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: UMLS:C0017638 (glioma)
30,880 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A conjugate of 4-desacetylvinblastine-3-carboxyhydrazide (DAVLBHY) and the glioma-reactive monoclonal antibody (mAb) 9.2.27 induced long-term suppression of tumor growth in athymic nude mice engrafted with U87MG human glioma cells. In vitro, DAVLBHY had the strongest antiproliferative activity (inhibitory concentration at which incorporation of [3H]thymidine is at 50% of untreated control is 2.0 x 10(-9) M) of seven cytotoxic drugs tested and so was chosen for conjugation to mAb 9.2.27, which reacts specifically with the core protein of chondroitin sulfate proteoglycans found in human glioblastomas. After conjugation of DAVLBHY to the carbohydrate residues of mAb 9.2.27 it retained its full binding capacity. For in vivo studies, DAVLBHY and several conjugate derivatives were evaluated by using two dosages of i.v. injections, each starting 2 days after s.c. tumor inoculation. The control tumors reached a volume of nearly 3000 mm3 within 30 days. Tumor growth was delayed by about 20 days with four i.v. injections of 0.5 mg/kg 9.2.27-DAVLBHY, which was slightly superior to the unconjugated drug. Moreover, 9.2.27-DAVLBHY produced a highly significant suppression of growth so that the average tumor volume was only 3% of that observed in untreated controls after 28 days. Four injections of this conjugate at a larger dose, 2.0 mg/kg, prevented recurrence of the tumors for 130 days in all animals tested, thus demonstrating a significant increase in the therapeutic index, since the unconjugated drug provided limited inhibition of tumor growth for only 40 days. The specificity of the antitumor effect was demonstrated in a comparison with the control conjugate, KS1/4-DAVLBHY, which despite partial tumor suppression had only a transient effect. The specific antitumor effect of 9.2.27-DAVLBHY was unexpected, since the target antigen is expressed at a relatively low density (40,000 sites/cell) on U87MG glioma cells.
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PMID:Long-term growth suppression of human glioma xenografts by chemoimmunoconjugates of 4-desacetylvinblastine-3-carboxyhydrazide and monoclonal antibody 9.2.27. 161 57

Four different human tumor cell lines of glial origin have been exposed to a human T lymphotropic retrovirus (HTLV-I). All these cell lines were positive for the glial marker glial fibrillary acidic protein (GFAP). The presence of virus RNA was demonstrated by in situ hybridization using an HTLV-I, SStI-SStI viral insert as probe. Virus expression has been monitored through an indirect immunofluorescence assay using a monoclonal antibody against virus core protein p19. All the four glioma cell lines tested became positive for p19 after 2 weeks of co-cultivation and showed a clear alteration of GFAP expression.
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PMID:Effect of human T lymphotropic retrovirus-I exposure on cultured human glioma cell lines. 188 42

Human glioblastomas (five of five), the most malignant astroglial-derived tumors, specifically express a chondroitin sulfate proteoglycan that is recognized by monoclonal antibody 9.2.27 and localized to the glioma cell surface, proliferating endothelial cells, and the perivascular extracellular matrix within the tumor bed. In contrast, the expression of this proteoglycan in normal adult neocortex and white matter is limited to the smooth muscle of small arteries, while normal glia, endothelial cells, and endothelial cell basement membranes are nonreactive. Moreover, two anaplastic astrocytomas, representing medium-grade astroglial-derived tumors, fail to react with monoclonal antibody 9.2.27. In culture, glioblastoma and capillary brain endothelial cells specifically synthesize a 250-kDa core protein and a high-molecular-mass chondroitin sulfate proteoglycan, recognized by monoclonal antibody 9.2.27. These data suggest a correlation between the expression of this chondroitin sulfate proteoglycan on proliferating brain capillary endothelial cells and the malignant phenotype of astroglial cells. The prominent perivascular localization of chondroitin sulfate proteoglycan makes it a marker for both proliferating brain capillary endothelial cells and the most malignant transformed astroglial cells, thus providing an ideal target for the immunotherapy of glioblastoma.
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PMID:Correlation of chondroitin sulfate proteoglycan expression on proliferating brain capillary endothelial cells with the malignant phenotype of astroglial cells. 189 86

Previous studies have shown that D-xylose partially overcomes the puromycin inhibition of chondroitin sulfate synthesis in cultured chick embryo chondrocytes. Likewise, D-xylose stimulates chondroitin sulfate synthesis by limb bud mesenchyme cells previously treated with BrdU or limb bud cartilage cells treated with puromycin. The studies reported here show that p-nitrophenyl-beta-D-xylopyranoside and 4-methyl-umbelliferyl-beta-D-xylopyranoside cause a much greater stimulation than does D-xylose and are active at much lower concentrations. In contrast to D-xylose, the xylosides strikingly stimulate chondroitin sulfate synthesis in predifferentiated mesenchyme cells. The xylosides stimulate synthesis of chondroitin sulfate by rat glial cell tumor cells (RC-6), a mouse neuroblastoma (C1300, NB41A), and two strains of cultured rat hepatoma cells (HTC, H(4)). These results indicate that certain types of nonconnective tissue cells contain the enzymic machinery for synthesis of chondroitin sulfate which is normally not utilized because of limited synthesis of core protein and/or xylosyltransferase. The beta-xylosides may be used as a probe of the capacity of various cell types to synthesize sulfated glycosaminoglycans.
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PMID:Stimulation of synthesis of free chondroitin sulfate chains by beta-D-xylosides in cultured cells. 437 4

We have studied interactions of tenascin with two chondroitin sulfate proteoglycans, neurocan and phosphacan. Neurocan is a multi-domain proteoglycan with a 136-kDa core protein that is synthesized by neurons and binds to hyaluronic acid, whereas the 173-kDa core protein of phosphacan, which is synthesized by glia, represents an extracellular variant of the receptor-type protein tyrosine phosphatase RPTP zeta/beta. Keratan sulfate-containing glycoforms of phosphacan (designated phosphacan-KS) are also present in brain. Immunocytochemical studies of early postnatal rat cerebellum demonstrated that the localization of neurocan, phosphacan, and phosphacan-KS all overlap extensively with that of tenascin, an extracellular matrix protein that modulates cell adhesion and migration. Binding studies using purified proteins covalently attached to fluorescent microbeads demonstrated that proteoglycan-coated beads co-aggregated with differently fluorescing beads coated with tenascin. The co-aggregation was specifically inhibited by Fab' fragments of antibodies against tenascin or the proteoglycans and by soluble neurocan, phosphacan, and tenascin. A solid phase radioligand binding assay confirmed that neurocan, phosphacan, and phosphacan-KS bind to tenascin but not to laminin and fibronectin. Chondroitinase treatment of the proteoglycans or addition of free chondroitin sulfate had no significant effect, indicating that the binding activity is mediated largely via the core glycoproteins. Scatchard analysis demonstrated high affinity binding of 125I-phosphacan, phosphacan-KS, and neurocan to a single site in tenascin, and neurocan and various glycoforms of phosphacan all inhibited binding of 125I-phosphacan to tenascin. In studies of cell adhesion to proteins adsorbed to Petri dishes, phosphacan inhibited adhesion of C6 glioma cells to tenascin whereas neurocan had no effect. Our results suggest that tenascin binds phosphacan and neurocan in vivo and that interactions between chondroitin sulfate proteoglycans and tenascin may play important roles in nervous tissue histogenesis, possibly by modulating signal transduction across the plasma membrane.
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PMID:Interactions with tenascin and differential effects on cell adhesion of neurocan and phosphacan, two major chondroitin sulfate proteoglycans of nervous tissue. 751 60

The Alzheimer amyloid precursor (APP) protein is a member of a family of glycoproteins that includes the amyloid precursor-like proteins (APLPs). Previously, we showed that in C6 glioma cell cultures, secreted APP nexin II occurs as the core protein of a chondroitin sulfate proteoglycan (CSPG). Here, we report that among seven untransfected cell lines, expression of secreted APP CSPG was restricted to two cell lines of neural origin, namely, C6 glioma and Neuro-2a neuroblastoma (N2a) cells. Addition of dibutyryl cyclic AMP in N2a cultures, a treatment that induces the neuronal phenotype in these cells, resulted in a significant reduction in the amount of the secreted APP CSPG, although secretion of APP was only marginally affected. Growth in the presence of serum increased the size of the secreted APP CSPG, suggesting that the number and/or length of the chondroitin sulfate (CS) chains attached to the core APP varies with growth conditions. Extensive mapping with epitope-specific antibodies suggested that a CS chain is attached within or proximal to the A beta sequence of APP. In contrast to the restricted expression of the APP CSPG, expression of secreted APLP2 CSPGs was observed in all cell lines examined. After chondroitinase treatment, two core proteins of approximately 100 and 110 kDa were obtained that reacted with an APLP2-specific antiserum, suggesting that non-transfected cell lines contain at least two endogenous APLP2 CSPGs, probably derived by alternative splicing of the APLP2 KPI domain. The fraction of the APLP2 proteins in the CSPG form was dependent on the particular cell line examined.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Expression of the chondroitin sulfate proteoglycans of amyloid precursor (appican) and amyloid precursor-like protein 2. 761 33

Appicans are secreted and cell-associated chondroitin sulfate proteoglycans containing Alzheimer amyloid precursor (APP) as their core protein. Appicans are found in brain tissue, and in cell cultures their expression depends on both cell type and growth conditions. Here we report that the core protein of appicans derives from an APP mRNA lacking exon 15. Splicing out of this exon creates a new consensus sequence for the attachment of a chondroitin sulfate chain in the resulting APP product. Transfection of C6 glioma or 293 kidney fibroblast cells with APP cDNAs containing exon 15 produced no appican, while transfection with an APP cDNA lacking this exon induced high levels of appican production. Polymerase chain reactions indicated that appican-producing cells contained an APP mRNA species without exon 15, whereas cells without this mRNA produced no appican. Site-directed mutagenesis combined with immunoreactivity experiments showed that the chondroitin sulfate chain is attached to a serine residue 16 amino acids upstream of the amino terminus of the A beta sequence of APP. The attachment of a glycosaminoglycan chain close to the A beta sequence of APP may affect the proteolytic processing of APP and production of A beta. The proteoglycan nature of APP suggests that addition of the chondroitin sulfate glycosaminoglycan is important for the implementation of the biological function of these proteins.
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PMID:The chondroitin sulfate attachment site of appican is formed by splicing out exon 15 of the amyloid precursor gene. 773 70

Recent studies showed that the Alzheimer amyloid precursor (APP) occurs as the core protein of a chondroitin sulfate proteoglycan (appican) in C6 glioma cells. In the present study we show that appican is present in both human and rat brain tissue. Cortical rat brain cell cultures were used to identify appican-producing cells. Soluble secreted and cell-associated appican was produced by mixed glial cultures but not by primary neuronal cultures. Among the three major glial cell types, astrocytes produced high levels of appican, while oligodendrocytes failed to produce any. Only low levels of this molecule were occasionally detected in microglial cultures. Expression of appican in astrocyte cultures was regulated by the composition of the growth media. N2a neuroblastoma cells also produced appican; however, treatment with dibutyryl cAMP which promotes neuronal differentiation in these cells inhibited its production without inhibiting synthesis of APP. In contrast to the restricted expression of appican, APP was present in all cultures, and its production was independent of appican synthesis. Neuronal cultures produced mainly APP695 while glial cultures produced the Kunitz type protease inhibitor containing APP. The astrocyte-specific expression of appican suggests a function distinct from the function of APP. Brain appicans may play a role in the development of Alzheimer disease neuropathology.
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PMID:The Alzheimer amyloid precursor proteoglycan (appican) is present in brain and is produced by astrocytes but not by neurons in primary neural cultures. 774 33

We have cloned an alternatively spliced glycosaminoglycan attachment domain (GAG-alpha) of human versican from cDNA libraries derived from U251MG glioma cells. Inserted carboxyl-terminal of the hyaluronan-binding region, this domain adds another 987 amino acids to the original versican (V1) core protein giving rise to the large V0 isoform with 3396 amino acids and 17-23 putative glycosaminoglycan attachment sites. The GAG-alpha domain is encoded by exon 7 of the human versican gene (Naso et al., J. Biol. Chem., 32999-33008). Sequence comparisons revealed a slight similarity to the alternative splice domain of PG-M, further supporting the notion that PG-M is the chicken homologue of versican. On immunoblots of a proteoglycan preparation from U251MG culture medium, anti-GAG-alpha antibodies reacted exclusively with the larger of two versican core proteins recognized by antibodies against the original GAG-beta domain. Using reverse transcription-polymerase chain reaction, we detected both the V0 and V1 isoforms in the cerebral cortex, aorta, intervertebral disc, liver, myometrium, and prostate, whereas keratinocytes exclusively expressed versican V1. In brain tissue, we identified a short versican variant (V2) including only the GAG-alpha domain. By expressing particular splice forms of versican, cells may control the hydration properties of their pericellular hyaluronan coat and thus could modulate interactions with the extracellular matrix or neighboring cells.
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PMID:A novel glycosaminoglycan attachment domain identified in two alternative splice variants of human versican. 780 29

NG2 is a membrane-associated chondroitin sulfate proteoglycan with a core protein of 300 kD. Previously it was shown immunochemically that the core protein of NG2 can bind type VI collagen (Stallcup, W., Dahlin, K., and P. Healy. 1990. J. Cell Biol. 111:3177-3188). We have extended our studies on the interaction of NG2 and type VI collagen by transfecting cells with the full-length rat NG2 cDNA. B28 rat neural cells and U251MG human glioma cells used for transfection do not synthesize NG2. Both cell lines secrete type VI collagen into tissue culture medium but do not anchor it at the cell surface. Upon transfection of these cells with the NG2 cDNA, NG2 was correctly localized to the cell surface. Furthermore, type VI collagen could now be detected on the surface of NG2-positive cells in a pattern that coincided with that of NG2. This ability of NG2 to anchor type VI collagen to the cell surface could be abolished by incubating the cells in the presence of anti-NG2 monoclonal antibodies. These findings indicate that NG2 functions as a cell surface receptor for type VI collagen and may play a role in modulating the assembly of pericellular matrix.
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PMID:Expression of NG2 proteoglycan causes retention of type VI collagen on the cell surface. 830 32


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