EC:2.7.11.1 - FACTA Search

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

Annexin V is a protein of unknown biological function that undergoes Ca(2+)-dependent binding to phospholipids located on the cytosolic face of the plasma membrane. Preliminary results presented herein suggest that a biological function of annexin V is the inhibition of protein kinase C (PKC). In vitro assays showed that annexin V was a specific high-affinity inhibitor of PKC-mediated phosphorylation of annexin I and myosin light chain kinase substrates, with half-maximal inhibition occurring at approximately 0.4 microM. Annexin V did not inhibit epidermal growth factor receptor/kinase phosphorylation of annexin I or cAMP-dependent protein kinase phosphorylation of the Kemptide peptide substrate. Since annexin V purified from both human placenta and recombinant bacteria inhibited protein kinase C activity, it is not likely that the inhibitor activity was associated with a minor contaminant of the preparations. The following results indicated that the mechanism of inhibition did not involve annexin V sequestration of phospholipid that was required for protein kinase C activation: similar inhibition curves were observed as phospholipid concentration was varied from 0 to 800 micrograms/mL; the extent of inhibition was not significantly affected by the order of addition of phospholipid, substrate, or PKC, and the core domain of annexin I was not a high-affinity inhibitor of PKC even though it had similar Ca2+ and phospholipid binding properties as annexin V. These data indirectly indicate that inhibition occurred by direct interaction between annexin V and PKC. Since the concentration of annexin V in many cell types exceeds the amounts required to achieve PKC inhibition in vitro, it is possible that annexin V inhibits PKC in a biologically significant manner in intact cells.
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PMID:Inhibition of protein kinase C by annexin V. 131 Jun 21

The type II cAMP-dependent protein kinase (PKA) is localized to specific subcellular environments through binding of dimeric regulatory subunits (RII) to anchoring proteins. Cytoskeletal localization occurs through RII dimer interaction with the PKA substrate molecule microtubule-associated protein 2 (MAP2). RII alpha deletion mutants and RII alpha/endonexin chimeras retained MAP2 binding activity if they contained the first 79 residues of the molecule. Disruption of RII alpha dimerization always prevented MAP2 interaction because 1) RII delta 1-14 (an amino-terminal deletion mutant lacking residues 1-14) was unable to bind MAP2 or form dimers, and 2) a modified RII alpha monomer including residues 1-14 did not bind MAP2. Chimeric proteins containing the first 30 residues of RII alpha fused to endonexin II formed dimers but did not bind MAP2. This suggested other side-chains between residues 30-79 also participate in MAP2 interaction. Peptide studies indicate additional contact with MAP2 may occur through an acidic region (residues 68-82) close to the RII autoinhibitor domain. Therefore, anchored PKA holoenzyme topology may position the catalytic subunit and MAP2 as to allow its preferential phosphorylation upon kinase activation.
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PMID:Type II regulatory subunit dimerization determines the subcellular localization of the cAMP-dependent protein kinase. 214 85

The BCR/ABL fusion protein transforms myeloid stem cells. Both chronic myelogenous leukemias (CML) and a subset of acute lymphoblastic leukemias (ALL) are associated with the expression of BCR/ABL proteins. This knowledge has not yet been translated into any specific tool to control ABL driven neoplastic cells growth. CGP57148B is an ATP-competitive inhibitor of the ABL protein kinase; it has been shown to inhibit the kinase activity of ABL both in vitro and in vivo and to inhibit the growth of v-abl and bcr/abl transfectants, as well as the in vitro formation of bone marrow (BM)-derived colonies in the presence of growth factors in some CML patients. These studies were performed to investigate the activity of CGP57148B on the spontaneous proliferation of both fresh and cultured, leukemic and normal, BCR/ABL positive and negative cells, and to study its mechanism of action. Six cell lines derived from BCR/ABL+ leukemias (K562, BV173, KCL22, KU812, MC3, LAMA84), thirteen BCR/ABL negative lines, both neoplastic (KG1, SU-DHL-1, U937, Daudi, NB4, NB4.306) and derived from normal cells (PHA blasts, LAK, fibroblasts, LCL, renal epithelial cells, endothelial cells, CD34(+) cells), and 14 fresh leukemic samples were tested using a tritiated thymidine uptake assay. The in vivo phosphorylation of the BCR/ABL protein was evaluated by western blot, while apoptosis was detected by the annexin V/propidium binding test. The induction of differentiation was assayed by immunofluorescence using multiple antibodies. All six BCR/ABL+ lines showed a dose dependent inhibition of their spontaneous proliferative rate, which was not accompanied by differentiation. The treatment caused, within minutes, dephosphorylation of the BCR/ABL protein, followed in 16-24 hours by a decrease in cycling cells and induction of apoptosis. No significant inhibition of DNA synthesis was observed in any BCR/ABL negative normal or neoplastic line at concentrations </=3 microM, with the exception of fibroblasts and CD34 cells. Proliferation inhibition was observed also when using fresh samples obtained from two Ph+ ALL and 12 consecutive CML patients. Induction of apoptosis was observed in these samples too. The activity of CGP57148B can be monitored in ex vivo isolated or cultured cells using a simple and reproducible assay, without the need for exogenously added growth factors. This molecule possibly exerts its effects through the inhibition of the kinase activity of BCR/ABL and the subsequent initiation of apoptosis, without inducing cell differentiation. Some normal cells are also affected. These data support the use of CGP57148B in initial clinical studies; possible toxic effects on BM and fibroblast-derived cells will have to be closely monitored. The in vivo monitoring of patients will have to be focused on the induction of apoptosis in leukemic cells.
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PMID:Inhibition of the ABL kinase activity blocks the proliferation of BCR/ABL+ leukemic cells and induces apoptosis. 944 52

Signal transduction pathways involving the c-Raf protein kinase are frequently activated in tumor cells. We have addressed the relevance of this activation by a loss-of-function approach. An anti-sense phosphorothioate oligonucleotide (ODN) specifically targeted against c-raf mRNA (Monia et al., 1996a) was used to block c-Raf protein expression in four different cell lines derived from lung, cervical, prostate and colon carcinomas. Concomitant with the abrogation of c-Raf expression we observed the occurrence of classical apoptotic markers, including chromatin condensation, inter-nucleosomal DNA cleavage, annexin V binding and cleavage of PARP, which was followed by cell death, affecting most of the cell population. This induction of apoptosis occurred independent of the p53 status of the cell. These findings demonstrate that c-Raf can protect tumor cells from undergoing programmed cell death, and suggest that the interference with c-Raf expression or function by ODNs or specific drugs could represent a powerful means for improving the efficacy of anti-cancer therapy.
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PMID:Abrogation of c-Raf expression induces apoptosis in tumor cells. 958 88

Adherence of leukocytes to cells undergoing apoptosis has been reported to be dependent on a variety of recognition pathways. These include alpha V beta 3 (CD51/CD61, vitronectin receptor), CD36 (thrombospondin receptor), macrophage class A scavenger receptor, phosphatidylserine translocated to the outer leaflet of apoptotic cell membranes, and CD14 (LPS-binding protein). We investigated the mechanism by which leukocytes adhere to apoptotic endothelial cells (EC). Peripheral blood mononuclear leukocytes and U937 monocytic cells adhered to human or bovine aortic EC induced to undergo apoptosis by withdrawal of growth factors, treatment with the promiscuous protein kinase inhibitor staurosporine, with the protein synthesis inhibitor and protein kinase activator anisomycin, or with the combination of cycloheximide and TNF-alpha. Expression of endothelial adherence molecules such as CD62E (E-selectin), CD54 (ICAM-1), and CD106 (VCAM-1) was not induced or increased by these treatments. A mAb to alpha V beta 3, exogenous thrombospondin, or blockade of phosphatidylserine by annexin V did not inhibit leukocyte adherence. Further, leukocyte binding to apoptotic EC was completely blocked by treatment of leukocytes but not EC with mAb to beta 1 integrin. These results define a novel pathway for the recognition of apoptotic cells.
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PMID:A novel beta 1 integrin-dependent mechanism of leukocyte adherence to apoptotic cells. 1020 28

We have investigated the role of p38 mitogen-activated protein kinase (MAPK) in von Willebrand factor (VWF)-dependent platelet activation. The interaction of platelets with subendothelial VWF, especially under high shear stress, is considered to be the first activation step which primes platelets for subsequent haemostatic events. As a model of VWF-dependent platelet activation, porcine VWF was employed. Porcine VWF induced p38 MAPK activation by 1 min post-addition; assessed by phosphorylation of a recombinant p38 MAPK fusion protein substrate termed glutathione S-transferase-MAPK activated protein kinase-2. To determine if p38 MAPK was necessary for porcine VWF-induced platelet activation, we functionally inhibited p38 MAPK activity with SB203580 before exposure of the platelets to porcine VWF. Inhibition of p38 MAPK had no effect on VWF-induced platelet alpha or lysozomal granule release, expression of activated GPIIb IIIa, modulation of membrane glycoprotein CD41, expression of phosphatidylserine as assessed by annexin V binding, microparticle formation, or platelet agglutination. It was concluded that SB203580-inhibitable p38 MAPK activity induced by porcine VWF is not necessary for platelet activation.
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PMID:p38 MAPK is activated but not necessary in porcine von Willebrand factor-dependent platelet activation. 1058 54

An inhibitor of 3-hydroxy-3-methylglutaryl-coenzyme A (HMG-CoA) reductase, lovastatin, induces growth arrest and cell death in a wide variety of malignant cells in vitro. We analyzed the effect of lovastatin on myeloid leukemic cell lines. Lovastatin significantly inhibited the proliferation of 7 cell lines among 11 myeloid leukemic cell lines in a dose-dependent manner. In order to address the mechanism of antileukemic effect of lovastatin, cell cycle analysis was attempted in HL-60 cells, showing that lovastatin induced G1 arrest in HL-60 cells following 72 h of drug exposure (1.5 microM, 5 microM and 10 microM) in a dose-dependent manner. Analysis of G1 regulatory proteins demonstrated that the protein levels of cyclin-dependent kinase (CDK) 2, CDK4, CDK6 and cyclin E were decreased after treatment with lovastatin (10 microM) in a time-dependent manner, but not cyclin D1. In addition, lovastatin increased the protein level of the cyclin-dependent kinase inhibitor (CDKI), p27, and markedly enhanced the binding of p27 with CDK2 and CDK4 more than CDK6 after 24 h exposure. At higher doses of lovastatin (50 mM, 100 mM, 200 mM), a significant apoptosis was observed as evidenced by FACS analysis with annexin V staining, which was associated with downregulation of Bcl-2 protein. These results suggest that lovastatin inhibits the proliferation of myeloid leukemic cells via G1 arrest in association with p27 induction and is an effective inducer of apoptosis in HL-60 cells.
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PMID:Lovastatin-induced inhibition of HL-60 cell proliferation via cell cycle arrest and apoptosis. 1065 2

Anchorage removal like growth factor removal induces apoptosis. In the present study we have characterized signaling pathways that can prevent this cell death using a highly growth factor- and anchorage-dependent line of lung fibroblasts (CCL39). After anchorage removal from exponentially growing cells, annexin V-FITC labeling can be detected after 8 h. Apoptosis was confirmed by analysis of sub-G1 DNA content and Western blotting of the caspase substrate poly (ADP-ribose) polymerase. Growth factor withdrawal accelerates and potentiates suspension-induced cell death. Activation of Raf-1 kinase in suspension cultures of CCL39 or Madin-Darby canine kidney cells stably expressing an estrogen-inducible activated-Raf-1 construct (DeltaRaf-1:ER) suppresses apoptosis induced by growth factor and/or anchorage removal. This protective effect appears to be mediated by the Raf, mitogen- or extracellular signal-regulated kinase kinase (MEK), and mitogen-activated protein kinase module because it is sensitive to pharmacological inhibition of MEK-1 and it can be mimicked by expression of constitutively active MEK-1 in CCL39 cells. Finally, apoptosis induced by disruption of the actin cytoskeleton with the Rho-directed toxin B (Clostridium difficile) is prevented by activation of the DeltaRaf-1:ER chimeric construct. These findings highlight the ability of p42/p44 mitogen-activated protein kinase to generate survival signals that counteract cell death induced by loss of matrix contact, cytoskeletal integrity, and extracellular mitogenic factors.
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PMID:The p42/p44 MAP kinase pathway prevents apoptosis induced by anchorage and serum removal. 1071 23

Annexin V is a Ca2+-dependent phospholipid binding protein. Although it has been shown to inhibit protein kinase C (PKC) in cell-free systems, its role in the intact cell is unclear. A stable MCF-7 human breast cancer cell overexpression system was established to investigate the function of annexin V. In these cells, 12-O-tetradecanoylphorbol-13-acetate (TPA)-induced phosphorylation and kinase activity of ERK1/2 were suppressed. Morphological changes induced by TPA were reduced by annexin V overexpression as well as by the pan-PKC inhibitor, bisindolylmaleimide I, and by the mitogen-activated protein kinase/extracellular signal-regulated kinase kinase (MEK) inhibitor, PD98059. TPA-induced MEK1/2 and Raf-1 phosphorylation were reduced in these cells. The TPA-enhanced active Ras, and its association with Raf-1, were reduced. TPA treatment of MCF-7 cells caused an increased association of Shc with Grb2. However, this increased association was prevented in the annexin V-overexpressors. p21WAF/CIP1 is responsible for inhibition of cell cycle progression in MCF-7 cells. TPA induced the expression of p21WAF/CIP1 to a greater extent in MCF-7 parent and control plasmid cells than in annexin V overexpressors. PD98059 inhibited this increase, suggesting that TPA upregulation of p21WAF/CIP1 occurs via the MEK pathway, and that annexin V overexpression blunts it. This work shows that annexin V overexpression suppresses the TPA-induced Ras/ERK signaling by inhibiting at/or upstream of Shc, possibly through the inhibition of PKCs. Oncogene (2000).
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PMID:Annexin V inhibits the 12-O-tetradecanoylphorbol-13-acetate-induced activation of Ras/extracellular signal-regulated kinase (ERK) signaling pathway upstream of Shc in MCF-7 cells. 1087 41

Surfactant-associated protein A (SP-A) is a component of pulmonary surfactant that binds to a specific receptor (SPAR) on the surface of type II alveolar cells of the lung and regulates gene expression and surfactant secretion. Previously we have shown that activation of SPAR by SP-A binding initiates a signal through pathways that involve tyrosine phosphorylation, include IRS-1, and entail activation of phosphatidylinositol 3-kinase (PI3K). In other cell types, cytokines that activate the PI3K signaling pathway promote cell survival. Therefore we investigated whether there was an effect of SP-A on apoptosis as measured by DNA laddering, FACS analysis, TUNEL assay, and annexin V binding. SP-A protected primary cultures of rat type II alveolar cells against the apoptotic effects of etoposide and UV light and also protected the H441 human Clara lung tumor cell line against staurosporine-induced apoptosis. The protective effects of SP-A were abrogated by inhibition of either tyrosine-specific protein kinase activity or PI3K. SP-A/SPAR interaction thus initiates a signaling pathway that regulates apoptosis in type II cells. These findings may be important in understanding the pathogenesis of acute lung injury and pulmonary tumorigenesis and may suggest new therapeutic options.
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PMID:Natural protection from apoptosis by surfactant protein A in type II pneumocytes. 1116 17

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