PI3K/Ras-Rap1/B-Raf/MEK pathway.
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PMID:sst2 Somatostatin receptor inhibits cell proliferation through Ras-, Rap1-, and B-Raf-dependent ERK2 activation. 1287 7


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