UMLS:C0027651 - FACTA Search

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Query: UMLS:C0027651 (tumor)
685,946 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A mouse ubiquitin clone that recognizes multiple transcripts overexpressed in murine tumors compared to normal epidermis was isolated by differential screening of complementary DNA libraries from mouse squamous cell carcinomas. Coding region probes detected five ubiquitin transcripts. Oligonucleotides were designed for unique parts of three mouse ubiquitin gene complementary DNA clones. The overexpressed transcripts at 2.4, 2.8, 6.4, and 7.8 kilobases (kb) were detected by an oligonucleotide specific for a mouse UbC polyubiquitin clone. A 1.2-kb UbB overexpressed transcript was detected by an oligonucleotide for a mouse four-unit polyubiquitin, and a 0.7-kb UbA overexpressed transcript was recognized by an oligonucleotide for the mouse ubiquitin carboxyl-extension protein of 52 amino acids. All three classes of transcripts were induced in mouse skin by the hyperproliferative agent ethylphenyl propionate and by the tumor promoting agent 12-O-tetradecanoylphorbol-13- acetate. Heat shock of cultured keratinocytes induced both the 6.4- and 7.8-kb transcripts recognized by the UbC-specific oligonucleotide. Consistent with the overexpression of the ubiquitin transcripts, the level of free ubiquitin protein, as determined by Western analysis, was elevated in the tumors and proliferating epidermis as compared to normal epidermis. Our results indicate that the overexpression of ubiquitin genes could be related to a sustained state of proliferation and stress in the tumors compared to the normal resting epidermis.
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PMID:Overexpression of three ubiquitin genes in mouse epidermal tumors is associated with enhanced cellular proliferation and stress. 132 56

Seventeen intracerebral gliomas containing Rosenthal fibers (RF) were studied by an immunoperoxidase method for localization of ubiquitin (UB), glial fibrillary acidic protein (GFAP), desmin and vimentin (VIM). The majority of RF showed an immunohistochemically negative core surrounded by a ring of overlapping reactions for UB, GFAP and VIM. Many RF were entirely negative for UB and intermediate filaments (IF). Immunoelectron microscopic localization of UB and GFAP was performed on seven selected tumors. UB was found in all RF and on IF in the proximity of RF. GFAP reaction was localized on astrocytic IF, including those trapped within RF, and within the granular component of some RF. In contrast to the light microscopic studies, neither GFAP- nor UB-negative RF were found on immunoelectron microscopy. VIM reaction on IF and a few RF was demonstrated in one tumor processed at low temperature into Lowicryl; it was much weaker than that for GFAP. Many cells with RF contained lysosome-like inclusions with material displaying electron density similar to adjacent RF; few of these inclusions were reactive for UB. It is concluded that RF formation is associated with ubiquitination of astrocytic IF. GFAP- and VIM-immunoreactive IF and products of their disintegration contribute to RF material. It is also suggested that the lysosomal system of astrocytes partially degrades RF.
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PMID:Immunoelectron microscopy of Rosenthal fibers. 165 Jan 12

To gain insight into the activity of cytosolic proteases in tumors, the ATP-dependent proteolysis of cell sap and the ATP- and ubiquitin-dependent proteolysis of Fraction II (a cytosolic subfraction freed of endogenous ubiquitin) were measured in the anaplastic Yoshida ascites hepatoma AH 130. Hepatoma cell sap showed only low, although significant, ATP-stimulated proteolysis, as best seen by comparisons with rat liver made on the basis of wet weight. Much of the basal proteolytic activity of cell sap and of its subfraction enriched in high Mr complexes (Fraction X) peaked near 18S in sucrose gradients. In contrast with cell sap, Fraction II from hepatoma degraded [14C]methylcasein more efficiently than Fraction II from normal liver, but the activities for liver and tumor did not differ on a wet weight basis. Altered polypeptide patterns shown by SDS-PAGE in the Yoshida hepatoma suggested that some abundant hepatoma-specific cytosolic protein might interfere with degradation of the [14C]methylcasein by hepatoma.
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PMID:ATP- and ATP+ ubiquitin-stimulated proteolysis in rat liver and Yoshida ascites hepatoma. 165 48

Insight into the mechanisms by which DNA tumor viruses transform cells has come from the recognition that the virus-encoded oncoproteins interact specifically with important cell regulatory proteins. The "high risk" human papillomaviruses such as HPV-16 and HPV-18 which are associated with human anogenital carcinomas encode two transforming genes (E6 and E7) which are expressed in HPV positive cancers and derived cell lines. E7 shares functional and structural features with the adenovirus E1A proteins. Like Ad E1A and the large T proteins of the polyomaviruses, E7 can complex pRB. The E7 proteins of the "high risk" HPVs associate with pRB with approximately a 10-fold higher affinity than do the E7 proteins of the "low risk" HPVs, and important biological differences between the E7 proteins of these two groups of HPVs are determined by amino-terminal sequences which include the pRB binding domain. Like SV40 large T and Ad 5 E1B, the E6 oncoprotein encoded by the "high risk" HPVs can form a complex with p53. In vitro, E6 promotes the degradation of p53 and this degradation involves the ubiquitin-dependent protease system. The selective degradation of cellular proteins such as p53 with negative regulatory functions provides a novel mechanism of action for dominant acting oncoproteins. The relevance of the inactivation of the normal functions of pRB and p53 in human cervical carcinogenesis has recently been demonstrated by the analysis of these two genes and their products in a series of HPV-positive and HPV-negative cell lines. Each of five HPV-positive cervical cancer cell lines expressed normal pRB and low levels of wild type p53 proteins, which are presumed to be altered in function as a consequence of association with the HPV oncoproteins. In contrast, mutations were identified in the p53 and RB genes expressed in the HPV-negative cervical carcinoma cell lines, C33-A and HT-3. These results support the hypothesis that the inactivation of the normal functions of the tumor suppressor proteins pRB and p53 are important steps in human cervical carcinogenesis, either by mutation or through complex formation with HPV E6 and E7 oncoproteins.
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PMID:Cellular targets of the oncoproteins encoded by the cancer associated human papillomaviruses. 166 86

The use of the mouse skin multistage model of carcinogenesis has aided our understanding of critical target genes in chemical carcinogenesis. The mutagenic activation of the Harvey-ras proto-oncogene has been found to be an early event associated with the initiation of mouse skin tumors by the polycyclic aromatic hydrocarbon 7,12 dimethylbenz[alpha]anthracene and the pure initiator ethyl carbamate (urethane). In contrast to chemical initiation of mouse skin tumors, ionizing radiation-initiated malignant skin tumors have been shown to possess distinct non-ras transforming gene(s). Differential screening of cDNA libraries made from chemically initiated malignant skin tumors has been used to identify a number of cellular gene transcripts that are overexpressed during mouse skin tumor progression. These differentially expressed genes include beta-actin, ubiquitin, a hyperproliferative keratin (K6), a gene whose product is a member of a fatty acid or lipid-binding protein family, and a gene called transin or stromelysin. The overexpression of the stromelysin gene, which encodes a metalloproteinase that degrades proteins in the basement membrane, is hypothesized to play a functional role in malignant tumor cell invasion and metastasis. We believe that the cloning, identification, and characterization of gene sequences that are differentially expressed during tumor progression could lead to the discovery of gene products that either play functional roles in skin tumor progression or in the maintenance of various progressive tumor phenotypes.
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PMID:Differential gene expression during multistage carcinogenesis. 177 1

Ubiquitin is involved in cell-cycle control and DNA replication through a specific proteolytic pathway. Our previous studies demonstrated selected higher expression of a gene encoding ubiquitin-ribosomal protein S27a in poorly differentiated colon carcinoma cell lines. In this study, we evaluated this ubiquitin hybrid protein gene expression in surgical specimens of colon cancers. Northern blot analysis showed that ubiquitin hybrid protein messenger RNA was overexpressed in primary colon cancers compared with adjacent normal colon mucosae in 17 of 20 patients. Dot blot analysis of RNA of 27 tumor samples revealed significantly greater expression in higher Dukes' stage primary colon tumors and liver metastases. These data imply that protein translation machinery is highly activated during progression and metastasis of colon tumors, and that ubiquitin hybrid protein may be useful as a marker of biological aggressiveness.
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PMID:Ubiquitin hybrid protein gene expression during human colon cancer progression. 200 61

The gene coding for the human estrogen receptor protein was expressed as a ubiquitin fusion under the control of the lambda PL promoter in Escherichia coli. Analysis of extracts by Western blot showed that intact receptor protein was produced only when PL promoter was depressed by nalidixic acid at 30 degrees C. To ascertain the intactness of the expressed protein, estrogen receptor in bacterial extracts was titrated with either 17 beta-[3H]estradiol or 17 beta-[125I]iodoestradiol, and the mass was quantified by enzyme immunoassay. Cell extracts contained 484 fmol of estrogen receptor per mg of soluble protein by titration with a Kd of 3.2 x 10(-10) M. The simultaneous analysis by enzyme immunoassay resulted in 487 fmol/mg of extract protein indicating that most of the expressed protein bound ligand with wild type properties. Ligand competition analysis demonstrated that expressed receptor contained a binding domain preferentially recognizing estrogenic substances identical with that of wild-type estrogen receptor. The E. coli-expressed estrogen receptor also associated specifically with estrogen response DNA elements. Full length receptor protein was detected by ligand binding and immunorecognition using size exclusion chromatography. Hydrophobic interaction chromatography showed a major isoform which exhibited both ligand binding and immuno-recognition identical with the estrogen receptor from human breast tumor tissues. These data indicate that estrogen receptor expressed in E. coli retained characteristics of the native protein found in human tissues.
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PMID:Expression and characterization of an active human estrogen receptor as a ubiquitin fusion protein from Escherichia coli. 217 94

The E6 protein encoded by the oncogenic human papillomavirus types 16 and 18 is one of two viral products expressed in HPV-associated cancers. E6 is an oncoprotein which cooperates with E7 to immortalize primary human keratinocytes. Insight into the mechanism by which E6 functions in oncogenesis is provided by the observation that the E6 protein encoded by HPV-16 and HPV-18 can complex the wild-type p53 protein in vitro. Wild-type p53 gene has tumor suppressor properties, and is a target for several of the oncoproteins encoded by DNA tumor viruses. In this study we demonstrate that the E6 proteins of the oncogenic HPVs that bind p53 stimulate the degradation of p53. The E6-promoted degradation of p53 is ATP dependent and involves the ubiquitin-dependent protease system. Selective degradation of cellular proteins such as p53 with negative regulatory functions provides a novel mechanism of action for dominant-acting oncoproteins.
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PMID:The E6 oncoprotein encoded by human papillomavirus types 16 and 18 promotes the degradation of p53. 217 76

Ubiquitin, a protein important in regulating non-lysosomal proteolysis, has previously been shown to be present in cytoskeletal inclusions of the neurodegenerative diseases. Its role in other pathological processes of the central nervous system, such as neoplastic transformation of cells, is not known. The astrocytoma, a tumor of complex biology derived from the astrocyte, is the most common primary parenchymal human brain tumor in both children and adults. Until recently, ubiquitin was not known to form stable conjugates in cells. We have shown using immunocytochemistry on sections of astrocytomas that both glial fibrillary acidic protein (GFAP) (the major intermediate filament protein present in normal, reactive and neoplastic astrocytes) and ubiquitin are simultaneously present in the cytoplasm and cell processes of tumor cells. The presence of ubiquitin and GFAP was also found in astrocytoma cells in short- and long-term culture, and confirmed by immunostaining of blots of tumor homogenates subjected to sodium dodecyl sulfate polyacrylamide gel electrophoresis.
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PMID:Ubiquitin in normal, reactive and neoplastic human astrocytes. 255 61

The protein A24 content of Ehrlich ascites tumor cells increased several-fold following treatment of cell cultures with nitrosoureas, but did not increase when other alkylating agents not containing carbamoyl moieties were tested. The same nitrosoureas and, in addition, 2-chloroethyl isocyanate inhibited an A24 lyase-containing cytoplasmic extract in cleaving protein A24 into histone H2A and ubiquitin. It appears that carbamoylation of A24 lyase by nitrosoureas inhibits the enzyme and is responsible for the measured increases in cellular protein A24 content due to reduced turnover of this protein.
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PMID:Inhibition of protein A24 lyase by nitrosoureas. 648 26

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