Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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

Retroviral vectors were used to introduce the gamma-interferon (IFN-gamma) gene into CMS-5 cells, a weakly immunogenic tumor of BALB/c origin. After selection in G418-containing medium, colonies were isolated, cloned, and expanded to cell lines. IFN-gamma secretion was assessed using a bioassay and enzyme-linked immunosorbent assay, and high (25 units/ml) and low (5 units/ml) IFN-gamma producers were isolated. Tumor growth was followed after intradermal injection, and spleen cells were isolated at different time points. IFN-gamma secretion by tumor cells abrogated their tumorigenicity and induced a persistent and specific antitumor immunity. In contrast to the normally observed cellular immunosuppression in unmodified CMS-5 tumor-bearing mice, IFN-gamma-producing tumors induced a long lasting state of T-cell immunity, as judged by rejection of a CMS-5 tumor challenge and persistence of specific cytotoxic activity in the spleen cell population. High levels of tumor-specific cytotoxic activity could also be detected if IFN-gamma-secreting tumor cells, but not unmodified CMS-5 cells, were used as targets at a time point when immunosuppression was usually seen. These studies highlight the potential advantages of localized IFN-gamma secretion to induce potent antitumor immune responses.
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PMID:Retroviral vector-mediated gamma-interferon gene transfer into tumor cells generates potent and long lasting antitumor immunity. 212 42

We used somatic cell hybridization to determine whether the regressor phenotype exhibited by UV-induced murine tumors was dominant or recessive and whether this technique could confer immunogenic properties on nonimmunogenic syngeneic tumors. We transfected a highly antigenic UV-induced C3H mouse tumor cell line (UV-2240) with the plasmid pSV2-neo and selected G418-resistant clones. The resulting cell line was fused with a spontaneously transformed nonimmunogenic C3H progressor tumor cell line (SF-2T) that had been selected previously for resistance to 3.0 mM ouabain. These two cell lines were fused by a brief exposure to polyethylene glycol and heterokaryons isolated by growth in medium containing both G418 and ouabain. Hybrid cell lines established from individual colonies and from pools of colonies were tested for tumorigenicity in normal C3H and athymic nude mice. The results indicated that all the hybrid cell lines tested were highly antigenic in that they were completely rejected when transplanted into normal syngeneic mice but grew progressively in nude mice. Furthermore, immunization of C3H mice with the hybrid cell lines induced protective immunity against challenge with the immunizing tumor and generated cross-protective immunity against challenge with the regressor parental cell line but not against challenge with the progressor parental cell line. These results demonstrate that the regressor phenotype of the UV-2240 tumor is dominant in nature and that the immune response induced by somatic cell hybrids is uniquely directed against the dominant tumor-specific transplantation antigens expressed on the regressor tumor. This implies that introduction of tumor-specific transplantation antigens from an immunogenic tumor into a nonimmunogenic tumor, although sufficient to confer immunogenic properties to the hybrid, is insufficient to induce cross-protective transplantation immunity against the nonimmunogenic tumor.
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PMID:Immune response to somatic cell hybrids between ultraviolet radiation-induced regressor and spontaneous progressor C3H mouse tumor cells. 213 70

To determine if expression of mutant p21 ras could convert Simian Virus 40-immortalized human uroepithelial cell line (SV-HUC) to tumorigenicity, SV-HUC cells were transfected with pSV2-neo (a neomycin-resistant gene) or PREJ/ras (c-HA-ras-1 with the 12th codon mutation and neo). Seven independent G418-resistant clones (A----G) were isolated from each group (SV-HUC/ras and SV-HUC/neo). SV-HUC/ras clones were morphologically altered, while SV-HUC/neo clones retained a typical SV-HUC epithelial morphology. Electrophoretic analysis of immunoprecipitated ras proteins detected altered p21 ras protein in four of seven SV-HUC/ras clones at passage (P)2 and in five of seven clones at P12 posttransfection. The relative levels of ras p21 differed among the clones and appeared to increase with passage in culture. RNA and DNA dot blot analyses showed that clones with more abundant mutant p21 also had higher ras RNA levels and, in one case, increased ras gene copy number. No altered ras protein was detected in any SV-HUC/neo clones. ras- and neo-transfected clones were tested for tumorigenicity at P2 posttransfection and again at P12 by four s.c. inoculations each into athymic nude mice. None of 56 inoculations of SV-HUC/neo clones was tumorigenic. None of the SV-HUC/ras clones at P2 gave rise to tumors at all four injection sites. However, two ras-transfected clones, SV-HUC/ras-B and SV-HUC/ras-F, produced one tumor each. One clone, SV-HUC/ras-D which produced abundant mutant p21, was negative when inoculated at P2, but produced tumors in four of four sites when reinoculated after ten passages in vitro. All tumorigenic clones had detectable levels of mutant ras p21. However, the relative levels of altered p21 ras protein among the SV-HUC/ras clones did not directly predict their tumorigenic potential, as several nontumorigenic SV-HUC/ras clones had protein levels equal to or higher than the most tumorigenic clone (SV-HUC/ras-D at P12). Cell lines established from the tumor explants exhibited higher ras gene copy numbers, higher RNA levels, and more abundant p21 than was seen in the clones at the time of inoculation. Therefore, increases in ras protein abundance occurred during tumor formation in vivo, as well as during passage of cells in culture, and such cells apparently had a selective growth advantage. However, expression of abundant mutant ras protein was not in itself sufficient for neoplastic transformation of SV-HUC.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:EJ/ras neoplastic transformation of simian virus 40-immortalized human uroepithelial cells: a rare event. 216 47

The ability of human herpesvirus-6 (HHV-6, GS strain) DNA to neoplastically transform established NIH3T3 cells was examined. Transfection of NIH3T3 cells with the intact genomic DNA (170 Kb) or the subgenomic clone pZVH14 containing an 8.7 Kb insert followed by focal or G418 selection resulted in the formation of morphologically transformed cells. When injected subcutaneously into nude mice, these cell lines gave rise to rapidly growing tumors while cells transfected with control vector DNA did not grow in agarose and did not produce tumors in mice. By Southern blot analysis, HHV-6 DNA was detected in the G418 selected primary transfectants and tumor cell lines, but not in the focus derived transformed and tumor cell lines. The data suggest that HHV-6 DNA contains sequences which may contribute to neoplastic transformation, but are not likely to be required for maintenance of transformation.
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PMID:Oncogenic potential of human herpesvirus-6 DNA. 217 Aug 97

Skin cancers induced in mice by UV radiation often exhibit a regressor phenotype. In order to determine how tumors escape the immune defenses of the normal immunocompetent host, we sought to isolate progressor variants from a UV radiation-induced C3H mouse regressor fibrosarcoma cell line, UV-2240, by transfection with an activated Ha-ras oncogene. A cotransfection protocol using pSV2-neo DNA, which confers resistance to the antibiotic G418, was used to select transfected cells. Injection of Ha-ras-transfected UV-2240 cells s.c. into immunocompetent C3H mice produced tumors in four of 36 animals. In contrast, UV-2240 cells transfected with pSV2-neo DNA alone or mock transfected with CaPO4 did not produce tumors in normal C3H mice. DNAs from cell lines established from Ha-ras-induced tumors contained unique Ha-ras sequences in addition to those sequences endogenous to UV-2240 cells. However, the Ha-ras-induced progressor variants did not overexpress the Mr 21,000 protein. The Ha-ra-induced progressor variants produced experimental lung metastasis in both normal C3H and nude mice, although they induced more lung nodules in nude mice than in normal C3H mice. In addition, all four Ha-ras-induced progressor variants produced significantly more experimental lung metastases in nude mice than did the parent UV-2240 cell line. However, both the parental UV-2240 cell line and the Ha-ras-induced progressor variants expressed similar levels of H-2Kk and H-2Dk antigens and were immunologically cross-reactive, as determined by in vitro cytotoxic T-lymphocyte and in vivo immunization-challenge assays. These results indicate that the progressor phenotype of the Ha-ras-induced tumor variants is not due to loss of tumor-specific transplantation or Class I major histocompatibility complex antigens. This implies that some tumor cells can escape the immune defenses of the normal immunocompetent host by mechanisms other than loss of tumor-specific transplantation and Class I major histocompatibility antigens.
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PMID:Immune response to progressor variants derived from transfection of an ultraviolet radiation-induced C3H mouse regressor tumor cell line with activated Harvey-ras oncogene. 218 82

It has been proposed that tumor progression is a selective process and that only a minority of tumor cells survive this selection because they possess the phenotypic traits necessary for metastasis and organ colonization. Both proteases and extracellular matrix proteins have been implicated in invasion and metastasis formation. To examine the nature of the selection process, we transformed 10T1/2 fibroblasts with T24 H-ras and the neoR gene and selected a clonal line expressing the mutant ras gene. After i.v. injection of this line into syngeneic C3H/HeN mice, tumor cells were recovered from lungs by enzymatic treatment and selective outgrowth in G418. Less than one of 10(3) cells survived in the lung 30 min after inoculation, and these exhibited a unique phenotype. This was characterized by a propensity to lodge in the lung on reinjection; markedly enhanced mRNA levels of procollagen alpha 2(I), procollagen alpha 1(III), and fibronectin; and decreased levels of laminin, major excreted protein (procathepsin L), transin, and H-ras. Between 1 and 9 days after tumor injection, the phenotype of the cells surviving in the lung changed dramatically and exhibited a pattern of gene expression with increased protease and low matrix protein mRNA levels. This coincided with a 26-fold increase in the ability to colonize lungs on i.v. injection. Both the phenotype characterized by its propensity to arrest in the lung and that showing enhanced metastatic ability were unstable on prolonged in vitro culture. We hypothesize that two selection events have occurred. The first is for lung arrest and implantation of variants of the injected tumor with high matrix protein and low protease levels. A second selection then occurs for tumor cells that carry a favorable phenotype for invasion and proliferation which is associated with low matrix protein and high protease gene expression. These two phenotypes are represented within a clonal population of recently transformed tumor cells.
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PMID:Transient alterations in the expression of protease and extracellular matrix genes during metastatic lung colonization by H-ras-transformed 10T1/2 fibroblasts. 219 71

One approach for identifying chromosomes which carry putative tumor-suppressor genes is the introduction of specific chromosomes into the tumor cells of interest. We examined the ability of human chromosomes derived from normal fibroblasts to suppress or modulate tumorigenicity in nude mice and the in vitro properties of HT1080, a human fibrosarcoma cell line. We first isolated mouse A9 cells containing a single human chromosome (1, 2, 7, 11, or 12) integrated with pSV2neo plasmid DNA. Following fusion of microcells from these A9 cells with the HT1080 cells, clones that were resistant to G418 were isolated and karyotypically analysed. Three of 4 microcell-hybrids with an introduced chromosome 1 were non-tumorigenic (#1-7, -8 and -13), whereas the parental HT1080 cells were highly tumorigenic. The other microcell-hybrid clone (#1-1) formed tumors, the cells of which had lost one copy of chromosome 1. Two clones from the #1-1 cells were isolated; one contained an extra copy of chromosome 1, and the other one did not. The former was non-tumorigenic and the latter was tumorigenic. The introduction of chromosome 11 also suppressed the tumorigenicity of HT1080 cells, while the introduction of other chromosomes, i.e., 2, 7, or 12, had minimal or no effect on the tumorigenicity of these cells. Cells from tumors formed by microcell-hybrids with the introduction of chromosome 2, 7, or 12 still contained the introduced chromosome. Interestingly, only the microcell-hybrids with an introduced chromosome 1 had an alteration in cellular morphology and modulation of in vitro transformed properties, i.e., cell-growth and saturation density in a medium containing 10% calf serum and cell-growth in soft-agar. Thus, the results indicate the presence of putative tumor-suppressor genes for HT1080 cells on chromosomes 1 and 11, and further suggest that the genes on these chromosomes control different neoplastic phenotypes.
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PMID:Suggestive evidence for functionally distinct, tumor-suppressor genes on chromosomes 1 and 11 for a human fibrosarcoma cell line, HT1080. 226 32

The complete suppression of tumorigenicity of a human cervical cancer cell (HeLa) and a Wilms' tumor cell line (G401) following the introduction via microcell fusion of a single chromosome t(X;11) has been demonstrated by Stanbridge and co-workers. To determine whether other tumor cell lines are suppressed by chromosome 11, we performed chromosome transfer experiments via microcell fusion into various human tumor cell lines, including a uterine cervical carcinoma (SiHa), a rhabdomyosarcoma (A204), a uterine endometrial carcinoma (HHUA), a renal cell carcinoma (YCR-1), and a rat ENU-induced nephroblastoma (ENU-T1). We first isolated a mouse A9 cell containing a single human chromosome 11 with integrated pSV2-neo plasmid DNA. Following microcell fusion of the neo-marked chromosome 11 with the various tumors mentioned above, we isolated clones that were resistant to G418 and performed karyotypic analyses and chromosomal in situ hybridization to ensure the transfer of the marked chromosome. Whereas the parental cells of each cell line were highly tumorigenic, SiHa and A204 microcell hybrid clones at early passages were nontumorigenic in nude mice and HHUA was moderately tumorigenic. On the other hand, YCR-1 and ENU-T1 microcell hybrid clones were still highly tumorigenic following the introduction of chromosome 11. Thus, the introduction of a normal chromosome 11 suppresses the tumorigenicity of some but not all tumors, suggesting that the function of the putative suppressor gene(s) on chromosome 11 is effective only in specific tumors.
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PMID:Transfer of a normal human chromosome 11 suppresses tumorigenicity of some but not all tumor cell lines. 231 11

Tumor-infiltrating lymphocytes (TILs) are cells generated from tumor suspensions cultured in interleukin 2 that can mediate cancer regression when adoptively transferred into mice or humans. Since TILs proliferate rapidly in vitro, recirculate, and preferentially localize at the tumor site in vivo, they provide an attractive model for delivery of exogenous genetic material into man. To determine whether efficient gene transfer into TILs is feasible, we transduced human TILs with the bacterial gene for neomycin-resistance (NeoR) using the retroviral vector N2. The transduced TIL populations were stable and polyclonal with respect to the intact NeoR gene integration and expressed high levels of neomycin phosphotransferase activity. The NeoR gene insertion did not alter the in vitro growth pattern and interleukin 2 dependence of the transduced TILs. Analyses of T-cell receptor gene rearrangement for beta- and gamma-chain genes revealed the oligoclonal nature of the TIL populations with no major change in the DNA rearrangement patterns or the levels of mRNA expression of the beta and gamma chains following transduction and selection of TILs in the neomycin analog G418. Human TILs expressed mRNA for tumor necrosis factors (alpha and beta) and interleukin 2 receptor P55 but not for interleukin 1 beta, granulocyte/macrophage colony-stimulating factor, interleukin 6, and interferon gamma when grown with high-dose interleukin 2 without subsequent activation with mitogen or specific antigen. This pattern of cytokine-mRNA expression was not significantly altered following the transduction of TILs. The NeoR gene-transduced TILs could thus be used to follow the trafficking and survival of TILs in vivo, and clinical protocols using these transduced TILs in cancer patients have begun. The studies demonstrate the feasibility of TILs as suitable cellular vehicles for the introduction of therapeutic genes into patients receiving autologous TILs.
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PMID:Human gene transfer: characterization of human tumor-infiltrating lymphocytes as vehicles for retroviral-mediated gene transfer in man. 240 83

To determine the potential role of pp60c-src in polyomavirus-transformed cells, we constructed a recombinant plasmid with the mouse metallothionein-I promoter upstream of a src gene in an anti-sense orientation. We cotransfected this plasmid into middle tumor antigen-transformed FR3T3 cells with a plasmid containing the neomycin resistance gene, and G418 resistant colonies were selected. Analysis of these cells for pp60c-src expression revealed that 50 of the 200 cellular clones screened were found to have decreased levels of c-src expression when compared with the parental middle tumor antigen-transformed cells. Three independent clones which transcribed the expected 3.6-kilobase src complementary RNA and had levels of pp60c-src kinase activity comparable to that of normal FR3T3 cells were further analyzed. In the presence of Cd2+, these clones grew significantly slower in monolayer cultures than either the parental transformed cells (FR18-1) or FR18-1 cells transfected with the neomycin resistance gene alone. The morphology of these clones in the presence of Cd2+ was distinct from that of either the parental FR18-1 cells or normal FR3T3 cells. The clones expressing the complementary src RNA were found to form fewer colonies in soft agar, form fewer foci on monolayers of normal rat cells, and form tumors more slowly following injection into syngenic rats when compared with parental FR18-1 cells. The results of these studies suggest that the level of pp60c-src kinase activity affects the growth characteristics and transformation properties of polyoma virus-transformed rat cells.
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PMID:Regulation of pp60c-src synthesis by inducible RNA complementary to c-src mRNA in polyomavirus-transformed rat cells. 243 Dec 89


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