Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0017636 (glioblastoma)
 18,345 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The Baumgartner perfusion apparatus has been used for quantitative comparison of the interaction of platelets with subendothelium in the presence of microvesicles derived from SKNMC (human neuroblastoma) cells, which aggregate platelets by an adenosine diphosphate (ADP)-dependent mechanism, and U87MG (human glioblastoma) cells, which function by a thrombin-dependent mechanism. The derived microvesicles from each line were as effective as the intact cells in inducing thrombogenesis on both undigested and alpha-chymotrypsin-digested subendothelium. Thrombus size on digested vessels was greater than on undigested vessels by fivefold for SKNMC cells and microvesicles and by 20-fold for U87MG cells and sevenfold for U87MG microvesicles. The results show that microvesicles from both cell lines initiate interactions between platelets and subendothelium identical to those caused by intact tumor cells. The results also demonstrate that intact tumor cells in the circulation may not be necessary for the thromboembolic complications of malignancy.
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PMID:Morphometric evaluation of thrombogenesis by microvesicles from human tumor cell lines with thrombin-dependent (U87MG) and adenosine diphosphate-dependent (SKNMC) platelet-activating mechanisms. 378 31

The effects of chelation of divalent cations in the interaction of platelets and tumor cells has been studied in a homologous human system using human platelet-rich plasma and two tumor cell lines of human origin: SKNMC (neuroblastoma) cells, which cause platelet aggregation by an adenosine diphosphate-dependent mechanism, and U87MG (glioblastoma) cells, which function by a thrombin-dependent mechanism. When added at zero time, citrate 14 mmol/L completely abolished aggregation in heparinized (5 U/ml) platelet-rich plasma by either cell line, but the degree of inhibition was reduced by later addition of the chelating agent. Calcium citrate 8 mmol/L reduced by only 10%, indicating that citrate anion was not responsible for the inhibition. Addition of Ca++ or Mg++ alone or in combination at concentrations up to 1.5 mmol/L did not reverse the inhibition. Addition of higher concentrations of Ca++ (2 mmol/L) caused immediate clotting, whereas concentrations of Mg++ up to 6 mmol/L were without effect. Inhibition could be reversed by washing the platelets free of citrate and resuspending in heparinized platelet-rich plasma. Aggregation by either cell line was inhibited by EDTA and EGTA. In the Baumgartner perfusion apparatus, platelet interaction with subendothelium was increased about 50-fold in the presence of SKNMC cells, but this effect was also abolished after addition of citrate. After addition of U87MG cells to heparinized PRP, there was a 400-fold increase in platelet interaction with subendothelium, and complex thrombi containing red cells, white cells, and fibrin were formed. This stimulation was reduced to control levels by addition of citrate.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effects of divalent cations on the interaction of platelets with tumor cells: aggregation and perfusion studies with two homologous human systems. 400 24

Two different mechanisms of aggregation of heparinized human platelet-rich plasma have been identified with two tumor cell lines: In neither case are these mechanisms dependent on platelet-derived ADP. U87MG cells from a glioblastoma line of human origin caused a single irreversible wave of aggregation simultaneously with the onset of platelet secretion, and this was inhibited by heparin and hirudin but not by apyrase or phospholipase D. In contrast, Hut 20 cells from an undifferentiated tumor cell line of murine origin gave an initial reversible wave followed by a second irreversible wave, which then led to secretion. The first wave of platelet aggregation was unaffected by heparin or hirudin but was inhibited by apyrase, and the second wave was inhibited by phospholipase D. Citrate caused irreversible inhibition with either cell line, and aggregation did not occur with gel filtered platelets. These results suggest that platelet aggregation by the Hut 20 line is initially dependent on ADP released from the tumor cells, whereas aggregation induced by the U87MG line is dependent on a procoagulant activity of the tumor cell surface.
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PMID:Differing platelet aggregating effects by two tumor cell lines: absence of role for platelet-derived ADP. 733 92

Adenosine and its nucleotides adenosine triphosphate (ATP) and adenosine diphosphate (ADP) stimulate the proliferation of brain astrocytes in vitro and augment the effects of other growth factors. Following brain injury, hypoxia, or around solid tumors with necrotic centers, such as glioblastoma multiformes, high concentrations of adenine nucleotides and adenosine are released into the extracellular space; extracellular adenosine concentrations can rise 30-100-fold to a concentration in excess of 100 microM. Increased concentrations of extracellular adenosine and adenine nucleotides may contribute to reactive astrocytic proliferation following brain injury. To test this hypothesis, adenosine, an adenosine analog 5'-(N-cyclopropyl)-carboxamidoadenosine (CPCA), or ADP was micro-injected into rat cortex. The number of glial fibrillary acidic protein-immunopositive cells was compared between the treated and contralateral saline-injected hemispheres. Within 48 hr, astrocyte density around the CPCA (100 microM) infusion site was almost double that around the control saline infusion site. In hemispheres into which CPCA was infused, there was an increase in astrocytes in the subpial region along fiber tracts and around blood vessels, characteristic of Scherer's secondary structures found in association with malignant astrocytic brain tumors. The increased astrogliosis elicited by CPCA was abolished by coinfusion of the adenosine A2 receptor antagonist 1,3-dipropyl-7-methylxanthine (DPMX). While microinjection of adenosine (1 mM) failed to stimulate astrogliosis, microinjection of ADP (500 microM) also resulted in a significant reactive astrogliosis and accumulation of astrocytes similar to Scherer's secondary structures.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Stimulation of reactive astrogliosis in vivo by extracellular adenosine diphosphate or an adenosine A2 receptor agonist. 793 72

Glioblastoma, glioma or neuroblastoma cells were examined for the expression of IL-4 receptors (IL-4R) by flow cytometric analysis and 125I-IL-4 binding. These cancer cell lines expressed IL-4R which were of high affinity (KD = 700 x 10(-12) M) on glioblastoma cells. To investigate the function of these receptors and to target potent cytotoxic antitumor agents to human neurological cancers, we utilized IL4-PE4E, which is composed of IL-4 and mutant Pseudomonas exotoxin (IL4-PE4E). This chimeric molecule was cytotoxic toward human glioblastoma, neuroblastoma and glioma tumor cells in a dose-dependent manner. The cytotoxicity of IL4-PE4E was specific, since it was neutralized by excess IL-4, and by an anti-IL-4 monoclonal antibody in all types of brain tumor tested. IL2-PE4E and IL6-PE4E were not cytotoxic, nor was an IL4-PE4E mutant lacking ADP-ribosylating activity, indicating the IL4-PE4E-mediated cytotoxicity of the brain tumor cells required both IL-4R binding and enzymatic toxin activity. These data indicate that human neurological cancer cells express IL-4R which are targets for the cytotoxic effects of IL4-toxin. In addition, our data also suggest that IL4-PE4E should be studied further as a potential treatment for human neurological cancers.
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PMID:Human neurological cancer cells express interleukin-4 (IL-4) receptors which are targets for the toxic effects of IL4-Pseudomonas exotoxin chimeric protein. 805 54

Recombinant Nef-protein of HIV-1 Bru derived from Escherichia coli revealed heparin-binding activity. This property was used to purify the Nef-protein by a one-step procedure, yielding about 90% homogenous Nef-protein as evaluated by silver staining. The Nef-protein was soluble without denaturing agents. Native folding of Nef was demonstrated with antibodies against conformational epitopes of Nef by a slot blot assay under native conditions. Despite its affinity to heparin and its nuclear localization in persistently HIV-1 infected glioblastoma cells (Kohleisen et al., 1992), Nef did not show DNA-binding properties by slot blot/hybridization assay and South/Western blot. In nucleotide-binding assays a strong autophosphorylation activity with [gamma-32P]ATP was observed. Nef-protein was not a substrate for ADP-ribosylation by bacterial toxins arguing against G-protein-like activities of Nef. Recombinant Nef did not interact with membranes as shown by the lack of increased fluorescence emission of Nef in the presence of liposomes. The recombinant Nef-protein obtained by one-step heparin-based purification shares immunological properties with native Nef and should prove useful for further studies of Nef function and immunogenicity.
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PMID:Heparin-binding capacity of the HIV-1 NEF-protein allows one-step purification and biochemical characterization. 879 10

Differences on 5'-nucleotidase activity in intact Rugli and BCS-TC2 cells (rat glioblastoma and human colon adenocarcinoma cell lines, respectively) are not due to differences in the characteristics of the ectoenzyme. A membrane-bound 5'-nucleotidase from BCS-TC2 cells has been purified to homogeneity with a high specific activity (130 U/mg), yielding a single 72-kDa band on SDS-PAGE. It is a metalloenzyme and, after inhibition by EDTA, its activity can be partially restored by divalent cations. The hydrolysis of the nucleosides 5'-monophosphate used as substrate follows Michaelis-Menten kinetics; ADP and concanavalin A are competitive and non-competitive inhibitors of the AMPase activity, respectively. This ecto-5'-nucleotidase is a high-mannose glycoprotein; deglycosylation converts the 72-kDa into a 59-kDa protein with a concomitant activity loss. The enzyme purified from BCS-TC2 cells shows similar characteristics from that previously isolated from Rugli cells; differences between them are mainly due to glycosylation. Polyclonal antibodies against 5'-nucleotidase from BCS-TC2 cells also show cross-reactivity with the enzyme from Rugli cells. When the ectoenzyme activity is measured in cells in culture, Rugli cells present a higher activity than BCS-TC2 cells however, they express very low amounts of ecto-5'-nucleotidase. Our results also show a reduction in protein level and enzyme activity associated with a decrease in the differentiation degree and an increase in tumorigenicity of human colon adenocarcinoma BCS-TC2 sublines.
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PMID:Ecto-5'-nucleotidase from a human colon adenocarcinoma cell line. Correlation between enzyme activity and levels in intact cells. 978 49

p53 and poly(ADP-ribose) polymerase (PARP) are both DNA damage recognition proteins and can be functionally activated by DNA strand breaks. To understand the functional interaction between these two proteins, the effects of a PARP inhibitor, 3-aminobenzamide (3AB), on the p53 pathway were investigated in human glioblastoma cells with different p53 status. Consistent with previous studies, irradiation with gamma-rays induced both p53 and WAF1 accumulation in A-172 cells (wtp53) but not in T98G cells (mp53). However, the presence of 3AB but not its analog suppressed radiation-induced accumulation of wtp53 and the expression of WAF1 and MDM2. Similar results were also obtained from U87MG, another human glioblastoma cell line with wtp53 status. Northern blotting analysis showed that 3AB inhibited the gamma-ray-induced WAF1 gene expression. Moreover, 3AB but not its analog inhibited irradiation-induced activation of sequence-specific DNA binding of wtp53 as detected using 32P-labeled or biotin-labeled p53 consensus sequence (p53CON). However, immunoblotting with an anti-poly(ADP-ribose) antibody showed that p53 proteins of the p53CON-bound fraction did not contain poly(ADP-ribose) (PAR). These findings suggested that poly(ADP-ribosyl)ation is required for rapid accumulation of p53, activation of p53 sequence-specific DNA binding and its transcriptional activity after DNA damage.
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PMID:Poly(ADP-ribosyl)ation is required for p53-dependent signal transduction induced by radiation. 987 88

Development of necrosis is a characteristic feature of glioblastoma but its pathogenesis remains poorly understood. The process of poly(ADP-ribosyl)ation in response to DNA damage is mediated by poly(ADP-ribose) polymerase (PARP) and results in NAD+ depletion. The consequent ATP and energy depletion may result in cell necrosis. Therefore PARP activation is a potential candidate for a regulatory role in the pathogenesis of necrosis in glioblastoma. This study investigated whether there might be a relationship between both PARP expression and poly(ADP-ribosyl)ation, and necrosis in glioblastoma. The pattern of expression of PARP and of poly(ADP-ribose) groups in an archival series of glioblastoma was examined using immunohistochemistry. These parameters were also studied in multicellular tumour spheroids, derived from human glioma cell lines in which central necrosis develops with increasing spheroid diameter. Poly(ADP-ribose) groups were expressed in peri-necrotic tumour cells in glioblastoma. In the spheroid model poly(ADP-ribosyl)ation was seen centrally in pre-necrotic and necrotic cells with increasing spheroid diameter. PARP was widely expressed in viable tumour cells in the glioblastoma sections. In the spheroids, PARP expression, which was initially diffuse, became confined to the outer proliferative zone with increasing diameter. The pattern of expression of poly(ADP-ribose) groups in the spheroids and in glioblastoma raises the possibility that poly(ADP-ribosyl)ation may play a role in the development of necrosis in glioma. The high basal PARP expression in both glioblastoma and the spheroids suggests that this enzyme may have additional roles in glioma cell biology.
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PMID:Expression of poly(ADP-ribose) polymerase and distribution of poly(ADP-ribosyl)ation in glioblastoma and in a glioma multicellular tumour spheroid model. 1112 19

A human cDNA encoding an 841-aa guanine nucleotide-exchange protein (GEP) for ADP-ribosylation factors (ARFs), named ARF-GEP(100), which contains a Sec7 domain, a pleckstrin homology (PH)-like domain, and an incomplete IQ-motif, was identified. On Northern blot analysis of human tissues, a approximately 8-kb mRNA that hybridized with an ARF-GEP(100) cDNA was abundant in peripheral blood leukocytes, brain, and spleen. ARF-GEP(100) accelerated [(35)S]GTPgammaS binding to ARF1 (class I) and ARF5 (class II) 2- to 3-fold, and to ARF6 (class III) ca. 12-fold. The ARF-GEP(100) Sec7 domain contains Asp(543) and Met(555), corresponding to residues associated with sensitivity to the inhibitory effect of the fungal metabolite brefeldin A (BFA) in yeast Sec7, but also Phe(535) and Ala(536), associated with BFA-insensitivity. The PH-like domain differs greatly from those of other ARF GEPs in regions involved in phospholipid binding. Consistent with its structure, ARF-GEP(100) activity was not affected by BFA or phospholipids. After subcellular fractionation of cultured T98G human glioblastoma cells, ARF6 was almost entirely in the crude membrane fraction, whereas ARF-GEP(100), a 100-kDa protein detected with antipeptide antibodies, was cytosolic. On immunofluorescence microscopy, both proteins had a punctate pattern of distribution throughout the cells, with apparent colocalization only in peripheral areas. The coarse punctate distribution of EEA-1 in regions nearer the nucleus appeared to coincide with that of ARF-GEP(100) in those areas. No similar coincidence of ARF-GEP(100) with AP-1, AP-2, catenin, LAMP-1, or 58K was observed. The new human BFA-insensitive GEP may function with ARF6 in specific endocytic processes.
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PMID:ARF-GEP(100), a guanine nucleotide-exchange protein for ADP-ribosylation factor 6. 1122 53


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