UMLS:C0178874 - FACTA Search

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Query: UMLS:C0178874 (tumor progression)
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Since the introduction of standardized chemotherapy protocols of osteosarcoma a lot of new aspects in prognosis and curability of these have best developed. Current subclassification which divided osteosarcoma into a conventional type and eleven important recognizable varieties is one of the reason for this success. Cytological grading also serves as a good indicator for the prognosis and is an important criterion for application of adjuvant chemotherapy. Several structure proteins of the extracellular matrix have gained importance in making the diagnosis of an osteosarcoma. Immunohistochemically and biochemically evaluations could show that different collagenous-proteins can be useful for the differential diagnosis of bone tumors. The integration of molecular pathologic methods into the structural morphologic findings will be helpfull in the identification of mutated structure proteins. Oncogenes and tumor suppressor genes are of major importance for the tumorigenesis of osteosarcoma. The prognostic significance of the inactivation of p53 and RBI gene remains to be elucidated. Resistance to chemotherapy is the major mechanism responsible for the failure of osteosarcoma treatment. The main cause for this failure is multidrug resistance, which is often related to a plasma membrane protein, the P-glycoprotein. Immunohistologic investigations of P-glycoprotein are not sufficient to demonstrate the possible association between overexpression of this protein and tumor progression.
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PMID:Current aspects of the pathology of osteosarcoma. 764 21

P-glycoprotein (Pgp) is a plasma membrane protein that was first characterised in multidrug resistant cell lines. The occurrence of Pgp in clinical tumors has been widely studied. Recent investigations have begun to focus on the relationship between Pgp detection in tumors and treatment outcome. In several types of tumors, detection of Pgp correlates with poor response to chemotherapy and shorter survival. P-glycoprotein over-expression often occurs upon relapse from chemotherapy but may also occur at the time of diagnosis. Studies of experimental rat liver carcinogenesis have shown that Pgp expression increases in late stages of carcinogenesis, suggesting that Pgp may be involved in tumor progression. While some of the Pgp isoforms are known to transport hydrophobic chemotherapeutic drugs out of tumor cells, the biologic effects of Pgp overexpression in tumor cells are not fully understood, because the spectrum of substrates for Pgp-mediated transport has not been determined. In the rat liver carcinoma model, strong expression of Pgp is associated with a highly vascular stroma, suggesting that Pgp in tumor cells may affect the connective tissue stroma. The regulation of Pgp appears to be complex, and little is known about how it is up-regulated during carcinogenesis. Further studies of the role of Pgp in malignancy may contribute to our understanding of molecular mechanisms which underlie tumor progression.
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PMID:P-glycoprotein, multidrug resistance and tumor progression. 792 52

Aberrant glycosylation expressed in glycosphingolipids and glycoproteins in tumor cells has been implicated as an essential mechanism in defining stage, direction, and fate of tumor progression. This general concept is supported by results from three lines of study: (a) Numerous clinicopathological studies have shown a clear correlation between aberrant glycosylation status of primary tumor and invasive/metastatic potential of human cancer as reflected by 5- or 10-year survival rates of patients. (b) Carbohydrates expressed in tumor cells are either adhesion molecules per se or modulate adhesion receptor function. Some are directly involved in cell adhesion. They are recognized by selectins or other carbohydrate-binding proteins or by complementary carbohydrates (through carbohydrate-carbohydrate interaction). N- or O-glycosylation of functionally important membrane components may alter tumor cell adhesion or motility in a direction that either promotes or inhibits invasion and metastasis. Examples of such receptors are E-cadherin, integrins, immunoglobulin family receptors (e.g., CD44), and lysosome-associated membrane protein. (c) Gangliosides and sphingolipids modulate transmembrane signaling essential for tumor cell growth, invasion, and metastasis. The transducer molecules susceptible to gangliosides and sphingolipids include integrin receptors, tyrosine kinase-linked growth factor receptors, protein kinase C, and G-protein-linked receptor affecting protein kinase A. Some glycosphingolipids (e.g., Gb3Cer, Le(y), ceramide, and sphingosine induce tumor cell differentiation and subsequent apoptosis. Shedded gangliosides may block immunogenicity of tumor cells, providing conditions favorable for "escape" from immunological suppression of tumor growth by the host. Various reagents that block carbohydrate-mediated tumor cell adhesion or block glycosylation processing have been shown to inhibit tumor cell metastasis. This provides the basis for further development of "anti-adhesion therapy." Ganglioside analogues and sphingolipid analogues that inhibit protein kinase C and receptor-associated tyrosine kinase have been applied for inhibition of metastasis. A crucial mechanism for inhibition of metastasis by these reagents may involve blocking of transmembrane signaling for expression of P- and E-selectin. This provides the basis for development of "ortho-signaling therapy."
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PMID:Tumor malignancy defined by aberrant glycosylation and sphingo(glyco)lipid metabolism. 896 75

The proteomic definition of plasma membrane proteins is an important initial step in searching for novel tumor marker proteins expressed during the different stages of cancer progression. However, due to the charge heterogeneity and poor solubility of membrane-associated proteins this subsection of the cell's proteome is often refractory to two-dimensional electrophoresis (2-DE), the current paradigm technology for studying protein expression profiles. Here, we describe a non-2-DE method for identifying membrane proteins. Proteins from an enriched membrane preparation of the human colorectal carcinoma cell line LIM1215 were initially fractionated by sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE, 4-20%). The unstained gel was cut into 16 x 3 mm slices, and peptide mixtures resulting from in-gel tryptic digestion of each slice were individually subjected to capillary-column reversed phase-high performance liquid chromatography (RP-HPLC) coupled with electrospray ionization-ion trap-mass spectrometry (ESI-IT-MS). Interrogation of genomic databases with the resulting collision-induced dissociation (CID) generated peptide ion fragment data was used to identify the proteins in each gel slice. Over 284 proteins (including 92 membrane proteins) were identified, including many integral membrane proteins not previously identified by 2-DE, many proteins seen at the genomic level only, as well as several proteins identified by expressed sequence tags (ESTs) only. Additionally, a number of peptides, identified by de novo MS sequence analysis, have not been described in the databases. Further, a "targeted" ion approach was used to unambiguously identify known low-abundance plasma membrane proteins, using the membrane-associated A33 antigen, a gastrointestinal-specific epithelial cell protein, as an example. Following localization of the A33 antigen in the gel by immunoblotting, ions corresponding to the theoretical A33 antigen tryptic peptide masses were selected using an "inclusion" mass list for automated sequence analysis. Six peptides corresponding to the A33 antigen, present at levels well below those accessible using the standard automated "nontargeted" approach, were identified. The membrane protein database may be accessed via the World Wide Web (WWW) at http://www.ludwig. edu.au/jpsl/jpslhome.html.
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PMID:Proteomic analysis of the human colon carcinoma cell line (LIM 1215): development of a membrane protein database. 1087 Sep 58

Matrix metalloproteinases (MMPs) play crucial roles in tumor progression. To investigate the roles of MMPs in the progression of nasopharyngeal carcinoma (NPC), the expression of MMP-1, MMP-2, MMP-3, MMP-7, MMP-12, MMP-13, MMP-14, and MMP-19 was explored by microarray assay. Among them, MMP-1 was significantly up-regulated in NPC biopsies. These results were confirmed further by real-time quantitative PCR in additional NPC biopsies and comparison with normal tissues and other head and neck cancers. Moreover, the use of RNA from different cellular constituents of NPC biopsies revealed that MMP-1 was detected predominantly in epithelial cells. Immunohistochemical staining of paraffin-fixed NPC sections confirmed that MMP-1 protein was expressed in the epithelial tumor cells. Because EBV is strongly associated with NPC formation, we sought a correlation between viral gene expression and MMP-1 up-regulation. The results showed clearly that the amounts of transcripts, proteins, and enzyme activities of MMP-1 were increased in cells expressing EBV proteins, LMP1 (latent membrane protein 1) and Zta (Z transactivator; also named as BZLF1 or ZEBRA) but not EBNA-1 (EBV nuclear antigen-1). Additionally, the mobility of LMP1 and Zta transfectants was increased in scrape-wound migration assays. The invasiveness and ability to survive in a three-dimensional collagen gel also were enhanced in LMP1- and Zta-expressing cells. Furthermore, anti-MMP-1 antibody and peptide inhibitors could block the invasiveness and survival properties of LMP1 and Zta transfectants, suggesting a real contribution of MMP-1 to cell mobility and survival. Taken together, our data show that the viral LMP1 and Zta proteins regulate the expression and activity of MMP-1, and thereby confer the invasive properties of the cells. This study presents the first evidence that viral proteins are capable of regulating MMP-1 and also provides clues for the role of EBV in NPC progression.
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PMID:Regulation of matrix metalloproteinase-1 by Epstein-Barr virus proteins. 1251 6

Tetraspanins are transmembrane adaptor proteins involved in the regulation of various fundamental cellular processes. For a number of malignant diseases, the level of expression of members of the tetraspanin family was found to correlate with tumor cell invasiveness, ability to form metastases, and poor clinical outcome. We describe the exact quantification of mRNAs coding for the tetraspanins CD9, CD63, CD82 and CD151 expressed by mammary carcinoma-derived cell lines that were classified as invasive or non-invasive according to their ability to penetrate collagen-fibroblast gels in vitro. The mean of beta2-microglobulin-normalized expression of CD9 was about 10-fold higher than the mean calculated for CD63 and about 20-fold higher than expression of CD82 and CD151. Direct comparison of tetraspanin expression of invasive and non-invasive cell lines with the Mann-Whitney test revealed a significant correlation for CD63. Grouping of cell lines in relation to threshold values of expression resulted in significant correlations for CD63 (Fisher's exact test p=0.004) and CD151 (p=0.02) but not for CD82 (p=0.065) and CD9 (p=0.168). Expression of CD9, C63 and CD151 was found to be coupled whereas CD82 was expressed independently. This highly significant association points to common mechanisms of gene regulation for this subgroup of tetraspanins. We showed that on basis of absolute amounts of tetraspanin mRNAs, at least in vitro invasiveness is clearly predictable. Our results support the assumption that downregulation of tetraspanins in breast cancer cells is an important step of tumor progression to more malignant phenotypes and underline their important role as mediators in multimolecular membrane protein complexes regulating cell adhesion and migration.
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PMID:Expression of tetraspanin adaptor proteins below defined threshold values is associated with in vitro invasiveness of mammary carcinoma cells. 1257 80

Reiterated terminal sequences of Epstein-Barr virus (EBV) DNA are numerically heterogeneous among infectious virions, providing a viral measure of clonality in infected cells. After in vitro infection, carcinoma cells bearing EBV episomes with fewer terminal repeats (TRs) proliferated faster. In single-cell clones, TR number varied inversely to the quantity of latent membrane protein 2A (LMP2A) transcripts whose unspliced precursors cross joined TRs. Thus, EBV clonality may reflect selection for a TR number that optimizes LMP2A-enhanced tumor progression, with infection occurring after epithelial cell transformation.
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PMID:Length of Epstein-Barr virus termini as a determinant of epithelial cell clonal emergence. 1285 25

The heterogeneity of cellular protein expression has stimulated development of separations targeting smaller groups of related proteins rather than entire proteomes. The following work describes the development of a technique for the characterization of membrane subproteomes from five different breast epithelial cell lines. Intact membrane proteins are separated by hydrophobicity in the first dimension using nonporous reversed-phase high-performance liquid chromatography (RP-HPLC) to generate unique chromatographic profiles. Fractions of eluent are further separated using sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) to create distinct banding patterns. This hybrid liquid phase/gel phase method circumvents issues of membrane protein precipitation and provides a simple strategy aimed at isolating and characterizing a traditionally underrepresented protein class. Membrane protein profiles are created that discriminate between microsomal fractions of breast epithelial cells in different stages of neoplastic progression. Proteins are subsequently identified using matrix-assisted laser desorption/ionization - mass spectrometry (MALDI-MS) mass fingerprinting and MALDI-quadrupole time of flight - tandem mass spectrometry (QTOF-MS/MS) peptide sequencing. Furthermore, as this strategy preserves intact protein structure, further characterization can be performed on proteins producing mass fingerprint spectra and fragmentation spectra that did not result in database protein identifications. The coupling of nonporous RP-HPLC with SDS-PAGE provides a useful alternative to two-dimensional PAGE (2-D-PAGE) for membrane protein analysis.
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PMID:Profiling the progression of cancer: separation of microsomal proteins in MCF10 breast epithelial cell lines using nonporous chromatophoresis. 1287 26

There have been few studies regarding cancer progression from differentiated thyroid carcinoma to the undifferentiated one. To examine the possible involvement of Epstein-Barr virus (EBV) in this progression, 10 papillary carcinomas and 11 undifferentiated carcinomas were subjected to mRNA in situ hybridization, indirect immunofluorescence staining, polymerase chain reaction (PCR), and reverse-transcriptase PCR. mRNA in situ hybridization using a BamHIW probe revealed signals in all of the examined samples, although the signal strength was weaker in the papillary carcinomas than in the undifferentiated carcinomas. EBV nuclear antigen-2 (EBNA2) in situ hybridization produced almost the same results; however, the signals were detected less frequently in the papillary carcinomas. Indirect immunofluorescence using anti-EBNA2, anti-latent membrane protein-1 (LMP1), and anti-BZLF1 antibodies also showed positive results with high frequency and with more prominent fluorescence in undifferentiated carcinomas than in papillary carcinomas. An examination of thyroid carcinoma cell lines also confirmed these findings. EBV infected all of the thyroid carcinomas irrespective of the degree of pathological differentiation. The expression of EBV, especially of EBNA2 and LMP1 (both of which are oncogene products of EBV), was stronger in the undifferentiated carcinomas than in the papillary carcinomas. These results suggest that increased expression of EBV may be involved in the progression of thyroid papillary carcinoma to undifferentiated carcinoma.
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PMID:Expression of Epstein-Barr virus in thyroid carcinoma correlates with tumor progression. 1465 19

Factors that regulate alpha(1,3)fucosyltransferase activity are important to identify because FUT genes are up-regulated during inflammation, cancer progression, and tumor metastasis. FUT gene activation increases the expression of cell surface oncofetal antigens such as Lewis X, sialyl-Le X and VIM-2. The LEC11B gain-of-function glycosylation mutant displays these antigens and binds E-selectin because it expresses the Fut6B gene that is shown here to lie immediately downstream of the Fut6A gene. A retroviral strategy for expression cloning factors that suppress alpha(1,3)fucosylation in LEC11B cells was developed, and several cDNAs that reverted the LEC11B glycosylation phenotype were isolated. cDNAs that arose most frequently and independently encoded SLC35C2, a putative GDP-fucose transporter (also termed CGI-15 or Ovcov1); Cd63, a tetraspanin membrane protein; and Hdac5, a histone deacetylase. When transfected into LEC11B cells the SLC35C2 cDNA reduced Le X expression with no concomitant suppression of Fut6B gene transcripts. Transfection of the Cd63 cDNA induced low levels of ricin resistance and also did not suppress Fut6B gene transcripts in LEC11B. However, the Hdac5 cDNA induced ricin resistance, reduced fucosylated antigen expression, and essentially eliminated Fut6B gene transcripts. The Hdac5 cDNA isolated by expression cloning encoded the C-terminal region of hamster Hdac5. Overexpression of this partial Hdac5 cDNA or a full-length Hdac5 cDNA, suppressed Fut6B gene transcripts specifically. Thus the expression cloning strategy identified Hdac5 as a trans-acting repressor of the Chinese hamster ovary Fut6B gene and Cd63 and SLC35C2 as novel factors that suppress alpha(1,3)fucosylation by mechanisms unrelated to effects on Fut gene expression.
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PMID:Suppressors of alpha(1,3)fucosylation identified by expression cloning in the LEC11B gain-of-function CHO mutant. 1552 19

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