UMLS:C0027819 - FACTA Search

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Query: UMLS:C0027819 (neuroblastoma)
27,800 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We investigated the adhesion of three morphologically distinct human neuroblastoma cell lines (NCG, GOTO and SK-N-DZ) to intact fibronectin, central cell binding domain fragment (CBF) and CS peptide-IgG conjugates in the fibronectin molecule. Each cell line was found to express different integrin fibronectin receptors (alpha 3 beta 1, alpha 4 beta 1 and alpha 5 beta 1), although similarly attached on intact fibronectin. To CBF, NCG attached well, while GOTO moderately and SK-N-DZ poorly attached. Only GOTO adhered to CS1-IgG. RGDS inhibited the spreading of NCG and SK-N-DZ on intact fibronectin, but it barely inhibited that of GOTO. The analysis by fluorescence-activated cell sorting (FACS) revealed that NCG expressed abundant alpha 3 beta 1 and alpha 5 beta 1, but little alpha 4 beta 1, while GOTO expressed a large amount of alpha 4 beta 1 as well as alpha 5 beta 1. SK-N-DZ was undetectable in any of these molecules, but expressed alpha v beta 1, which was identified by immunoprecipitation and immunoblotting. Polyclonal antibody to alpha v beta 3 inhibited the adhesion of SK-N-DZ but not that of NCG or GOTO on intact fibronectin. These results suggest the existence of a distinct mechanism of cell adhesion to fibronectin among human neuroblastoma cell lines. It remains to be determined if such heterogeneous adhesion properties are related to the unique metastatic character of human neuroblastoma.
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PMID:Distinct mechanism of human neuroblastoma cell adhesion to fibronectin. 183 Oct 74

Retinoic acid (RA) is known to induce differentiation of neuroblastoma cells in vitro. Here we show that treatment of two human neuroblastoma cell lines, SY5Y and IMR32, with RA resulted in a fivefold increase of the integrin alpha 1/beta 1 expression. The effect was selective because expression of the alpha 3/beta 1 integrin, also present in these cells, was not increased. The up-regulation of the alpha 1/beta 1 differentiated SY5Y cells correlated with increased neurite response to laminin. In fact, RA-treated SY5Y cells elongated neurites on laminin-coated substratum more efficiently compared with untreated cells or cells treated with nerve growth factor, insulin, or phorbol 12-myristate 13-acetate. These three agents induced partial morphological differentiation but did not increase alpha 1 integrin expression. Neurite extension in RA-treated cells was more efficient on laminin than on fibronectin or collagen type I and was inhibited with beta 1 integrin antibodies on all three substrates. Affinity chromatography experiments showed that alpha 1/beta 1 is the major laminin receptor in both untreated and RA-treated SY5Y cells. These data show that RA, a naturally occurring morphogen implicated in embryonic development, can selectively regulate the expression of integrin complexes in neuronal cells and suggest an important role of the alpha 1/beta 1 laminin receptor in the morphological differentiation of nerve cells.
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PMID:Up-regulation of the integrin alpha 1/beta 1 in human neuroblastoma cells differentiated by retinoic acid: correlation with increased neurite outgrowth response to laminin. 183 59

The maturation of embryonal neural crest cells is thought to be regulated in part by the milieu into which these cells migrate. Neuroblastoma (NB) is a tumor of very early childhood that is thought to arise in association with the arrested differentiation of embryonal neural crest cells. In culture, neuroblastoma tumor cells differentiate in the presence of retinoic acid, which is also known to influence extracellular matrix protein synthesis. We have cultured neuroblastoma cells on laminin (LN) and fibronectin (FN) substrata to examine the role of extracellular matrix in retinoic acid (RA)-induced differentiation of these tumor cells. These proteins caused morphologic changes in NB cells indistinguishable from those caused by RA. Antiserum to each of these proteins blocked the effects induced by the corresponding protein, but neither antiserum affected the action of RA. Despite the induction of a neuronal morphologic change, matrix proteins did not alter the proliferation of NB cells. These results indicate that LN and FN modulate the differentiation of NB cells without inducing growth arrest and that RA-induced differentiation does not require these matrix proteins.
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PMID:Matrix proteins induce neuroblastoma cell differentiation without altering cell growth. 191 May 26

Cellular interactions with fibronectin-treated substrata have a complex molecular basis involving multiple domains. A carboxy-terminal cell and heparin binding region of fibronectin (FN) is particularly interesting because it is a strong promoter of neurite outgrowth (Rogers, S.L., J.B. McCarthy, S.L. Palm, L.T. Furcht, and P.C. Letourneau, 1985. J. Neurosci. 5:369-378) and cell attachment (McCarthy, J.B., S.T. Hagen, and L.T. Furcht. 1986. J. Cell Biol. 102:179-188). To further understand the molecular mechanisms of neuronal interactions with this region of FN, we screened two peptides from the 33-kD heparin binding fragment of the FN A chain, FN-C/H II (KNNQKSEPLIGRKKT) and CS1 (Humphries, M.J., A. Komoriya, S.K. Akiyama, K. Olden, and K.M. Yamada. 1987. J. Biol. Chem. 262:6886-6892), for their ability to promote B104 neuroblastoma cell-substratum adhesion and neurite outgrowth. Both FN-C/H II and CS1 promoted B104 cell attachment in a concentration-dependent and saturable manner, with attachment to FN-C/H II exceeding attachment to CS1. In solution, both exogenous FN-C/H II or CS1 partially inhibited cell adhesion to the 33-kD fragment. Similar results were obtained with anti-FN-C/H II antibodies. In contrast, soluble GRGDSP did not affect B104 cell adhesion to FN-C/H II. These results indicate that both FN-C/H II and CS1 represent distinct, RGD-independent, cell adhesion-promoting sites active within the 33-kD fragment, and further define FN-C/H II as a novel neural recognition sequence in FN. B104 adhesion to FN-C/H II and CS1 differs in sensitivity to heparin, yet each peptide inhibited adhesion to the other peptide, suggesting cell adhesion is somehow related at the cellular level. Within the A chain 33-kD fragment, FN-C/H II and CS1 are contiguous, and might represent components of a larger domain with greater neurite-promoting activity since only the 33-kD fragment, and neither individual peptide, was effective at promoting B104 neurite outgrowth. These data further support the hypothesis that cell responses to FN are mediated by multiple sites involving both heparin-sensitive and -insensitive mechanisms.
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PMID:Recognition of the A chain carboxy-terminal heparin binding region of fibronectin involves multiple sites: two contiguous sequences act independently to promote neural cell adhesion. 227 84

Clones of F11 hybrid (neuroblastoma X dorsal root neuron) cells have been tested for adherence and neurite outgrowth on three different substrata on which the parental cells display some competence--plasma fibronectin (pFN) with its multiple receptors, cholera toxin subunit B(CTB) as a model ganglioside GM1-binding substratum, and platelet factor-4 (PF4) as a model proteoglycan-binding substratum. This paradigm tests for independently segregating and overlapping mechanisms of neuritogenesis via transmembrane processes in pluripotent hybrid cells based on random loss of chromosomes contributed by the parent neural cells. For the nine clones tested, attachment was significantly lower on CTB but much higher on PF4 for all clones when compared to their attachment on pFN. Supplementation of cells with GM1 stimulated attachment of only two clones (on all three substrata). Neurite outgrowth was observed in a substratum-specific pattern and varied from 0 to greater than 60% on pFN; on CTB and PF4 substrata, the patterns were similar to each other but differed markedly from the pattern on pFN. In contrast, PF4- and CTB-directed neurites differed morphologically from each other while sharing some characteristics with neurites on pFN. Supplementation with GM1 or GT1b, but not GD1a, was inhibitory for neurite outgrowth in certain clones. Cycloheximide pretreatment distinguished several classes of clones based on inhibition of neuritogenesis. While most clones on pFN were unaffected, all clones on CTB and PF4 displayed significant and comparable degrees of inhibition, suggesting the sharing of some protein intermediate(s) on these substrata. Exposure to cycloheximide only during the active period of neuritogenesis generated higher percentages and longer neurites for all clones, indicating a widely-used negative regulation mechanism. Based on substratum type and cycloheximide protocols, these data have resolved six or more different transmembrane signalling processes for generating different classes of neurites. Some mechanisms have been segregated into individual clones while others overlap in other clones, providing cell systems for biochemical and molecular biological dissection of these processes.
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PMID:Clonal segregation of multiple and overlapping matrix adhesive responses in dorsal root neuronal derivative cells. 233 51

Some neuron-derived cells, such as neuroblastoma cells, adhere and extend neurites on fibronectin (FN) substrata by processes that can be independent of binding to the Arg-Gly-Asp-Ser sequence (RGDS in FN) and independent of proteoglycan/ganglioside-binding activities of FN. Proteolytic fragments of various FNs have been used in this study to map a new adhesion-promoting domain in FNs that may be neural cell-specific. A thermolysin-generated fragment of human plasma FN (F110 containing the RGDS domain) or the analagous fragment from transformed human cell FN (F120, also containing the alternately spliced extra domain b[EDb]) facilitate RGDS-independent adherence and neurite extension of human neuroblastoma cells and an F11 hybrid neuronal line (by fusion of mouse neuroblastoma cells with rat dorsal root ganglion neurons) as effectively as adherence and neurite extension on intact FN. Since neither F110 nor F120 contains sequences from the alternately spliced IIICS region of FN, neurite-promoting activity in these fragments cannot be ascribed to a recently discovered cell-binding domain in this region. Furthermore, F120 could be cleaved into two subfragments retaining virtually all the sequence of the parent fragment: F35 from the C terminus of F120 containing the RGDS domain, and F90 from the N terminus containing most of the EDb region bordering the thermolysin cleavage site. These neuronal cells could adhere but not extend neurites on substrata coated with either F35 or F90 alone while 3T3 cells could adhere only on F35. Mixtures of F35 and F90 on substrata could reconstitute some, but not nearly all, of the neurite-promoting activity of F120. Therefore, these data identify a new cell-binding domain in common sequences of FNs on the N-terminal side of EDb and demonstrate cooperativity between this RGDS-independent domain and the RGDS-dependent domain for maximal differentiation of these neuron-derived cells. Several possibilities for a receptor directed to this new domain are discussed.
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PMID:Requirement for two different cell-binding domains in fibronectin for neurite extension of neuronal derivative cells. 235 3

Initial studies described the significance of heparan sulfate proteoglycans of Balb/c 3T3 cells in their adhesion on fibronectin matrices, including their binding to multiple domains in FN, the importance of this binding in microfilament and close contact formation, and the cooperativity of both HS-PG and 140k glycoprotein integrin's binding to FN to achieve tight-focal contacts under cells. These analyses utilized model HS-binding proteins, such as platelet factor 4, and proteolytic fragments of FN with differing binding activities in both cell biological analyses of adhesion responses and in biochemical analyses of the HS-PG in the adhesion sites. In contrast, dermatan sulfate proteoglycans (DS-PG) inhibit 3T3 adhesion on FN but not on collagen; of special note is the discovery that certain integrin-binding fragments of FN also contain a third HS/DS-binding domain that is cryptic and that provides a more effective mechanism for inhibiting integrin: FN binding. Kirsten Ras oncogene-transformed 3T3 cells and their nude-mouse-derived primary or lung metastatic tumors are also being analyzed by similar approaches. HS-PGs in the adhesion sites of these tumor populations undergo extensive catabolism, resulting in alteration of their binding to FN affinity columns (and by implication alteration in adhesion responses of these tumor cells on FN matrices). Functions for HS-PG on the surface of neuronal cell derivatives, e.g., neuroblastoma cells derived from the neural crest of the embryo and potentially related in some ways to peripheral neurons, are also being explored. HS-binding fragments of FN or PF4 facilitate attachment and spreading of neuroblastoma cells but not neurite outgrowth, contrasting with the ability of dorsal root ganglion neurons to extend neurites on HS-binding substrata. The catabolism of HS-PG in neuroblastoma adhesion sites is minimal, indicating that this cannot be the explanation for incompetence in neurite extension. Neurite extension by neuroblastoma cells on FN results from three different and overlapping binding activities of non-PG receptors on the cell surface--RGDS-dependent binding to integrin, an RGDS-independent mechanism (perhaps a cell type-specific domain), and a ganglioside-dependent process. However, these neurite-extending reactions can be modulated either by exogenous addition of proteoglycans acting in a "trans" manner with the cell surface or by endogenous HG-PG acting in a "cis" manner with one or more of these receptors.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Heparan sulfate proteoglycans of Ras-transformed 3T3 or neuroblastoma cells. Differing functions in adhesion on fibronectin. 252 58

Previous studies of the human neuroblastoma cell line SK-N-SH had demonstrated the presence of and phenotypic interconversion (transdifferentiation) between two morphologically and biochemically distinct cell types: N (neuroblastic) cells with properties of noradrenergic neurons and S (substrate-adherent) cells with properties of melanocytes. Current studies have sought to test the generality of these findings among other cultured human neuroblastoma cell lines and to define further the S-cell phenotype and that of a newly identified, morphologically intermediate, I-type cell. Morphologically homogeneous populations (clonal sublines or subpopulations) of N, S, and I cells were isolated from five additional neuroblastoma cell lines and analyzed biochemically for neuronal, glial, and melanocytic marker enzyme activities and norepinephrine uptake. Immunoblot techniques were used to detect intermediate filament proteins (neurofilament protein, vimentin, glial fibrillary acidic protein) and fibronectin. All N-type cells exhibited neuronal marker enzyme activities, specific uptake of norepinephrine, and presence of one or more neurofilament proteins. S-type cells generally lacked neuronal characteristics but contained, instead, tyrosinase activity (a melanocytic marker enzyme), vimentin, and fibronectin. This combination of attributes is suggestive of a multipotent embryonal precursor cell of the neural crest. I-type cells differentially expressed both S- and N-cell properties and could represent either a stem cell or an intermediate in the transdifferentiation process. Studies of the biological significance of human neuroblastoma cell transdifferentiation and the molecular mechanisms underlying this process may be of relevance to the biological and clinical behavior of this tumor in the patient.
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PMID:Phenotypic diversification in human neuroblastoma cells: expression of distinct neural crest lineages. 253 91

Alterations in the structure and/or expression of oncogenes have been examined to comprehend better the relationship between metastasis and oncogenes. There are reports that amplification and overexpression of N-myc (human neuroblastoma) and erbB-2 (human breast cancer) are closely related to malignant progression. On the other hand, DNA transfer experiments have also been done to assess involvement of oncogenes in metastasis. The active ras oncogenes, which are frequently used, show that transfer of the ras oncogenes endow and/or enhance the metastatic potential of the recipient cells. In addition to the phenomenological studies to determine whether an oncogene alters metastatic potential, increasing attention has been directed to possible phenotypic changes relating to metastasis and affected by oncogenes. It has been clarified that transfer of a certain oncogene, such as ras and fos, alters the expression of biomolecules, for example, metalloproteinases responsible for invasion, autocrine motility factors and cytoskeletal proteins related to cell motility, receptors of fibronectin for cell attachment, and histocompatibility antigens, such as H-2K and H2-D. While further characterization of the biomolecular changes induced by the oncogenes has to be done, the mechanisms of alteration in the expression and function of biomolecules directly involved in the metastatic potential also should be paid attention.
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PMID:[Cancer metastasis and oncogenes]. 267 90

Very late antigen (VLA) 1 is a member of the family of integral plasma-membrane glycoproteins known as integrins. It is a heterodimer composed of an alpha subunit of Mr 200,000, noncovalently associated with a beta subunit of Mr 110,000 which is shared by other VLA molecules (VLA-2-5). Unlike most of the other VLA proteins which have been shown to be receptors for various extracellular matrix proteins, the ligand for VLA-1 is unknown. Utilizing polyclonal antisera against the human fibronectin receptor as well as alpha subunit-specific monoclonal antibodies and cDNA probes, we have been able to demonstrate that in two human neuroblastoma cell lines, IMR-32 and SK-N-SH, the common beta subunit is associated with alpha 1, alpha 2, alpha 3, and alpha 5 subunits. By culturing these two cell lines in the presence of a synthetic peptide, Gly-Arg-Gly-Asp-Ser-Pro, which contains the Arg-Gly-Asp cell attachment promotion tripeptide, we have isolated variant cell lines resistant to the detachment effects of this peptide. Peptide-resistant SK-N-SH and IMR-32 neuroblastoma cells exhibit weaker attachment to type I collagen and laminin, but a similar level of attachment to fibronectin as compared to the parental cells. Although the peptide-resistant variant cell lines proliferate at a rate similar to that of the parental cell lines, they stably overproduce (up to 20-fold) the alpha 1 subunit (VLA-1) specifically; and in the IMR-32 variant cells, the common beta 1 subunit is also overproduced. The level of expression of alpha 2 and alpha 3 subunits, however, is considerably reduced and that of the alpha 5 subunit is unchanged relative to the parental cells. These data suggest that the expression of integrin alpha subunits can be regulated differentially and independently of the beta subunit and that the VLA-1 heterodimer has an important function in mediating Arg-Gly-Asp-dependent cell adhesion or other phenotypic properties in human neuroblastoma cells.
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PMID:Specific overproduction of very late antigen 1 integrin in two human neuroblastoma cell lines selected for resistance to detachment by an Arg-Gly-Asp-containing synthetic peptide. 278 39

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