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Query: UNIPROT:P06889 (Mol)
 630,302 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Long-term culturing of brain cells from neonatal BD-IX rats after transplacental treatment with N-ethyl-N-nitrosourea (ENU) results in malignantly transformed cells after a lag period of about 250 days. During culturing, the brain cells undergo a sequence of morphological changes. We examined oncogene expression in cultured cells from ENU-treated animals and found that transformed glioma cells differ from premalignant glial cells by containing high levels of c-sis transcripts. We also report that the transformed cells synthesize functional platelet-derived growth factor. Because glial cells have receptors for platelet-derived growth factor, we propose that an autocrine mechanism plays an important role in ENU-induced brain tumorigenesis.
Mol Cell Biol 1986 Oct
PMID:Expression of c-sis and platelet-derived growth factor in in vitro-transformed glioma cells from rat brain tissue transplacentally treated with ethylnitrosourea. 354 May 93

To identify proteins whose production may be altered as a common event in the expression of structurally diverse oncogenes, we compared two-dimensional electropherograms of newly synthesized proteins from NIH/3T3 cell lines transformed by a variety of retroviral oncogenes, from cellular revertant lines, and from a line (433.3) which expresses the v-ras oncogene in response to corticosteroids. Most alterations in the synthesis of specific proteins detected by this approach appeared to be the result of selection during prolonged cultivation and were probably unrelated to the transformation process. However, we detected seven proteins whose synthesis was strongly suppressed in cell lines transformed by each of the six retroviral oncogenes we studied and whose production was fully or partially restored in two cellular revertant lines. Suppression of two of these proteins was also correlated with the initial appearance of morphological alteration during corticosteroid-induced oncogene expression in 433.3 cells. These proteins (p37/4.78 and p41/4.75) were identified as tropomyosins, a group of at least five cytoskeletal proteins. Transformation by the papovaviruses simian virus 40 and polyomavirus caused no suppression of synthesis of these tropomyosins. This indicates that suppression of tropomyosin synthesis is not a nonspecific response by cells to being forced to grow with the transformed phenotype but is specifically associated with oncogenesis by diverse retroviral oncogenes. The results are consistent with the hypothesis that the different biochemical processes initiated by expression of structurally diverse retroviral oncogenes may converge on a limited number of common targets, one of which is the mechanism which regulates the synthesis of tropomyosins.
Mol Cell Biol 1985 May
PMID:Suppression of tropomyosin synthesis, a common biochemical feature of oncogenesis by structurally diverse retroviral oncogenes. 400 Jan 23

Studies were made of the ultracytochemical changes in the cell membrane and microfilaments of colonic epithelial cells during tumorigenesis induced by 1,2-dimethylhydrazine (DMH) in mice fed a high fat diet. The tumor cells showed reduced membrane ATPase activity and loss of contact with neighboring cells. Microfilaments in tumor cells showed an irregular intensity of fluorescent staining. Their actin filaments bound with heavy meromyosin (HMM) had an arrowhead pattern as in normal cells, but these complexes were shortened and detached from the cell membrane. The arrowheads were directed toward the interior in the terminal web of tumor cells. Microfilaments with long rootlets extended to the apical surface of some tumor cells. These results indicate that during development of colonic tumors, the structures of the cell membrane and microfilaments of the cells changes.
Virchows Arch B Cell Pathol Incl Mol Pathol 1984
PMID:Ultracytochemistry of the cell surface and microfilaments in dimethylhydrazine-induced colonic tumor cells. 615 Dec 96

Chromosome changes accompanying differentiation and tumorigenesis in azacytidine- (azaC) and insulin-induced preadipocytes of the Chinese hamster embryo fibroblast cell line CHEF/18 are described. Karyotype analysis of 47 clones, subclones, and tumor-derived cells has shown that trisomy for chromosome 3q (mar 1) is characteristic of azaC preadipocytes but not of insulin preadipocytes. AzaC preadipocytes were consistently tumorigenic as well as trisomic for chromosome 3q, whereas most insulin preadipocytes were nontumorigenic and diploid. Only the few insulin preadipocytes that were tumorigenic were also trisomic for chromosome 3q. Among the tumor-derived cell lines recovered from azaC preadipocytes injected into nude mice, four had no additional chromosome changes except trisomy for 3q, as detected by karyotype analysis. Thus trisomy for 3q may be a sufficient chromosome change to induce tumor-forming ability in these cells. The rearrangements of chromosome 3 seen in this and other work pinpoint the trisomic region between the centromere and 3q5.
Somat Cell Mol Genet 1984 Sep
PMID:Genetic analysis of tumorigenesis: XVI. Chromosome changes in azacytidine- and insulin-induced tumorigenesis. 620 76

A genetic map of the W incompatibility group plasmid pSa has been prepared through the construction of deletion derivatives of pSa and the cloning of various fragments of pSa in pBR322. Phenotypic analysis of these derivatives has identified the location of genes encoding resistance to chloramphenicol, sulfonamides, spectinomycin, streptomycin, kanamycin, gentamycin, and tobramycin. Information sufficient for the replication of the plasmid in both Escherichia coli and Agrobacterium tumefaciens is contained within a 4 kilobase pair region. Two regions have been identified as involved in the transfer of the plasmid; one of these regions is also involved in the inhibition of oncogenesis by pSa when it is present in an oncogenic strain of A. tumefaciens. Certain of the deletion derivatives of pSa are potential vectors for the cloning and analysis of A. tumefaciens Ti plasmid DNA.
Mol Gen Genet 1982
PMID:Genetic map of the crown gall suppressive IncW plasmid pSa. 628 64

A modified polyoma virus genome which can encode the middle T protein but not the large or small T proteins transforms rat cells in culture with an efficiency about 20% that of the wild-type genome. Although middle T-transformed cells grow as tumors when transplanted into nude mice or syngeneic rats, the middle T gene alone is totally inactive when used in a more stringent and rigorous assay for tumorigenicity such as the injection of DNA into newborn rats. Thus, functions other than those expressed by middle T antigen are required for the elaboration of all the properties associated with tumorigenesis. To assess whether a complementary function could be exerted by the large or the small T antigen, we constructed plasmids containing two modified early regions which independently encoded middle T and one of the two other proteins. Both recombinants were tumorigenic in newborn rats. Cell lines derived by transfer of these plasmids under no special selective conditions did not acquire the property of growth in low-serum medium but exhibited the same tumorigenic properties as wild-type polyoma DNA-transformed cells. Furthermore, a recombinant which encoded the middle and small T antigens, but not the large T antigen, was tumorigenic in newborn rats. Although the small T antigen provides a complementary function for tumorigenicity, it cannot complement the middle T antigen for an efficient induction of transformation of cultured cells. This suggests that the complementary function exerted by the small T antigen is different from that of the N-terminal fragment of the large T protein.
Mol Cell Biol 1983 Aug
PMID:Role of the three polyoma virus early proteins in tumorigenesis. 631 93

Viral mammary tumorigenesis in mice is frequently initiated by proviral activation of a highly conserved cellular gene called int-1. We have cloned the human homolog of this putative mammary oncogene and compared its structure to that of the mouse gene by heteroduplex analysis. The human int-1 gene was localized on chromosome 12 by use of somatic cell hybrids.
Mol Cell Biol 1984 Nov
PMID:Molecular cloning and chromosomal assignment of the human homolog of int-1, a mouse gene implicated in mammary tumorigenesis. 651 29

The 5.8S rRNA of normal tissues contains a partially 2'-O-methylated uridylic acid residue which is methylated in the cytoplasm and undermethylated in rapidly growing neoplastic tissues (R. N. Nazar, T. O. Sitz, and K. D. Somers, J. Mol. Biol., 142: 117-121, 1980). This difference in methylation was further characterized by examining the effect of cell age or cell culture passage number on the level of methylation of 5.8S RNAs from normal and malignant cell lines and simultaneous changes in intracellular pools of S-adenosylmethionine and S-adenosylhomocysteine. The results indicate that the level of methylation decreases continuously with cell culture passage number as the cells become aneuploid, transformed, or tumorigenic, but there is no direct correlation with the intracellular pools of S-adenosylmethionine or S-adenosylhomocysteine. In contrast, there is a dramatic but inverse increase in the S-adenosylmethionine:S-adenosylhomocysteine ratio which correlates with the decreasing levels of 2'-O-methylation. The significance of these changes in substrate levels to the hypomethylation of 5.8S and other RNAs during oncogenesis is discussed.
 ...
PMID:Significance of S-adenosylmethionine pools in the hypomethylation of ribosomal RNA during the propagation of tissue culture cells and oncogenesis. 658 62

Mutagenesis of the vir region on the Ti plasmid of Agrobacterium tumefaciens revealed a new locus, virJ, that is induced by the plant-wound signal molecule, acetosyringone (AS). virJ lies between virA and virB, and is transcribed in the same direction. The amino acid sequence of virJ is similar to a region of a previously characterized chromosomal gene, acvB, required for virulence. virJ can complement the avirulent phenotype of an acvB mutant, indicating that virJ and acvB encode the same factor required for tumorigenesis. Southern analysis revealed that virJ is present on the Ti plasmid of an octopine but not a nopaline strain whereas acvB is present on the chromosomes of both octopine and nopaline strains. While virJ is regulated by AS under the control of the virA/virG two-component regulatory system, acvB is not induced by AS. VirJ possesses a putative signal peptide and was found predominantly in the periplasmic fraction. The strain lacking both acvB and virJ had an impaired ability to transfer T-DNA into plant cells, suggesting that the factor encoded by virJ or acvB is required for T-DNA transfer from A. tumefaciens to plant cells. acvB is the first chromosomal gene implicated in T-DNA transfer, but whether it functions specifically for this process is not clear. We hypothesize that virJ evolved from acvB, presumably for a more specialized role in tumorigenesis.
Mol Microbiol 1995 Jul
PMID:An Agrobacterium virulence factor encoded by a Ti plasmid gene or a chromosomal gene is required for T-DNA transfer into plants. 749 75

The causative factors leading to breast cancer are largely unknown. Increased incidence of breast cancer following diagnostic or therapeutic radiation suggests that radiation may contribute to mammary oncogenesis. This report describes the in vitro neoplastic transformation of a normal human mammary epithelial cell strain, 76N, by fractionated gamma-irradiation at a clinically used dose (30 Gy). The transformed cells (76R-30) were immortal, had reduced growth factor requirements, and produced tumors in nude mice. Remarkably, the 76R-30 cells completely lacked the p53 tumor suppressor protein. Loss of p53 was due to deletion of the gene on one allele and a 26-bp deletion within the third intron on the second allele which resulted in abnormal splicing out of either the third or fourth exon from the mRNA. PCR with a mutation-specific primer showed that intron 3 mutation was present in irradiated cells before selection for immortal phenotype. 76R-30 cells did not exhibit G1 arrest in response to radiation, indicating a loss of p53-mediated function. Expression of the wild-type p53 gene in 76R-30 cells led to their growth inhibition. Thus, loss of p53 protein appears to have contributed to neoplastic transformation of these cells. This unique model should facilitate analyses of molecular mechanisms of radiation-induced breast cancer and allow identification of p53-regulated cellular genes in breast cells.
Mol Cell Biol 1994 Apr
PMID:Loss of p53 protein during radiation transformation of primary human mammary epithelial cells. 751 Dec 7


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