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)

Cas-Br-E and Graffi are two myeloid leukemia-inducing murine viruses. Cas-Br-E induces, in NIH-Swiss mice, mostly non-T, non-B leukemia composed of very immature cells with no specific characteristics (Bergeron et al. (1993). Leukemia 7, 954-962). The Graffi murine leukemia virus causes exclusively myeloid leukemia, but the tumor cells are clearly of granulocytic nature (Ru et al. (1993). J. Virol. 67, 4722). We were interested to understand the role of the long terminal repeat (LTR) U3 region in the myeloid specificity of these two retroviruses. We used DNase I footprinting and gel mobility shift assays to identify a number of protein binding sites within Cas-Br-E and Graffi U3 regions. The pattern of protected regions is highly similar for the two viruses. Some factors identified in other murine leukemia viruses, like the core binding factor, also bind to Cas-Br-E and Graffi LTR; however, other binding sites seem specific for these two viruses. Only one difference between them was noted, at the 5' end of the U3 region. Transcriptional activity of both LTRs was also analyzed in various cell lines and compared with other murine leukemia viruses. The results show a slight myeloid specificity for the two LTRs, and indicate that the Graffi enhancer is quite strong in a broad range of cell types.
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PMID:Nuclear factors that bind to the U3 region of two murine myeloid leukemia-inducing retroviruses, Cas-Br-E and Graffi. 987 19

While colonoscopy may detect early-stage colon tumors, a less invasive and more cost-effective technique would be beneficial. Stool, which picks up sloughed-off colonic epithelial cells, would be ideal for sampling the mucosa; shed tumor cells may display alterations in gene expression observed in intact tumors. It is first necessary, however, to show that RNA can be isolated from human feces and that this RNA contains human gene transcripts. We have therefore developed a method for the isolation of total RNA from freshly passed human stool, consisting of lysis in chaotropic agents, repeated extraction with phenol and phenol-chloroform, and absorption with an RNA-binding resin. After treatment with RNase-free DNase I, we assayed these preparations for the presence of human RNA by quantitative slot blotting, northern blotting, and reverse transcription-polymerase chain reaction (RT-PCR). We obtained 5-30 microg RNA per gram of stool from cancer patients, and about 5 microg RNA per gram of control stool. Quantitative slot blotting showed that about 10% of this RNA was of human origin. Both northern blotting and RT-PCR demonstrated the presence of human RNA in these samples. To unambiguously demonstrate the isolation of RNA from stool, we incubated a mixture of rat cells and control human stool at 37 degrees C for up to 24 hr. RT-PCR of the RNA isolated from this sample clearly revealed the presence of rat-specific mRNA. These experiments indicate that RNA can be isolated from human stool and that message encoded by human genes can be assayed in these preparations. This procedure may provide a powerful tool to identify patients at risk for colon cancer.
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PMID:Purification of total RNA from human stool samples. 988 97

O6-methylguanine-DNA methyltransferase (MGMT), a ubiquitous DNA repair protein, removes the mutagenic DNA adduct O6-alkylguanine, which is synthesized both endogenously and after exposure to alkylnitrosamines and alkylating antitumor drugs such as 2-chloroethyl-N-nitrosourea (CNU). The MGMT gene is highly regulated in mammalian cells and its overexpression, observed in many types of tumor cells, is often associated with cellular resistance to CNU. Dexamethasone, a synthetic glucocorticoid hormone, was found to increase MGMT expression in HeLa S3 cells, concomitant with their increased resistance to CNU. Two putative glucocorticoid responsive elements (GREs) were identified in the human MGMT (hMGMT) promoter. Transient expression of the luciferase reporter gene driven by an hMGMT promoter fragment containing these GREs was activated by dexamethasone. DNase I footprinting assays demonstrated the binding of glucocorticoid receptor to these sequences. In vitro transcription experiment showed that these DNA sequences are functional in glucocorticoid receptor signal-mediated activation of transcription. These results suggest glucocorticoid-mediated induction of the MGMT gene contributes to high level expression of MGMT.
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PMID:Activation of human O6-methylguanine-DNA methyltransferase gene by glucocorticoid hormone. 992 9

The MN/CA 9 (MN) gene encodes a tumor-associated isoenzyme of the carbonic anhydrase family. Functional characterization of the 3. 5-kilobase pair MN 5' upstream region by deletion analysis led to the identification of the -173 to +31 fragment as the MN promoter. In vitro DNase I footprinting revealed the presence of five protected regions (PRs) within the MN promoter. Detailed deletion analysis of the promoter identified PR1 and PR2 (numbered from the transcription start) as the most critical for transcriptional activity. PR4 negatively affected transcription, since its deletion led to increased promoter activity and was confirmed to function as a promoter-, position-, and orientation-independent silencer element. Mutational analysis indicated that the direct repeat AGGGCacAGGGC is required for efficient repressor binding. Two components of the repressor complex (35 and 42 kDa) were found to be in direct contact with PR4 by UV cross-linking. Increased cell density, known to induce MN expression, did not affect levels of PR4 binding in HeLa cells. Significantly reduced repressor level seems to be responsible for MN up-regulation in the case of tumorigenic CGL3 as compared with nontumorigenic CGL1 HeLa x normal fibroblast hybrid cells.
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PMID:Transcriptional regulation of the MN/CA 9 gene coding for the tumor-associated carbonic anhydrase IX. Identification and characterization of a proximal silencer element. 1055 12

Abnormal expression of c-fms proto-oncogene, which encodes for the macrophage colony-stimulating factor-1 (CSF-1) receptor, has been observed in a variety of carcinomas of epithelial origin, including those of the breast. Here, we have investigated the effect of retinoic acid (RA), an important regulator of normal differentiation of mammary epithelial tissues, on the expression of the c-fms gene and CSF-1/CSF-1 receptor-induced invasion and anchorage-independent growth in breast carcinoma cells. We have demonstrated that all-trans-RA (atRA) significantly increases levels of c-fms transcripts in the estrogen receptor-negative but RA receptor alpha-positive breast carcinoma cell lines BT20 and SKBR3. The atRA-induced increase in fms transcript levels was completely abolished by RO41-5253, a synthetic RA receptor alpha antagonist. Our results indicate that atRA could enhance fms expression by up-regulating the activity of the first promoter of the fms gene. DNase I protection, mobility shift, and mutational analysis revealed that a potential activator protein 1 (AP-1) site in the first fms promoter sequence could mediate the observed atRA effect on fms transcription. Our results also showed that atRA, by itself and in the presence of CSF-1, can increase the ability of breast carcinoma cells to invade in vitro. Furthermore, we demonstrated that atRA is able to abolish the CSF-1-induced increase in anchorage-independent growth of breast carcinoma cells without affecting the anchorage-dependent growth. In summary, our findings suggest that retinoids may play conflicting roles throughout breast cancer progression, depending on the stage of cancer development. Although retinoids might suppress growth at the early stages of tumor formation, they might promote malignant transformation at later stages by stimulating the invasive capacity of certain cell variants in the breast tumor population.
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PMID:Effect of all-trans-retinoic acid on c-fms proto-oncogene [colony-stimulating factor 1 (CSF-1) receptor] expression and CSF-1-induced invasion and anchorage-independent growth of human breast carcinoma cells. 1055 38

Developmental control of bone tissue-specific genes requires positive and negative regulatory factors to accommodate physiological requirements for the expression or suppression of the encoded proteins. Osteocalcin (OC) gene transcription is restricted to the late stages of osteoblast differentiation. OC gene expression is suppressed in nonosseous cells and osteoprogenitor cells and during the early proliferative stages of bone cell differentiation. The rat OC promoter contains a homeodomain recognition motif within a highly conserved multipartite promoter element (OC box I) that contributes to tissue-specific transcription. In this study, we demonstrate that the CCAAT displacement protein (CDP), a transcription factor related to the cut homeodomain protein in Drosophila melanogaster, may regulate bone-specific gene transcription in immature proliferating osteoblasts. Using gel shift competition assays and DNase I footprinting, we show that CDP/cut recognizes two promoter elements (TATA and OC box I) of the bone-related rat OC gene. Overexpression of CDP/cut in ROS 17/2.8 osteosarcoma cells results in repression of OC promoter activity; this repression is abrogated by mutating OC box I. Gel shift immunoassays show that CDP/cut forms a proliferation-specific protein/DNA complex in conjunction with cyclin A and p107, a member of the retinoblastoma protein family of tumor suppressors. Our findings suggest that CDP/cut may represent an important component of a cell signaling mechanism that provides cross-talk between developmental and cell cycle-related transcriptional regulators to suppress bone tissue-specific genes during proliferative stages of osteoblast differentiation.
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PMID:The CCAAT displacement protein/cut homeodomain protein represses osteocalcin gene transcription and forms complexes with the retinoblastoma protein-related protein p107 and cyclin A. 1060 45

A method of measurement of exposed DNA (i.e. hypersensitive to DNase I hydrolysis) as opposed to sequestered (hydrolysis resistant) DNA in isolated nuclei of mammalian cells is described. While cell cultures exhibit some differences in behavior from day to day, the general pattern of exposed and sequestered DNA is satisfactorily reproducible and agrees with results previously obtained by other methods. The general pattern of DNA hydrolysis exhibited by all cells tested consists of a curve which at first rises sharply with increasing DNase I, and then becomes almost horizontal, indicating that roughly about half of the nuclear DNA is highly sequestered. In 4 cases where transformed cells (Raszip6, CHO, HL60 and PC12) were compared, each with its more normal homolog (3T3, and the reverse transformed versions of CHO, HL60 and PC12, achieved by dibutyryl cyclic AMP [DBcAMP], retinoic acid, and nerve growth factor [NGF] respectively), the transformed form displayed less genome exposure than the nontransformed form at every DNase I dose tested. When Ca++ was excluded from the hydrolysis medium in both the Raszip6-3T3 and the CHO-DBcAMP systems, the normal cell forms lost their increased exposure reverting to that of the transformed forms. Therefore Ca++ appears necessary for maintenance of the DNA in the more highly exposed state characteristic of the nontransformed phenotype. LiCl increases the DNA exposure of all transformed cells tested. Dextran sulfate and heparin each can increase the DNA exposure of several different cancers. Colcemid prevents the increase of exposure of CHO by DBcAMP but it must be administered before or simultaneously with the latter compound. Measurements on mouse biopsies reveal large differences in exposure in different normal tissues. Thus, the exposure from adult liver cells was greater than that of adult brain, but both fetal liver and fetal brain had significantly greater exposure than their adult counterparts. Exposure in normal human fibroblasts as revealed by in situ nick translation reveals a nuclear distribution pattern around the periphery, around the nucleoli and in punctate positions in the nuclear interior in parts of both S and G1 phases of the cell cycle. The same exposure pattern is duplicated by the pattern of DNA synthesis in S cells. It would appear that these nuclear regions represent positions of special activity. The previously proposed theory of genome regulation in mammalian cells is supported by these findings. The theory proposes that: a) gene activity requires exposure of the given locus followed by action of transcription factors on the exposed genes; b) the fiber system of the cell (cytoskeleton, nuclear fibers, and extracellular fibers) are required for normal exposure; c) active sites for gene expression and replication consist of the nuclear periphery where differentiation genes particularly are exposed; the nucleoli where at least some housekeeping genes are exposed; and possibly also punctate regions in the interior; d) noncoding sequences play a critical role in genome regulation, possibly including the transport of loci to be activated to appropriate exposure transcriptional and replicating locations. Cancer cells have lost specific differentiation gene activities, at least sometimes because of mutation of appropriate exposure genes; at least some protooncogenes and tumor suppressor genes are responsible for exposure and transport of specific differentiation gene loci to their appropriate exposure sites in the nucleus and for inducing exposure.
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PMID:Genome exposure and regulation in mammalian cells. 1069 37

A primary effusion lymphoma (PEL) cell line, JSC-1, that yields highly infectious Kaposi's sarcoma herpesvirus (KSHV) supernatants was established from the ascitic fluid of a human immunodeficiency virus-positive patient. Flow cytometry showed strong expression of CD45 and lambda light-chain restriction. Southern blot hybridization showed immunoglobulin heavy-chain gene rearrangements in the tumor and the resultant cell line consistent with B-cell lineage. Expression of viral genes was assessed by reverse transcription-PCR and immunohistochemistry. Only latent Epstein-Barr virus (EBV) gene expression was detected, and this was at a low level. In contrast, lytic and latent KSHV gene expression were detected. Tetradecanoyl phorbol acetate and butyrate upregulated KSHV lytic expression, but not EBV lytic expression. Viral supernatant from JSC-1 was much more efficient at infecting primary human dermal microvascular endothelial cells (DMVECs) with KSHV than supernatants from BC-3 or BCP-1 PEL cell lines. Quantitation of viral yields produced by the PEL lines showed at least 2 orders of magnitude more DNase I-resistant KSHV DNA in the JSC-1 supernatant compared to BC-3 or BCP-1 supernatants. KSHV infection in DMVECs was associated with a change from a cobblestone to a spindle shape, LANA expression, and an increased number of mitoses.
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PMID:A new primary effusion lymphoma-derived cell line yields a highly infectious Kaposi's sarcoma herpesvirus-containing supernatant. 1102 47

Nicotinamide (NA), a relatively nontoxic compound, has been shown to inhibit tumor development, induce differentiation, increase the sensitization of the anticancer drug resistant cancer cells and is being used in different skin ailments. But there are not many reports on its mechanism of action. Here we report that NA induced endonuclease activity. This endonuclease induction by NA appeared to be dose dependent and a function of time. As evident by the use of modifiers of DNase I, this endonuclease appeared to be like DNase type I. Increased [3H] thymidine incorporation in DNA in the presence of NA is possibly a consequence of increased 3-OH' nicks due to increased DNA fragmentation by increased endonuclease activity. The present results would be of help in the better understanding of the mechanism of NA action and its improved use in cancer control.
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PMID:Effect of nicotinamide on 12-O-tetradecanoyl-phorbol-13-acetate exposed mouse skin endonuclease activity and DNA synthesis. 1105 14

Human prostate cancer cells (DU145) implanted into nude mice are deficient in DNase activity. After administration of a vitamin C/vitamin K(3) combination, both alkaline DNase (DNase I) and acid DNase (DNase II) activities were detected in cryosections with a histochemical lead nitrate technique. Alkaline DNase activity appeared 1 hr after vitamin administration, decreased slightly until 2 hr, and disappeared by 8 hr after treatment. Acid DNase activity appeared 2 hr after vitamin administration, reached its highest levels between 4 and 8 hr, and maintained its activity 24 hr after treatment. Methyl green staining indicated that DNase expression was accompanied by a decrease in DNA content of the tumor cells. Microscopic examination of 1-microm sections of the tumors indicated that DNase reactivation and the subsequent degradation of DNA induced multiple forms of tumor cell death, including apoptosis and necrosis. The primary form of vitamin-induced tumor cell death was autoschizis, which is characterized by membrane damage and the progressive loss of cytoplasm through a series of self-excisions. These self-excisions typically continue until the perikaryon consists of an apparently intact nucleus surrounded by a thin rim of cytoplasm that contains damaged organelles.
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PMID:In vivo reactivation of DNases in implanted human prostate tumors after administration of a vitamin C/K(3) combination. 1111 83

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