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

Gliomas are known to express over a hundred antigens, and no doubt make many more unknown antigens. Major categories of glioma cell antigens include glial antigens, ECM antigens, muscle antigens, melanoma antigens, "tumor-specific" antigens, and cellular proliferation antigens. A strikingly low number of cultured gliomas express glial antigens. They commonly express not only ectodermal, but also mesenchymal ECM antigens. Tumor-specific antigens have been an elusive goal of neuro-oncologists, but there are bright new prospects in need of further study. These include direct screening of hybridoma supernatants on glioma tissue and targeting glycolipids, glycoproteins, and oncogene products. Cellular proliferation antigens will become increasingly important in predicting prognosis of gliomas. Proliferation antigens of cultured gliomas are under intense scrutiny at present. The extent and evolution of antigenic heterogeneity of neoplastic cells in gliomas raise basic biologic questions with profound clinical ramifications. Individual glioma cell lines may generate more than 30 subtypes of cells with minor to major differences in antigen expression. These include expression of antigens representing multiple different cell lineages. Mesenchymal drift is the tendency of gliomas to progressively lose glial and gain mesenchymal features. Models of in vivo mesenchymal drift occur in glioma cell culture where mechanisms are more easily investigated than in situ. Neither exogenous protein absorption nor fibroblast overgrowth explain the phenomenon. Cells with the mesenchymal marker, fibronectin, overgrow GFAP-positive cells during explanation of gliomas. Many of these fibronectin-positive cells express cytologic and growth characteristics of neoplasia. The source of these cells is unknown. A leading candidate for the source of these neoplastic fibronectin-positive cells is the proliferation of vascular and mesenchymal cell elements of glioma tissue commonly called "endothelial proliferations". However, these elements in tissue do not display the same abnormalities of neoplasia as the fibronectin-positive cells in culture. Understanding this "tissue/explant paradox" may solve the conundrum of mesenchymal drift. In the absence of a counterpart in tissue of these neoplastic fibronectin-positive cells so abundant in glioma cell cultures, mechanisms of mesenchymal drift other than overgrowth of neoplastic mesenchyme must be considered. The occurrence of "dual cells" which express antigenic markers of entirely different cellular lineages suggests the possibility that neoplastic glia generate mesenchymal drift by altered gene expression. Various studies which suggest the capacity of cultured gliomas to alter phenotypic expression of their genes are critically examined and their relevance to mesenchymal drift discussed.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Patterns of antigenic expression of human glioma cells. 193 88

Antigen expression in a human glioblastoma was investigated by immunochemical methods in the primary tumor, the first and second recurrence, a permanent cell line derived from the first recurrence and in its xenotransplantation tumors. In the primary tumor, GFAP, vimentin, S100, Leu-7 and glioma-associated antigens (GAA) as defined by the monoclonal antibodies (mAbs) MUC 2-39, MUC 8-22 and MUC 2-63 were markedly expressed. In the recurrences, gradual loss of GFAP and Leu-7 could be observed, whereas S100, vimentin and GAA gave similar results to those in the primary tumor. In contrast, fibronectin and collagen IV, which were restricted to the vessel walls in the primary tumor, were represented in sarcomatous areas of the recurrences. In some of these areas, co-expression of glial cell markers was observed. In short-term cell cultures, expression of glia- and glioma-associated antigens as well as fibronectin and collagen IV was comparable to that of the recurrent tumor tissue. In long-term passages, immunoreactivity of GFAP, Leu-7 and S100 decreased, whereas GAA, vimentin and fibronectin increased. Collagen IV positive cells were not visible beyond passage 15. Transplantation tumors were only partly positive for glial cell markers, but revealed strong immunoreactivity for GAA, fibronectin and collagen IV. With these observations we confirm that the phenotypic variability of glioma cells makes it difficult to identify the origin of cells in human glioblastomas from their antigenicity.
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PMID:Antigen variation in a human glioblastoma: from the primary tumor to the second recurrence, permanent cell line and xenotransplantation tumors. 206 11

Sodium butyrate has been shown to inhibit the growth and induce the differentiation of F-98 rat glioma cells. In agreement with the morphological changes, we have found that mRNAs for fibronectin and collagen in these cells could be reversibly induced by butyrate. While Ki-ras mRNA levels remained relatively unchanged, mRNAs for fos and sis increased significantly during the course of butyrate induced differentiation. c-fos induction can be detected 30 min after butyrate addition, a peak level (greater than 20 fold) was reached at 2 h, with a subsequent gradual decline. c-sis induction was detectable 24 h after butyrate exposure, at which time the cells have assumed morphological transition. Interestingly, the sis mRNA induction was not reversible upon butyrate withdrawal. The sis mRNA half-life increased from 40 min in the untreated cells to 100 min in the butyrate induced cells indicating that the increase in the stability of sis mRNA contributed, at least in part, to the elevated levels of sis expression. These findings demonstrate a coordinated induction of fibronectin and collagen genes in the butyrate-treated F-98 cells. In addition, fos and sis transcripts were differentially induced; a rapid and transient induction of fos followed by an irreversible induction of sis at a later stage of differentiation.
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PMID:Induction of fos and sis proto-oncogenes and genes of the extracellular matrix proteins during butyrate induced glioma differentiation. 210 2

The immunocytochemical staining patterns of cultured glioma cells were investigated. Fifty nine individual cases were stained at different in vitro ages for glial fibrillary acidic protein, fibronectin, galactocerebroside, HNK-1/Leu 7, A2B5, vimentin, factor VIII and A4. Histologically, the cases were composed of eight low-grade astrocytomas, 11 high-grade astrocytomas, four low-grade oligodendrogliomas, seven high-grade oligodendrogliomas and 29 glioblastomas. The 45 cases were analysed within the first 3 weeks of culture, many of them as primary cultures. In 11 cases stainings were performed repeatedly at intervals of up to 6 months. Glial fibrillary acidic protein staining was positive in most of the early cultures of astrocytomas (low and high grade) and glioblastomas; expression in more than 50% of the cells was found in 1 of 5 low-grade astrocytomas, 5 of 11 high-grade astrocytomas and 14 of 29 glioblastomas. Two of the high-grade astrocytomas were stained once more after 6 weeks in culture and were found to be only 1% positive for glial fibrillary acidic protein but strongly positive for fibronectin. The same was true for five of the glioblastoma cases. Two of these cases remained glial fibrillary acid protein positive and developed into stable permanent cell lines. Only one case started with 1% of glial fibrillary acidic protein positive cells and later developed into a 99% glial fibrillary acidic protein positive cell line. Neither HNK-1/Leu 7 expression nor A2B5 staining appeared to have a relationship to the glial fibrillary acidic protein staining. It was observed that glial fibrillary acidic protein and HNK-1/Leu 7 were both 100% in some cases but that later one of the two antigens disappeared but not the other. The amount of glial fibrillary acidic protein staining does not allow the prediction of A2B5 staining. The study shows that initiation of primary cultures on an extracellular matrix yields more glial fibrillary acidic protein positive cells in primary cultures than have been found in other studies. It is concluded that only a rigid standardization of culture conditions will ensure the validity of comparisons of in vitro data obtained in primary cultures.
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PMID:Antigenic staining patterns of human glioma cultures: primary cultures, long-term cultures and cell lines. 224 42

Long term in vitro cultures of six human malignant gliomas were established to obtain permanent lines and to assess, under conditions of prolonged culture, changes in morphology and phenotype of neoplastic cells and the extent of these modifications. We analyzed expression of the following markers by immunocytochemistry: glioma-specific antigens (GE2 and CG12), fibronectin, intermediate filaments (GFAP, vimentin, neurofilaments), class I and II histocompatibility antigens (HLA-ABC and HLA-DR), growth factor and receptor (alpha TGF and EGF-receptor), proliferation-associated antigen (Ki-67). Strong and stable staining with the two antiglioma monoclonal antibodies (GE2 and CG12) was seen, with coexpression of GFAP and fibronectin in five of six cell lines (after 20 passages) and presence of vimentin and neurofilaments. HLA-DR expression was heterogeneous, with a peculiar intracellular compartmentation in four of six cell lines. Cells showed clear cytoplasmic positivity for alpha TGF and strong membrane staining for EGF-receptor. In previous studies we showed that these cell lines have increased copies of chromosome 7; therefore we speculate that an autocrine pathway of stimulation may maintain the neoplastic growth. The percentage of Ki-67 positive proliferating cells ranged from 40 to greater than 60%, depending on cell line and passage. A slight decrease in the positivity of some markers (GFAP, vimentin and HLA-DR in 2/6 cell lines) was observed after prolonged in vitro culture (greater than 12 months), but morphophenotypic modifications, established within a few passages after explanation, were maintained with time. A clonogenic assay showed values of plating efficiency (PE) higher than corresponding values of other similar cell lines with a tendency to increase in the late passages. PE and Ki-67 positivity were not associated with tumorigenicity into nude mice (except the Hu 197 cell line). These results indicate that, in culture, all six cell lines acquired stable morphology, a well defined antigenic phenotype and high growth rate. Further studies will be performed on these permanent cell lines to clarify differentiation steps of malignant gliomas.
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PMID:Morphological heterogeneity and phenotype modifications during long term in vitro cultures of six new human glioblastoma cell lines. 233 Jun 9

The effects of a partially purified rat interferon (RIF) on cell lines cloned from a chemically induced rat glioma (A15A5) and normal rat brain (ARBOC9) were investigated. Interferon treatment reduced the rate of exponential growth and saturation density of both cell lines, but induced contrasting morphological changes. A15A5 cells became bipolar, developed longer processes and produced less extracellular fibronectin, whereas ARBOC9 cells became enlarged, showed increased multinuclearity, expressed more fibronectin and contained actin-like cytoplasmic filaments. These findings demonstrate that RIF has an antiproliferative activity in vitro on both neoplastic and non-neoplastic astrocytes, but that morphological and immunocytochemical responses differ.
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PMID:The effects of interferon on glial cells. 244 49

Tenascin is an extracellular matrix glycoprotein expressed in association with mesenchymal-epithelial interactions during development and in the neovasculature and stroma of undifferentiated tumors. This selective expression of tenascin indicates a specific role in cell matrix interactions. We now show that tenascin can support the adhesion of a variety of cell types, including various human tumor cells, normal fibroblasts, and endothelial cells, all of which can attach to a substrate coated with tenascin. Detailed studies on the mechanism of the tenascin-promoted cell attachment were carried out with the human glioma cell line U251MG. The attachment of these cells and others to tenascin were inhibited specifically by peptides containing the RGD cell attachment signal. Affinity chromatography procedures similar to those that have been used to isolate other adhesion receptors yielded a heterodimeric cell surface protein which bound to a tenascin affinity matrix in an RGD-dependent fashion. One of the subunits of this putative tenascin receptor comigrates with the beta subunit of the fibronectin receptor in SDS-PAGE and cross reacts with antibodies prepared against the fibronectin receptor in immunoblotting. These results identify the tenascin receptor as a member of the fibronectin receptor family within the integrin superfamily of receptors. The cell attachment response on tenascin is distinctly different from that seen on fibronectin, suggesting that cell adhesion and motility may be modulated at those sites where tenascin is expressed in the extracellular matrix.
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PMID:Tenascin mediates cell attachment through an RGD-dependent receptor. 246 38

Cell-substratum adhesion strengths have been quantified using fibroblasts and glioma cells binding to two extracellular matrix proteins, fibronectin and tenascin. A centrifugal force-based adhesion assay was used for the adhesive strength measurements, and the corresponding morphology of the adhesions was visualized by interference reflection microscopy. The initial adhesions as measured at 4 degrees C were on the order of 10(-5)dynes/cell and did not involve the cytoskeleton. Adhesion to fibronectin after 15 min at 37 degrees C were more than an order of magnitude stronger; the strengthening response required cytoskeletal involvement. By contrast to the marked strengthening of adhesion to FN, adhesion to TN was unchanged or weakened after 15 min at 37 degrees C. The absolute strength of adhesion achieved varied according to protein and cell type. When a mixed substratum of fibronectin and tenascin was tested, the presence of tenascin was found to reduce the level of the strengthening of cell adhesion normally observed at 37 degrees C on a substratum of fibronectin alone. Parallel analysis of corresponding interference reflection micrographs showed that differences in the area of cell surface within 10-15 nm of the substratum correlated closely with each of the changes in adhesion observed: after incubation for 15 min on fibronectin at 37 degrees C, glioma cells increased their surface area within close contact to the substrate by integral to 125-fold. Cells on tenascin did not increase their surface area of contact. The increased surface area of contact and the inhibitory activity of cytochalasin b suggest that the adhesive "strengthening" in the 15 min after initial binding brings additional adhesion molecules into the adhesive site and couples the actin cytoskeleton to the adhesion complex.
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PMID:Cell adhesion to fibronectin and tenascin: quantitative measurements of initial binding and subsequent strengthening response. 247 81

Glia-derived nexin (GDN) is a 43 kd cell-secreted protease inhibitor with neurite promoting activity. We have raised specific polyclonal antisera to rat GDN. These antibodies stain a single band at 43 kd on immunoblots of concentrated C6 glioma-conditioned medium and have been used to demonstrate that GDN is present in the olfactory system of the rat. One band at 43 kd is recognized by the GDN antibodies on immunoblots of olfactory bulb homogenate. Immunohistochemistry shows that GDN occurs predominantly in the olfactory nerve layer of the olfactory bulb and in the olfactory submucosa. Comparative studies with antibodies against vimentin, GFAP, and fibronectin suggest that anti-GDN recognizes cells associated with the olfactory system, but not exclusively the olfactory neurons themselves. Data from the immunohistochemical studies were confirmed by RNA blots and GDN mRNA expression throughout development of the olfactory bulb. The high levels of GDN in the rat olfactory system may be related to the continuous degeneration and regeneration phenomena taking place in these structures.
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PMID:Detection of glia-derived nexin in the olfactory system of the rat. 248 98

Tenascin is an extracellular matrix glycoprotein with an unusually restricted tissue distribution in the developing embryo. The protein was independently discovered by several investigators, and has been given many different names. Synonyms of tenascin include cytotactin, J1, hexabrachion and glioma-mesenchymal extracellular matrix antigen. Whereas fibronectin is expressed rather uniformly in matrices of embryonic mesenchyme, tenascin is found in the mesenchyme at sites of epithelial-mesenchymal interactions. Tenascin is thus found close to epithelial basement membranes but it is probably not an integral basement membrane component. The distribution suggests that developing epithelial cells may produce locally active factors that stimulate tenascin synthesis in the nearby mesenchyme. Tenascin is composed of disulfide-bonded subunits of approximate Mr between 200-280 kD. Using monoclonal antibodies to mouse tenascin, we find two major subunits of Mr 260 and 200 kD from mouse fibroblasts. Work from many laboratories suggests that the different subunits arise by differential splicing of one mRNA. Rotary shadowing electron microscopy of the intact molecule suggests a six-armed structure connected by a central region. However, the different subunits are not co-ordinately expressed during embryogenesis, suggesting that tenascin can exist as different isoforms. The different isoforms may serve distinct functions. The function of tenascin is not well known, but it has been suggested that it alters the adhesive properties of cells and causes cell rounding.
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PMID:Stimulation of tenascin expression in mesenchyme by epithelial-mesenchymal interactions. 248 80


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