EC:2.7.11.13 - FACTA Search

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Query: EC:2.7.11.13 (protein kinase C)
49,245 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The ligand binding activity of the platelet integrin alpha IIb beta 3 is initiated by agonist-generated intraplatelet signals. We studied this process in vitro by expressing recombinant alpha IIb beta 3 in Epstein-Barr virus-immortalized B lymphocytes. We found that phorbol ester stimulation induced the adhesion of lymphocytes expressing alpha IIb beta 3 to immobilized fibrinogen. Moreover, replacement of the transmembrane and cytoplasmic domains of the alpha and beta subunits of alpha IIb beta 3 with those of alpha L beta 2 significantly increased adherence, whereas replacement of only the cytoplasmic domains significantly decreased adherence. This suggests that transmembrane segments are involved in the agonist-induced modulation of alpha IIb beta 3 activity. Similar results were seen when the alpha IIb beta 3 activation-dependent monoclonal antibody PAC-1 was substituted for immobilized fibrinogen. We also found that the adherence of lymphocytes expressing beta 3 with either of the two alpha IIb/alpha L chimeras was similar to that of cells expressing alpha IIb beta 3, whereas the adherence of cells expressing alpha IIb with either of the two beta 3/beta 2 chimeras was substantially decreased, suggesting that the identity of the cytoplasmic domain of beta 3, but not of alpha IIb, is critical for alpha IIb beta 3 function. This report indicates that B lymphocytes contain signal transduction pathways involving protein kinase C that can increase the ligand binding activity of alpha IIb beta 3 and demonstrates the utility of these cells as an expression system for the study of agonist-stimulated alpha IIb beta 3 function.
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PMID:Agonist-stimulated ligand binding by the platelet integrin alpha IIb beta 3 in a lymphocyte expression system. 754 7

The integrin alphaIIb(beta)3 was initially believed to be expressed only in cells from the megakaryocytic lineage, such as platelets or HEL cells. In this study, we report for the first time that human prostate carcinoma PC-3 and DU-145 cells express alphaIIb(beta)3. Reverse transcription-PCR from HEL (positive control), PC-3, and DU-145 cells amplified a predicted alphaIIb fragment that hybridized to the full-length alphaIIb cDNA probe. DNA sequencing of the PCR fragments revealed 100% sequence homology to the corresponding extracellular domain of platelet alphaIIb but minimal sequence homology to integrins (alpha)v or a5. An RNase protection assay was used to confirm the results from reverse transcription-PCR. An antisense riboprobe to alphaIIb mRNA hybridized to total RNA from HEL, PC-3, and DU-145 cells, suggesting that alphaIIb mRNA is transcribed in these tumor cells. In situ hybridization on surgical specimens from human prostate tumor tissue stained positive with an antisense riboprobe to alphaIIb mRNA. The expression of alphaIIb(beta)3 protein in PC-3 and DU-145 cells was demonstrated by Western and dot blotting and flow cytometry with monoclonal antibodies (mAbs) to alphaIIb (MAB 1990), beta3, and alphaIIb(beta)3 (AP-2). A protein kinase C activator, phorbol 12-myristate 13-acetate, increased the adhesion of PC-3 cells to PAC-1, a mAb specific to the high-affinity state of alphaIIb(beta)3, by more than 80-fold. The invasion of DU-145 cells through a reconstituted basement membrane was blocked 40-50% by mAbs AP-2 or PAC-1. These data collectively suggest that: (a) prostate tumor cells express alphaIIb(beta)3; (b) surface expression of alphaIIb(beta)3 integrin is regulated by protein kinase C; and (c) mAbs to this receptor inhibit invasion of prostate cancer cells through a reconstituted basement membrane.
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PMID:Human prostate carcinoma cells express functional alphaIIb(beta)3 integrin. 889 66

Neutrophil elastase (NE) and cathepsin G are two serine proteinases released concomitantly by stimulated polymorphonuclear neutrophils. We previously demonstrated that while NE by itself does not activate human platelets, it strongly enhances the weak aggregation induced by a threshold concentration of cathepsin G (threshold of cathepsin G) (Renesto, P., and Chignard, M. (1993) Blood 82, 139-144). The aim of this study was to delineate the molecular mechanisms involved in this potentiation process. Two main pieces of data prompted us to focus on the activation of the platelet fibrinogen receptor, the alphaIIbbeta3 integrin. First, previous studies have shown this integrin to be particularly prone to proteolytic regulation of its function. Second, we found that the potentiating activity of NE on the threshold of cathepsin G-induced platelet aggregation was strictly dependent on the presence of exogenous fibrinogen. Using flow cytometry analysis, NE was shown to trigger a time-dependent binding of PAC-1 and AP-5, two monoclonal antibodies specific for the activated and ligand-occupied conformers of alphaIIbbeta3. Furthermore, the potentiated aggregation was shown to result from an increased capacity of platelets to bind fibrinogen. Indeed, the combination of NE and threshold of cathepsin G increased the binding of PAC-1 approximately 5.5-fold over basal values measured on nontreated platelets, whereas this binding raised only by approximately 3-fold in threshold of cathepsin G-stimulated platelets (p < 0.05). By contrast, phosphatidic acid accumulation, pleckstrin phosphorylation, and calcium mobilization produced by the combination of NE and threshold of cathepsin G were not significantly different from those measured with threshold of cathepsin G alone (p > 0.05), indicating that the phospholipase C/protein kinase C pathway is not involved in the potentiation of aggregation. The foregoing data, as well as the requirement of catalytically active NE to trigger alphaIIbbeta3 activation and potentiate threshold of cathepsin G-initiated platelet aggregation, led us to examine whether the structure of this integrin was affected by NE. Immunoblot and flow cytometry analysis revealed a limited proteolysis of the carboxyl terminus of the alphaIIb subunit heavy chain (alphaIIbH), as judged by the disappearance of the epitope for the monoclonal antibody PMI-1. Mass spectrometry studies performed on a synthetic peptide mapping over the cleavage domain of alphaIIbH predicted the site of proteolysis as located between Val837 and Asp838. Treatment by NE of ATP-depleted platelets or Chinese hamster ovary cells expressing human recombinant alphaIIbbeta3 clearly established that activation of the integrin was independent of signal transduction events and was concomitant with the proteolysis of alphaIIbH. In support of this latter observation, a close correlation was observed between the kinetics of proteolysis of alphaIIbH on platelets and that of expression of the ligand binding activity of alphaIIbbeta3 (r2 = 0.902, p </= 0. 005). However, only a subpopulation ( approximately 25%) of the proteolyzed alphaIIbbeta3 appeared to fully express the ligand binding capacity. Altogether, these results demonstrate that NE up-regulates the fibrinogen binding activity of alphaIIbbeta3 through a restricted proteolysis of the alphaIIb subunit, and that this process is relevant for the potentiation of platelet aggregation.
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PMID:Human neutrophil elastase proteolytically activates the platelet integrin alphaIIbbeta3 through cleavage of the carboxyl terminus of the alphaIIb subunit heavy chain. Involvement in the potentiation of platelet aggregation. 911 Oct 81

Integrins play an important role in mediating tumor cell-extracellular matrix (ECM) and tumor cell-endothelial cell interactions. The integrin alphaIIb beta3 (GPIIb-IIIa) is expressed on the surface of platelets in an inactive state and requires a conformational change to recognize extracellular matrix proteins such as fibrinogen, fibronectin, vitronectin, and others. In this study, we questioned whether human melanoma cells express the alphaIIb beta3 integrin. Reverse transcription-PCR/Southern blotting, Northern blotting, and dot blotting demonstrated the presence of the platelet-type alphaIIb beta3 integrin in human melanoma WM 983B, WM 983A, and WM 35 cells. AP-2, a monoclonal antibody (mAb) to alphaIIb beta3, positively stained two human melanoma specimens, indicating expression of this integrin in vivo. Phorbol 12-myristate 13-acetate and 12(S)-hydroxyeicosatetraenoic acid, two activators of protein kinase C, stimulated adhesion of melanoma cells to immobilized fibronectin and PAC-1, a mAb to alphaIIb beta3. PAC-1 specifically recognizes the conformationally active form of platelet alphaIIb beta3. Phorbol 12-myristate 13-acetate-stimulated adhesion of WM 983B cells to PAC-1 was completely blocked by an RGD peptide, thus providing evidence that tumor cell adhesion to PAC-1 is mediated via the alphaIIb beta3 integrin but not the Fc receptor. Confocal immunofluorescent studies demonstrated that fibronectin-adherent melanoma cells possess an intracellularly localized pool of high-affinity alphaIIb beta3. Invasion of WM 983B cells through fibronectin was stimulated by 12(S)-hydroxyeicosatetraenoic acid, and this stimulated invasion was blocked by the mAb PAC-1. The data suggest that melanoma cells express the high-affinity alphaIIb beta3 integrin, which is involved in tumor invasion.
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PMID:The high affinity alphaIIb beta3 integrin is involved in invasion of human melanoma cells. 919 35

In resting platelets integrin alphaIIbbeta3 is constitutively expressed in an inactive state and it does not recognize soluble proteins. Platelet activation results in a conformational change of the low-affinity alphaIIbbeta3 to a high-affinity state which then recognizes plasma fibrinogen. The ectopic expression of alphaIIbbeta3 integrin in rodent and human cells derived from solid tumors is well documented, although little is known about its affinity state in these tumor cells. In this study we analysed expression and function of high-affinity alphaIIbbeta3 in murine metastatic melanoma B16a cells by using a mAb that specifically recognizes high-affinity alphaIIbbeta3 (PAC-1). These tumor cells while in suspension bound PAC-1 and fibrinogen. Immunofluorescent studies of B16a cells indicated that high-affinity alphaIIbbeta3 is associated with the Golgi complex and the cell surface. Stimulation of B16a cells with a PKC-activator, 12(S)-HETE, induced translocation of the high-affinity integrin from an intracellular pool to the plasma membrane, which resulted in increased tumor cell adhesion to fibronectin. In addition to participating in 12(S)-HETE-stimulated adhesion of B16a cells, the high-affinity alphaIIbbeta3 integrin is also involved in tumor cell invasion through a reconstituted basement membrane. In conclusion, results from this study suggest that in non-megakaryocytic lineage B16a cells alphaIIbbeta3 is constitutively expressed in a high-affinity state, and that this conformation participates in tumor cell adhesion and invasion.
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PMID:Expression and function of the high affinity alphaIIbbeta3 integrin in murine melanoma cells. 1009 39

To better understand the means by which cells such as human platelets regulate the binding of the integrin alphaIIbbeta3 to fibrinogen, we have examined agonist-initiated inside-out and outside-in signalling in CHRF-288 cells, a megakaryoblastic cell line that expresses alphaIIbbeta3 and the human thrombin receptor, PAR1. The results show several notable similarities and differences. (1) Activation of PAR1 caused CHRF-288 cells to adhere and spread on immobilized fibrinogen in an alphaIIbbeta3-dependent manner, but did not support the binding of soluble fibrinogen or PAC-1, an antibody specific for activated alphaIIbbeta3. (2) Direct activation of protein kinase C with PMA or disruption of the actin cytoskeleton with low concentrations of cytochalasin D also caused CHRF-288 cells to adhere to fibrinogen. (3) Despite the failure to bind soluble fibrinogen, activation of PAR1 in CHRF-288 cells caused phosphoinositide hydrolysis, arachidonate mobilization and the phosphorylation of p42MAPK, phospholipase A2 and the Rac exchange protein, Vav, all of which occur in platelets. PAR1 activation also caused an increase in cytosolic Ca2+, which, when prevented, blocked adhesion to fibrinogen. (4) Finally, as in platelets, adhesion of CHRF-288 cells to fibrinogen was followed by a burst of integrin-dependent ('outside-in') signalling, marked by FAK phosphorylation and a more prolonged phosphorylation of p42MAPK. However, in contrast to platelets, adhesion to fibrinogen had no effect on Vav phosphorylation. Collectively, these observations show that signalling initiated through PAR1 in CHRF-288 cells can support alphaIIbbeta3 binding to immobilized ligand, but not the full integrin activation needed to bind soluble ligand. This would suggest that there has been an increase in integrin avidity without an accompanying increase in affinity. Such increases in avidity are thought to be due to integrin clustering, which would also explain the results obtained with cytochalasin D. The failure of alphaIIbbeta3 to achieve the high affinity state in CHRF-288 cells was not due to the failure of PAR1 activation to initiate a number of signalling events that normally accompany platelet activation nor did it prevent at least some forms of outside-in signalling. However, at least one marker of outside-in signalling, the augmentation of Vav phosphorylation seen during platelet aggregation, did not occur in CHRF-288 cells.
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PMID:PAR1 activation initiates integrin engagement and outside-in signalling in megakaryoblastic CHRF-288 cells. 1039 38

Biological activities of the matrix glycoprotein thrombospondin-1 (TSP1) are cell type specific and depend on the relative expression or activation of several TSP1 receptors. Although engaging individual TSP1 receptors in T lymphocytes can elicit costimulating signals, in this study we show that intact TSP1 inhibits TCR-mediated T cell activation, assessed globally using cDNA microarrays. TSP1 signaling suppressed expression of several genes induced in Jurkat T cells, including the T cell activation markers CD69, early growth response gene-1 (Egr-1), and phosphatase of activated cells (PAC-1). TCR-stimulated and CD47-costimulated IL-2 secretion and cell surface CD69 expression were also inhibited by TSP1. The specific inhibitory effect of TSP1 was verified in freshly isolated human PBMCs. TSP1 inhibited TCR-mediated but not protein kinase C-mediated T cell activation. Using CD69 expression as a marker, we demonstrated that the inhibitory activity of TSP1 depended on two TSP1 receptors, CD47 and integrin-associated protein heparan sulfate proteoglycans. Signals from these receptors inhibited TCR signaling downstream of ZAP70, but upstream of NF-AT. Therefore, the expression of TSP1 induced during wound repair and in tumor stroma may limit T cell activation at these sites.
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PMID:Thrombospondin-1 inhibits TCR-mediated T lymphocyte early activation. 1116 Mar 2

Megakaryocytic genes such as alphaIIbbeta3 can be expressed by malignant cells as part of the disturbances in their gene regulation. However, the function of the gene product greatly depends on the interaction of the ectopic protein with the new environment. The outside-in signaling of the ectopically expressed alphaIIbbeta3 integrin was studied in B16a murine melanoma cells using a monoclonal antibody, specifically directed to the activated conformation of alphaIIbbeta3, PAC-1 and the physiological ligand, fibrinogen. Ligation of alphaIIbbeta3 induced down-regulation of FAK but serine phosphorylation of three protein bands, 20/21, 85 and 140 kDa within 1-15 min. Flow cytometry indicated that the ligation of the receptor in B16a cells induces approximately 50% increase in phosphoserine positive cells within 5-15 min. 12-lipoxygenase is placed downstream in the signaling pathway, since ligation of alphaIIbbeta3 induces 12-HETE production within 5 min and pretreatment of tumor cells with select lipoxygenase inhibitior, Baicalein, prevents the increase in serine phosphorylation. Confocal microscopy of adherent tumor cells demonstrated rearrangement of actin filaments upon alphaIIbbeta3 ligation paralleled by downregulation of p125FAK and phoshotyrosine+ adhesion plaques and translocation of PKCalpha to stress fibers and cortical actin. PKC appears to be the major effector serine kinase of the alphaIIbbeta3-coupled signaling pathway, since pretreatment of tumor cells with a select PKC inhibitor, Calphostin C, prevents the ligation-induced serine phosphorylation. Previous studies have indicated a role for the 12-lipoxygenase-PKC signaling pathway in platelet aggregation as well as tumor invasion, therefore the involvement of this cascade in the signaling of the ectopic alphaIIbbeta3 integrin may partially explain its role in tumor progression.
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PMID:Ectopic alphaIIbbeta3 integrin signaling involves 12-lipoxygenase- and PKC-mediated serine phosphorylation events in melanoma cells. 1143 81

Platelet fibrinogen receptor activation is a critical step in platelet plug formation. The fibrinogen receptor (integrin alphaIIbbeta3) is activated by agonist-mediated G(q) stimulation and resultant phospholipase C activation. We investigated the role of downstream signalling events from phospholipase C, namely the activation of protein kinase C (PKC) and rise in intracellular calcium, in agonist-induced fibrinogen receptor activation using Ro 31-8220 (a PKC inhibitor) or dimethyl BAPTA [5,5'-dimethyl-bis-(o-aminophenoxy)ethane-N,N,N', N'-tetra-acetic acid], a high-affinity calcium chelator. All the experiments were performed with human platelets treated with aspirin, to avoid positive feedback from thromboxane A2. In the presence of Ro 31-8220, platelet aggregation caused by U46619 was completely inhibited while no effect or partial inhibition was seen with ADP and the thrombin-receptor-activating peptide SFLLRN, respectively. In the presence of intracellular dimethyl BAPTA, ADP- and U46619-induced aggregation and anti-alphaIIbbeta3 antibody PAC-1 binding were completely abolished. However, similar to the effects of Ro 31-8220, dimethyl BAPTA only partially inhibited SFLLRN-induced aggregation, and was accompanied by diminished dense-granule secretion. When either PKC activation or intracellular calcium release was abrogated, aggregation and fibrinogen receptor activation with U46619 or SFLLRN was partially restored by additional selective activation of the G(i) signalling pathway. In contrast, when both PKC activity and intracellular calcium increase were simultaneously inhibited, the complete inhibition of aggregation that occurred in response to either U46619 or SFLLRN could not be restored with concomitant G(i) signalling. We conclude that, while the PKC- and calcium-regulated signalling pathways are capable of inducing activating fibrinogen receptor independently and that each can synergize with G(i) signalling to cause irreversible fibrinogen receptor activation, both pathways act synergistically to effect irreversible fibrinogen receptor activation.
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PMID:Protein kinase C- and calcium-regulated pathways independently synergize with Gi pathways in agonist-induced fibrinogen receptor activation. 1221 72

Activation of GPIIb/IIIa is known to require agonist-induced inside-out signaling through G(q), G(i), and G(z). Although activated by several platelet agonists, including thrombin and thromboxane A(2), the contribution of the G(12/13) signaling pathway to GPIIb/IIIa activation has not been investigated. In this study, we used selective stimulation of G protein pathways to investigate the contribution of G(12/13) activation to platelet fibrinogen receptor activation. YFLLRNP is a PAR-1-specific partial agonist that, at low concentrations (60 microm), selectively activates the G(12/13) signaling cascade resulting in platelet shape change without stimulating the G(q) or G(i) signaling pathways. YFLLRNP-mediated shape change was completely inhibited by the p160(ROCK) inhibitor, Y-27632. At this low concentration, YFLLRNP-mediated G(12/13) signaling caused platelet aggregation and enhanced PAC-1 binding when combined with selective G(i) or G(z) signaling, via selective stimulation of the P2Y(12) receptor or alpha(2A)-adrenergic receptor, respectively. Similar data were obtained when using low dose (10 nm), a thromboxane A(2) mimetic, to activate G(12/13) in the presence of G(i) signaling. These results suggest that selective activation of G(12/13) causes platelet GPIIb/IIIa activation when combined with G(i) signaling. Unlike either G(12/13) or G(i) activation alone, co-activation of both G(12/13) and G(i) resulted in a small increase in intracellular calcium. Chelation of intracellular calcium with dimethyl BAPTA dramatically blocked G(12/13) and G(i)-mediated platelet aggregation. No significant effect on aggregation was seen when using selective inhibitors for p160(ROCK), PKC, or MEKK1. PI 3-kinase inhibition lead to near abolishment of platelet aggregation induced by co-stimulation of G(q) and G(i) pathways, but not by G(12/13) and G(i) pathways. These data demonstrate that co-stimulation of G(12/13) and G(i) pathways is sufficient to activate GPIIb/IIIa in human platelets in a mechanism that involves intracellular calcium, and that PI 3-kinase is an important signaling molecule downstream of G(q) but not downstream of G(12/13) pathway.
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PMID:Coordinated signaling through both G12/13 and G(i) pathways is sufficient to activate GPIIb/IIIa in human platelets. 1229 12

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