Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: UMLS:C0178874 (tumor progression)
 40,807 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Although oncogenes and tumor suppressor genes have been implicated in carcinogenesis and tumor progression, their relationship to the development of genomic instability has not been elucidated. To examine this role, we transfected oncogenes (polyomavirus middle [Py] and large T [MT and LT]) and adenovirus serotype 5 E1A) into two NIH 3T3-derived cell lines, EN/NIH 2-4 and EN/NIH 2-20. Both cell lines contain two stable integrants of a variant of the retrovirus vector pZipNeoSV(x)1 that has been modified by deletion of the enhancer elements from the long terminal repeats. DNA rearrangements activating the silent neomycin phosphotransferase gene (neo) present in these integrants were identified by selection of cells in the antibiotic G418. Whereas control-transfected EN/NIH cell lines do not yield G418-resistant subclones (GRSs), a fraction of oncogene-transfected EN/NIH 2-4 (8 of 19 Py MT, 5 of 17 Py LT, and 11 of 19 E1A) and 2-20 (7 of 15 Py MT) cell lines gave rise to GRSs at differing frequencies (0.33 x 10(-6) to 46 x 10(-6) for line 2-4 versus 0.11 x 10(-6) to 1.3 x 10(-6) for line 2-20) independent of cell generation time. In contrast, a distinctly smaller fraction of mutant Py MT-transfected EN/NIH cell lines (1 of 10 MT23, 1 of 10 MT1015, and 0 of 10 MT59b) resulted in GRSs. Southern analysis of DNA from selected oncogene-transfected GRSs demonstrated genomic rearrangements of neo-containing cellular DNA that varied in type (amplification and/or novel fragments) and frequency depending on the specific oncogene and EN/NIH cell line used in transfection. Furthermore, only one of the two neo-containing genomic loci present in both EN/NIH cell lines appeared to be involved in these genomic events. In addition to effects related to the genomic locus, these observations support a role for oncogenes in the development of genetic changes associated with tumor progression.
 ...
PMID:Oncogenes result in genomic alterations that activate a transcriptionally silent, dominantly selectable reporter gene (neo). 130 88

We describe the transformation of C127 mouse fibroblasts with human papillomavirus type 6b (HPV-6b) DNA, which is associated primarily with benign tumors of the human genital tract. The major transformed phenotype of the HPV-6b-transfected cells lines, which had been G418 selected, pooled, and maintained without subsequent selection, was tumorigenicity in nude mice. We found that, unlike that reported for other HPVs or papovaviruses, the transformed phenotype was expressed after a delay, in which the cells had undergone extensive culture passages (about 20 passages or 100 generations). Interestingly, the HPV-6b DNA had become reduced or nondetectable in copy number in the cells by the time the transformed phenotype was expressed and in most of the tumors induced by the cells in nude mice, indicating that high levels of HPV-6b DNA were not required for maintenance of the transformed phenotype. Clonal cell lines gave similar results. When continued G418 selection was used to maintain high-copy-number HPV-6b DNA, the cells were tumorigenic, indicating that high levels of HPV-6b DNA did not suppress tumorigenesis. These studies suggest that HPV-6b DNA initiates transformation of C127 cells but is dispensable for expression or maintenance of the transformed phenotype. Transformation by HPV-6b DNA in vitro may provide insights into the HPV type-specific association with benign versus malignant lesions in vivo and may elucidate some of the oncogenic processes involved in tumor progression.
 ...
PMID:Human papillomavirus type 6b DNA required for initiation but not maintenance of transformation of C127 mouse cells. 215 22

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.
 ...
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

In the experiments reported here, I was unable to detect any fusion between host cells and transplanted tumor cells; however, spontaneous hybridization between tumor cells appears to occur in the B16 melanoma. This hybridization was demonstrated by mixing together B16-F10RR cells (universal fusers) and B16-F10 cells, allowing them to grow in close juxtaposition, and recovering putative hybrids in the appropriate selection media. The tumor cell-tumor cell composition of the resultant hybrids is inferred from the relative frequency of fusions, compared with the infrequency of tumor cell-host cell fusion when single populations of B16-F10RR cells were used, and by the chromosomal content of the hybrids. Definitive proof that hybridization occurs between both types of tumor cell rather than between a tumor cell and some other type of cell would require the use of a third biochemical marker on the unmarked tumor cells. I am now repeating these experiments using B16-F10 cells that exhibit resistance to the neomycinlike antibiotic G418. Nonetheless, it is not surprising to find that such closely related tumor cells fuse with one another. The efficiency of in vitro hybridization mediated by polyethylene glycol is increased when the hybridizing cells are histologically or developmentally related, so that B16 melanoma cells fuse more readily with one another than they do with unrelated cells such as UV-2237 cells (I. Hart, unpublished observations). Moreover, early hybridization protocols did not call for the use of fusogens, but merely the cocultivation of participating cells in the two-dimensional constraints of a tissue culture dish (e.g., Barski et al. 1961, Silagi 1967). Presumably, the increased contact between cells within a growing tumor mass would increase the likelihood of such spontaneous fusion. In vivo hybridization could play a significant role in neoplastic progression and variation in metastatic efficiency by at least two separate, but not necessarily mutually exclusive, mechanisms. First, fusion of two contiguous tumor cells would increase the chromosome content of the resultant single cell; this increase in ploidy could facilitate and heighten the apparent inherent genetic instability of neoplastic cells (Nowell 1976). Although segregation and chromosome loss may or may not be random or preferential in nature (Campbell and Worton 1981), the mere occurrence of such a phenomenon could also cause chromosomal disjunction and the possible extinction and reexpression of specific genes, which would lead to the independent variation and progression of different tumor cell characteristics in the manner cited by Foulds (1969).(ABSTRACT TRUNCATED AT 400 WORDS)
 ...
PMID:Tumor cell hybridization and neoplastic progression. 638 3

Selective outgrowth of v-H-ras-infected 10T1/2 cells based on the cointroduction of a gene for resistance to geneticin (G418), yielded cells which exhibited an increased capacity to bind polyclonal serum natural antibody (NAb). This demonstrated an NAb-susceptible phase of tumor development which would be a basic requirement for NAb-mediated surveillance of tumors. The ras-oncogene dependence of the high-NAb-binding phenotype provided a model for assessing NAb resistance against ras transformants in vivo and for a comparative analysis of phenotypic and genetic alterations contributing to the progression of ras transformants. Variants were developed through in vitro and in vivo models of tumor progression. T24-H-ras and v-H-ras transformants were isolated in vitro through more rigorous growth conditions, focus formation in the presence of untransformed cells with no selecting drug. These clones expressed p21ras but exhibited little or no increase in NAb binding. Variants recovered following growth from intravenous or threshold subcutaneous (s.c.) inocula of high-NAb-binding ras transformants in syngeneic C3H/HeN mice exhibited decreases in NAb binding but no uniform change in p21ras. Concurring inverse correlations between NAb binding and s.c. tumorigenicity were exhibited by the T24-H-ras transformant clones, the ras transformants grown in vivo, and the v-H-ras-transformed clones isolated in the presence versus the absence of untransformed cells. This consistent inverse correlation, together with the reduced NAb binding of the ras transformants grown in vivo, provides strong evidence that NAb participates in the defense against ras-transformed cells in vivo. The lack of any direct correlation between p21ras expression and the reduction in NAb binding or the increase in tumorigenicity of cells generated through progression in vivo suggested the regulatory action of additional genes. Hybridization studies between high- and low-NAb-binding clones implicated the activation of an additional oncogene and inactivation of an antioncogene in the down-regulation of the ras-induced increases in NAb binding associated with tumor progression.
 ...
PMID:p21ras independent down-regulation of ras-induced increases in natural antibody binding during tumor progression. 759 59

Overexpression of p185erbB2/neu has been detected in many adenocarcinomas, including prostatic cancer. In this study, a nontumorigenic cell line isolated from the rat prostatic epithelium (NbE) transfected with the activated oncogene p185neu-T was used to investigate the role of this oncogene in tumor progression. When clones overexpressing p185neu-T were injected orthotopically (1.5 to 2 x 10(6) cells) into the dorsal-lateral prostates of nude mice, prostatic tumors were detected in all mice injected and metastasis to the skeletal muscle in the rib area in 60-80% of the mice injected. Tumor and metastasis origin was confirmed by reselection with G418 and reverse transcriptase-polymerase chain reaction. Control cell lines produced no prostatic tumors or metastases. Incubation at low density (12500 cells/2 cm2) in serum-free medium revealed that clones overexpressing p185neu-T had a higher rate of [3H]thymidine incorporation than did control clones on 3, 5, and 7 d after plating (P < or = 0.0001) and constitutively overexpressed the 2.6-kb ornithine decarboxylase transcript. Additionally, clones overexpressing p185neu-T demonstrated an increased expression of epidermal growth factor receptor and p180erbB4, as judged by RNA blot analysis. Together these data support the hypothesis that overexpression of p185neu-T fosters tumor progression by several pathways, including induction of the metastatic cascade, increased proliferative capabilities, and increased expression of other members of the erbB2 gene family.
 ...
PMID:Metastasis induced by overexpression of p185neu-T after orthotopic injection into a prostatic epithelial cell line (NbE). 925 83

Genomic alterations in primary breast cancer play a role in the initiation and progression of the disease. We have analyzed the molecular events involved in the initiation and progression of the neoplastic process in an in vitro experimental system. Immortalization of human breast epithelial cells (HBEC) is associated with 3:9 translocation, p53 mutation and microsatellite instability (MSI) of chromosomes 11p13, and 17p. BP1-E cells, derived from the immortalized MCF-10F cells transformed by the carcinogen benzo(a)pyrene (BP), express in vitro growth advantage, anchorage independence, enhanced chemoinvasiveness, loss of ductulogenic capabilities and tumorigenesis in a heterologous host. This neoplastic progression is also associated with mutations and/or amplification of c-H-ras, int-2, c-neu, c-myc and MDM2, MSI at 11q25 and 13q12-q13 and loss of heterozygosity at 17p. In order to test whether chromosomes 11 or 17 play a functional role in the phenotypic expression of transformation of BP1E cells, we utilized microcell-mediated chromosome transfer (MMCT) technique for inserting the corresponding normal chromosomes to these transformed cells. BP1E cells were transfected with PsV2neo plasmid and fused with microcells obtained from the mouse cell line A9, containing a normal chromosome 11 or 17 (A9-11neo and A9-17neo cells, selected in G418 and cloned. Sixteen primary microcell hybrids from each chromosome transfer, designated BP1E-11neo and BP1E-17neo survived selection in G-418 containing medium. A single clone from each group, BP1E-11neo #145 and BP1E-17neo D100, survived subcloning and were utilized for a detailed panel of analyses. The presence of a donor chromosome was confirmed by dual color fluorescence in situ hybridization (FISH), southern blot analysis of the marker vector pSV2neo, and microsatellite polymorphism analysis. The transfer of the normal chromosomes 11 and 17 resulted in a 50% and 90% inhibition of cell growth respectively, and reduced both colony efficiency and colony size. Telomerase activity was significantly reduced only by chromosome 17 insertion, providing a possible explanation for the more significant senescence observed in BP1E-17neo D100 cells. Microsatellite polymorphism analysis revealed that three loci, 11q13-23, 11q23.1, and 11q23.3 (markers D11S911, DRD2, and D11S29) were retained in BP1E-11neo #145 cells, and two, 17q24.2-25.2, 17q25.2 (markers D17S515 and D17S785 were retained in BP1E-17neo D100 cells. We conclude that the specific regions of normal chromosomes 11 and 17 transferred play a functional role in the expression of immortal and transformed phenotypes of HBEC in vitro.
 ...
PMID:Functional roles of chromosomes 11 and 17 in the transformation of human breast epithelial cells in vitro. 1049 42

Increased expression of matrix metalloproteinases (MMPs) has been associated with human glioblastoma tumor progression. In this study, we sought to down-regulate MMP-9 expression by stably transfecting a high-grade glioblastoma cell line with a plasmid vector capable of expressing an antisense transcript complementary to a 528-bp segment at the 5' end of human MMP-9 cDNA. Stable transfectants were obtained through selection with G418. Of the clones transfected with vector, sense, and antisense constructs, Northern blotting, Western blotting, and gelatin zymography showed that MMP-9 expression was significantly reduced only in the antisense-transfected cells. A Matrigel invasion assay revealed marked reductions in invasiveness for the antisense clones relative to the parental, vector, and sense clones. Cocultures of tumor spheroids and fetal rat brain aggregates showed that the antisense-transfected stable clones showed no invasion of the rat brain aggregates; in contrast, 90% of the parental, vector, and sense clones invaded the rat brain aggregates. Intracerebral injection of antisense stable transfectants in nude mice produced no tumors or very small tumors, but intracerebral injection of parental or vector clones did produce tumors. These results suggest that MMP-9 expression is essential for the invasiveness of glioblastoma cells.
 ...
PMID:Selective suppression of matrix metalloproteinase-9 in human glioblastoma cells by antisense gene transfer impairs glioblastoma cell invasion. 1115 78