Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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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 mechanisms by which a stimulatory monoclonal antibody (mAb), called mAb F11, induces granular secretion and aggregation in human platelets have been characterized. Fab fragments of mAb F11, as well as an mAb directed against the platelet Fc gamma RII receptor (mAb IV.3) were found to inhibit mAb F11-induced platelet secretion and aggregation, indicating that the mAb F11 IgG molecule interacts with the Fc gamma RII receptor through its Fc domain and with its own antigen through its Fab domain. The mAb F11 recognized two platelet proteins of 32 and 35 kDa on the platelet membrane surface, as identified by Western blot analysis. We purified both proteins from human platelet membranes using DEAE-Sepharose chromatography followed by mAb F11 affinity chromatography. When added to platelet-rich plasma, the purified proteins dose-dependently inhibited mAb F11-induced platelet aggregation. The purified protein preparation also competitively inhibited the binding of 125I-labelled mAb F11 to intact platelets. The N-terminal 26 amino acid sequences of both the 32 and 35 kDa proteins were identical and contained a single unblocked serine in the N-terminal position. When digested with N-glycanase, the 32 and 35 kDa proteins were converted into a single approximately 29 kDa protein, indicating that these two proteins are derived from the same core protein but differ in their degree of glycosylation. Internal amino acid sequence analysis of the F11 antigen provided information concerning 68 amino acids and suggested two consensus phosphorylation sites for protein kinase C (PKC). The phosphorylation by PKC of the isolated F11 antigen was observed following stimulation by phorbol 12-myristate 13-acetate. Databank analysis of the N-terminal and internal amino acid sequences of the F11 antigen indicated that the N-terminal sequence exhibited the highest degree of similarity to the variable region of the alpha-chain of human T-cell receptors (TCR). In contrast, the F11 internal sequences did not exhibit any similarity to the TCR. Our results demonstrate that the F11 antigen is a novel platelet membrane surface glycoprotein which becomes cross-linked with the Fc gamma RII receptor when platelets are activated by the stimulatory mAb F11. These mechanisms may be relevant to the production of immune thrombocytopenia by platelet-activating antibodies.
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PMID:Mechanisms of platelet activation by a stimulatory antibody: cross-linking of a novel platelet receptor for monoclonal antibody F11 with the Fc gamma RII receptor. 764 39

The effect of type IIB von Willebrand's factor (vWF) on platelet cytosolic Ca2+ ion concentration, measured by means of the probe fura 2, was investigated. Seven patients with type IIB von Willebrand disease (vWD) were studied. Addition of type IIB vWD plasma to platelet suspensions induced a cytosolic calcium increase accompanied by platelet aggregation. Both processes were completely abolished by addition of the calcium-chelating agent EGTA, indomethacin, peptide RGDS, and monoclonal antibodies blocking the vWF binding site on GPIb-IX (LJIB1) or the cytoadhesive receptor on GPIIb-IIIa (LJCP8). The ADP-scavenger apyrase and the protein kinase C-inhibitor staurosporine partially inhibited the rate of the cytosolic calcium increase. No direct correlation between the extent of Ca2+ rise and the phenotypic expression of IIB vWD, such as the degree of spontaneous platelet aggregation or thrombocytopenia was apparent. It is suggested that aggregation and cytosolic Ca2+ increase in platelets exposed to plasma from type IIB vWD patients is mediated by a self-potentiating mechanism involving both GPIb and GPIIb-IIIa receptors as well as the thromboxane biosynthetic pathway.
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PMID:Platelet aggregation induced by plasma from type IIB von Willebrand's disease patients is associated with an increase in cytosolic Ca2+ concentration. 811 99

In a patient with immune thrombocytopenic purpura (ITP), we found a novel platelet-activating IgG (act-IgG) and an inhibitory IgG (inhi-IgG) that prevented activation induced by both CD9 monoclonal antibody (mAb) and the act-IgG. Purified IgG from the patient plasma caused a rise in [Ca2+]i and the aggregation of normal platelets, and bound to a 24 kD membrane protein. This aggregation was inhibited by aspirin, staurosporine, an inhibitor of protein kinase C, and F(ab')2 fragments of MALL13, a CD9 mAb. When the platelet count of this patient rose to normal range, the act-IgG disappeared. About 2 weeks later, the relapse of thrombocytopenia was observed. The purified IgG obtained in this period did not activate platelets but inhibited both the rise in [Ca2+]i and platelet aggregation stimulated by NNKY 1-19, a CD9 mAb, as well as the act-IgG, and bound to a 40 kD membrane protein. The inhi-IgG prevented the binding of IV-3, a mAb against Fc gamma receptor II (Fc gamma RII), but did not prevent the binding of NNKY 1-19 to its antigen. We suggest that the activating autoantibody recognized CD9 antigen and activated both the thromboxane- and phospholipase C-dependent pathways, while the inhibitory autoantibody recognized the Fc gamma RII and inhibited CD9 antibody-induced platelet activation mediated via this receptor.
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PMID:Platelet activation induced by an antiplatelet autoantibody against CD9 antigen and its inhibition by another autoantibody in immune thrombocytopenic purpura. 821 30

Bryostatin-1, a macrocyclic lactone, appears to elicit a wide range of biological responses including modulation of protein kinase C (PKC). PKC, one of the major elements in the signal transduction pathway, is involved in the regulation of cell growth, differentiation, gene expression, and tumor promotion. Because of the potential for a unique mechanism of interaction with tumorgenesis, a Phase I trial of bryostatin-1 was performed in children with solid tumors to: (a) establish the dose-limiting toxicity (DLT) and maximum-tolerated dose (MTD); (b) establish the pharmacokinetic profile in children; and (c) document any evidence of antitumor activity. A 1-h infusion of bryostatin-1 in a PET formulation (60% polyethylene glycol 400, 30% ethanol, and 10% Tween 80) was administered weekly for 3 weeks to 22 children (age range, 2-21 years) with malignant solid tumors refractory to conventional therapy. Doses ranged from 20 to 57 microg/m2/ dose. Pharmacokinetics were performed in at least three patients per dose level. The first course was used to determine the DLT and MTD. Twenty-two patients on five dose levels were evaluable for toxicities. At the 57 microg/m2/dose level dose-limiting myalgia (grade 3) was observed in three patients; two of those patients also experienced photophobia or eye pain, and one experienced headache. Symptoms occurred in all patients within 24-72 h after the second dose of bryostatin-1 with resolution within 1 week of onset. Other observed toxicities (grades 1 and 2) included elevation in liver transaminases, thrombocytopenia, fever, and flu-like symptoms. The bryostatin-1 infusion was typically well tolerated. Although stable disease was noted in several patients, no complete or partial responses were observed. The recommended Phase II dose of bryostatin-1 administered as a 1-h infusion weekly for 3 of every 4 weeks to children with solid tumors is 44 microg/m2/dose. Myalgia, photophobia, or eye pain, as well as headache, were found to be dose limiting.
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PMID:A Phase I trial of bryostatin-1 in children with refractory solid tumors: a Pediatric Oncology Group study. 1049 3

Megakaryopoiesis and subsequent thrombopoiesis occur through complex biologic steps: megakaryocyte precursors that developed from hematopoietic stem cells initially proliferate, then differentiate into mature polyploid megakaryocytes, and finally release platelets. Although a number of growth factors can augment megakaryopoiesis in vitro, thrombopoietin is a physiologic and the most potent regulator of megakaryopoiesis in vitro and in vivo. Thrombopoietin induces the growth of megakaryocyte precursors through activation of multiple signaling cascades, including Ras/mitogen-activated protein kinase (MAPK), signal transducers and activators of transcription 5 (STAT5), phosphatidylinositol 3-kinase (PI3-K)/Akt, and protein kinase C, whereas it induces megakaryocytic maturation primarily through the Ras/MAPK pathway. During the maturation step, megakaryocytes undergo polyploidization characterized by repeated rounds of DNA replication without concomitant cell division. During these rounds of replication, cytokinesis is neglected because of the down-regulated expression of AIM-1, and DNA replication occurs through the increased expression of D-type cyclins. As for transcriptional regulation during megakaryopoiesis, GATA-1 plays a central role in the lineage commitment of hematopoietic stem cells toward erythroid/megakaryocytic lineage and subsequent maturation. p45 NF-E2 is essential for platelet release from terminally differentiated megakaryocytes. At present, mutations of GATA-1, AML1, and HOXA11 genes have been found in hereditary diseases accompanying thrombocytopenia among humans.
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PMID:Molecular control of megakaryopoiesis and thrombopoiesis. 1209 46

A Phase I trial has been conducted in patients with refractory/relapsed acute leukemia in which escalating doses of the protein kinase C (PKC) activator and down-regulator bryostatin 1 (NSC399555), administered as a 24-h continuous infusion on days 1 and 11, were given immediately before and after a split course of high-dose 1-beta-D-arabinofuranosylcytosine (HiDAC; 1.5 g/m(2) every 12 h x 4) administered on days 2 and 3, and 9 and 10. The bryostatin 1 maximally tolerated dose (MTD) was identified as 50 microg/m(2), with myalgias representing the major dose-limiting toxicity (DLT). Other DLTs included prolonged neutropenia and thrombocytopenia, and hepatotoxicity. Of the 23 patients who completed their course of therapy and were fully evaluable for response, the large majority of whom had unfavorable prognostic characteristics, 4 complete remissions (CRs) were obtained. An additional 3 patients were treated at a 3 g/m(2) ara-C (1-beta-D-arabinofuranosylcytosine) dose level to determine whether this HiDAC dose could be administered in conjunction with bryostatin 1. All 3 of these patients experienced DLT, and this dose was considered above the MTD. However, one of the latter patients, who was heavily pretreated, also achieved a CR that persisted 5+ months without maintenance. Finally, 1 patient post-HiDAC and autologous bone marrow transplantation achieved a 5+ month leukemia-free survival although she did not meet the criteria for a CR because of persistent transfusion requirements. Correlative laboratory studies performed on blasts from 9 patients revealed that in vivo administration of bryostatin 1 resulted in variable effects on total blast PKC activity, including decreases in 4 samples, increases in 2, and no change in 3. Previous in vivo bryostatin 1 exposure also exerted disparate effects on the extent of apoptosis observed in blasts exposed to ara-C ex vivo, although increases were noted in a subset of patient samples. Interestingly, in vivo administration of bryostatin 1 by itself induced lethality in some patient specimens. No clear relationship between the in vivo effects of bryostatin 1 on blast PKC activity and the extent of ara-C-related apoptosis that occurred ex vivo was apparent. Together, these findings demonstrate that bryostatin 1 can be safely administered as a continuous infusion before and after a split course of HiDAC in patients with refractory leukemia, and identify the bryostatin 1 MTD as 50 microg/m(2) when given by this schedule. Furthermore, the achievement of several CRs in the setting of a Phase I trial in which many patients had particularly high-risk features (e.g., short initial remission, previous HiDAC or autologous bone marrow transplantation, and multiple previous salvage regimens) suggests that this regimen has activity in acute leukemia and warrants additional investigation.
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PMID:Phase I trial and correlative laboratory studies of bryostatin 1 (NSC 339555) and high-dose 1-B-D-arabinofuranosylcytosine in patients with refractory acute leukemia. 1211 12

The mechanisms by which agonists activate glycoprotein (GP) IIb-IIIa function remain unclear. We have reported data on a patient with thrombocytopenia and impaired receptor-mediated aggregation, phosphorylation of pleckstrin (a protein kinase C [PKC] substrate), and activation of the GPIIb-IIIa complex. Abnormalities in hematopoietic transcription factors have been associated with thrombocytopenia and platelet dysfunction. To define the molecular mechanisms, we amplified from patient platelet RNA exons 3 to 6 of core-binding factor A2 (CBFA2) cDNA, which encompasses the DNA-binding Runt domain; a 13-nucleotide (nt) deletion was found (796-808 nt). The gDNA revealed a heterozygous mutation (G>T) in intron 3 at the splice acceptor site for exon 4, leading to a frameshift with premature termination in the Runt domain. On immunoblotting, platelet CBFA2, PKC-, albumin, and IgG were decreased, but pleckstrin, PKC-alpha, -betaI, -betaII, -eta, -epsilon, -delta, and -zeta, and fibrinogen were normal. Our conclusions are that (1) CBFA2 mutation is associated with not only thrombocytopenia, but also impaired platelet protein phosphorylation and GPIIb-IIIa activation; (2) proteins regulated by CBFA2 are required for inside-out signal transduction-dependent activation of GPIIb-IIIa; and (3) we have documented the first deficiency of a human PKC isozyme (PKC-), suggesting a major role of this isozyme in platelet production and function.
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PMID:Association of CBFA2 mutation with decreased platelet PKC-theta and impaired receptor-mediated activation of GPIIb-IIIa and pleckstrin phosphorylation: proteins regulated by CBFA2 play a role in GPIIb-IIIa activation. 1452 64

Protein kinase C alpha (PKC-alpha) is a cytoplasmic serine threonine kinase involved in regulating cell differentiation and proliferation. Aprinocarsen is an antisense oligonucleotide against PKC-alpha that reduces PKC-alphain human cell lines and inhibits a human glioblastoma tumor cell line in athymic mice. In this phase 2 study, aprinocarsen was administered to patients with recurrent high-grade gliomas by continuous intravenous infusion (2.0 mg/kg/day for 21 days per month). Twenty-one patients entered this trial. Their median age was 46 years (range, 28-68 years), median Karnofsky performance status was 80 (range, 60-100), median tumor volume was 58 cm3 (range, 16-254 cm3), and histology included glioblastoma multiforme (n = 16), anaplastic oligodendroglioma (n = 4), and anaplastic astrocytoma (n = 1). The number of prior chemotherapy regimens included none (n = 3), one (n = 10), and two (n = 8). No tumor responses were observed. Patients on this therapy rapidly developed symptoms of increased intracranial pressure with increased edema, enhancement, and mass effect on neuroimaging. The median time to progression was 36 days, and median survival was 3.4 months. The observed toxicities were mild, reversible, and uncommon (grade 3 thrombocytopenia [n = 3] and grade 4 AST [n = 1]), and no coagulopathy or CNS bleeding resulted from this therapy. Plasma concentrations of aprinocarsen during the infusion exhibited significant interpatient variability (mean = 1.06 mug/ml; range, 0.34-6.08 mug/ml). This is the first study to use an antisense oligonucleotide or a specific PKC-alpha inhibitor in patients with high-grade gliomas. No clinical benefit was seen. The rapid deterioration seen in these patients could result from tumor growth or an effect of aprinocarsen on bloodbrain barrier integrity.
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PMID:Efficacy and toxicity of the antisense oligonucleotide aprinocarsen directed against protein kinase C-alpha delivered as a 21-day continuous intravenous infusion in patients with recurrent high-grade astrocytomas. 1570 Dec 80

Aprinocarsen is a specific antisense oligonucleotide inhibitor of protein kinase C-alpha. This study aimed to evaluate the response rate to combination therapy with aprinocarsen, gemcitabine and cisplatin, in chemonaive patients with advanced/metastatic NSCLC. Secondary objectives included comparison of response rate, time to event efficacy parameters, and toxicities on the 2 treatment arms. Patients with stage IV, or stage IIIB disease (N3 and/or pleural/pericardial effusion), were randomized to either control or experimental arm. Patients on both arms received gemcitabine 1250 mg/m2 on days 1 and 8, and cisplatin 80 mg/m2 on day 1 of a 3-week cycle. Additionally, on the experimental arm, aprinocarsen was administered as 2 mg/kg continuous iv infusion on days 1-14, every 21 days. A total of 18 enrolled patients were randomized on the 2 arms. Further enrollment was terminated in March 2003 as a result of a phase III trial suggesting that aprinocarsen did not have an added survival benefit when combined with paclitaxel and carboplatin therapy in patients with NSCLC. Patients received a median of 4 cycles on control arm and 2.5 cycles on experimental arm. The response rate was 16.7% in the experimental arm and 44.4% in the control arm. Most frequent grade 3/4 toxicities were hematologic, with a higher incidence of thrombocytopenia in the experimental arm (87.5% vs. 33.3%). Despite the 14-day continuous infusion schedule, infection rate was not increased in the experimental arm. The present study did not show any advantage, in response rate or secondary endpoints, with aprinocarsen; however, the toxicity was not unduly increased, and aprinocarsen regimen was safely administered.
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PMID:Randomized phase II evaluation of aprinocarsen in combination with gemcitabine and cisplatin for patients with advanced/metastatic non-small cell lung cancer. 1586 84

The antisense oligonucleotide aprinocarsen specifically inhibits the transcription of protein kinase C-alpha. This study evaluated the response rate of the combination therapy of aprinocarsen, gemcitabine, and carboplatin in previously untreated patients with advanced non-small cell lung cancer (NSCLC). Secondary objectives included the measurement of time-to-event efficacy parameters and toxicity. Patients with stage IV or stage IIIB disease (N(3) and/or pleural/pericardial effusion) were treated with gemcitabine 1,250 mg/m(2) on days 1 and 8 and carboplatin AUC 5 on day 1 every 21 days. Aprinocarsen was administered as 2mg/kg/day continuous iv infusion on the first 14 days of each cycle, following the carboplatin treatment. A total of 36 patients received a median of 3 treatment cycles, with 10 patients completing 6 cycles. No complete response was observed, while partial response was seen in 25% of patients. Stable disease and progressive disease was observed in 36.1% and 22.2% of patients. The median overall survival was 8.3 months, and the median duration of progression-free survival was 5.7 months (95% CI, 3.2-7.1 months). Thrombocytopenia (78%) and neutropenia (50%) were the major grade 3/4 toxicities. Enrollment for this study was stopped and the study was terminated in March 2003 due to the results of a large phase III study, which suggested that aprinocarsen did not improve response or add survival benefit to chemotherapy in advanced NSCLC. The addition of aprinocarsen to gemcitabine+carboplatin therapy in patients with NSCLC showed moderate activity. However, this combination resulted in severe thrombocytopenia in the majority of patients.
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PMID:Phase II study of PKC-alpha antisense oligonucleotide aprinocarsen in combination with gemcitabine and carboplatin in patients with advanced non-small cell lung cancer. 1650 27


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