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: UNIPROT:P04637 (p53)
77,613 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

This is a time of rapid progress in the field of human bronchogenic carcinogenesis due to recent advances in cellular and molecular biology. Important developments over the last 10 years include establishment of methods for culturing NHBE cells under defined conditions, and molecular biological and biochemical epidemiological techniques for identifying genetic changes that are associated with malignant transformation of these cells. Most progress in defining genes associated with human carcinogenesis has been due to discoveries related to oncogenes and more recently, tumor suppressor genes. As was described in Section II.B.3.a, we now know that oncogene products serve as growth factors, growth factor receptors, and cytosolic and nuclear regulatory proteins. In addition, although the actions of putative tumor suppressor genes are less well understood, the first isolated tumor suppressor gene Rb, interacts with the products of DNA viruses which, in turn, are involved in regulation of transcription as was described in Section II.B.3.b. Thus, not surprisingly, both oncogenes and tumor suppressor genes code for classes of proteins that are known to play an important role in regulation of cell proliferation. Recently, a second gene that appears to possess tumor suppression activity (p53) has been identified on the short arm of chromosome 17 (17p). The initial data suggesting a possible tumor suppressor gene on chromosome 17p came from cytogenetic and RFLP studies associating loss of heterozygosity in the chromosome 17p13 region with tumor cells and tissues. Since the p53 gene is located in this region it was evaluated and found to be frequently or always altered in several types of tumor cells. Recently, it was determined that introduction of the wild-type p53 gene into NIH3T3 cells will inhibit subsequent malignant transformation. Thus, the preponderance of evidence now supports the hypothesis that while mutated p53 acts as an oncogene, the wild-type p53 gene codes for a tumor suppressor function. The role of balance between oncogenes and tumor suppressor genes in control of proliferation is presently an active area of investigation. As discussed, introduction of a chromosome containing a tumor suppressor gene will suppress tumorigenicity of a malignant cell line, even though that cell line possesses an active c-Ha-ras oncogene. Whether or not the level of expression of an activated oncogene is related to tumorigenicity is presently being investigated.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Cellular and molecular biological aspects of human bronchogenic carcinogenesis. 219 49

The expression of genes coding for the ATP/ADP translocase, calcyclin, ornithine decarboxylase, vimentin, proto-onc genes p53 and c-Ha-ras1 and also for two genes JE and KC with as yet unknown function was studied during regeneration of rat liver. Genes highly induced were: JE (2-8 h of regeneration), ATP/ADP translocase (8-18 h), c-Ha-ras-1 (6-48 h) and p53 (6-12 h). Vimentin and KC gene transcripts were not detectable in the first 48 h of liver regeneration, whereas ornithine decarboxylase and calcyclin gene transcripts were present at constant levels. Our findings extend the list of genes expressed at the early stages of liver regeneration.
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PMID:Expression of "cell-cycle-dependent" genes in regenerating rat liver. 245 62

The development of chemically induced hepatocellular carcinoma in the rat proceeds through a series of premalignant changes that may ultimately progress to a primary malignant tumor. Using the selection technique based on diminished binding of preneoplastic hepatocytes to tissue culture plates precoated with asialofetuin, we have isolated poly(A+)RNA from early preneoplastic foci as well as preneoplastic persistent nodules and primary hepatocellular carcinoma induced by the Solt-Farber protocol in the Fischer rat. The steady-state poly(A+)RNA levels of genes traditionally associated with growth, differentiation and/or transformation were then determined to address the question of their temporal expression in the multistep nature of cancer development. Ornithine decarboxylase- and P53-specific transcripts did not significantly change in preneoplastic foci but were increased in later-stage preneoplastic nodules and hepatocellular carcinoma. Albumin-specific transcripts were decreased in all hepatocellular carcinoma but there was no consistent coordinated increase in alpha-fetoprotein-specific transcripts. c-myc and raf transcripts increased at the very early preneoplastic foci stage and continued to increase throughout the neoplastic process. No L-myc or N-myc transcripts could be detected in any RNA sample. c-Ha-ras-specific transcripts were essentially unaltered in all RNA samples whereas no c-Ki-ras or N-ras transcripts could be detected throughout the neoplastic process. In addition, no dominant-acting transforming mutations in the ras gene family were detected by DNA transfection experiments using NIH/3T3 cells.
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PMID:Poly(A+)RNA levels of growth-, differentiation- and transformation-associated genes in the progressive development of hepatocellular carcinoma in the rat. 246 94

Injection of sublethal doses of cycloheximide (CHI) to rats allowed to reveal three stages in the dynamics of protein synthesis: 1) suppression stage (0-6 hrs), 2) regeneration stage (6-12 hrs), 3) stimulation stage (6-12 hrs). RNA-polymerases are activated when protein synthesis is inhibited. The stimulation stage precedes the activation of DNA replication. This model of DNA replication induced by CHI is specified by the expression of various cell oncogenes (c-fos, c-mys, p53, c-Ha-ras, c-sis, c-src). The investigated oncogenes may be divided into 4 groups according to the character of their expression. 1. Oncogenes (c-fos, c-myc) are switched on step-by-step 1 hour after CHI injection, the superexpression of the oncogenes being comparatively short. Maximum expression of c-fos and c-myc oncogenes is registered after 2-3 hours, respectively. 2./p53 oncogene expression increases within a few hours' after CHI injection and manifests itself at all three stages of protein synthesis till DNA replication. 3. c-Ha-ras oncogene is expressed at a high level in control and experimental animals. 4. Expression of c-sis and c-src oncogenes are absent both before and after CHI injection. Sublethal doses of CHI have the same effect on oncogene expression as the lethal ones.
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PMID:[Expression of oncogenes in the rat liver under conditions of template biosynthesis uncoupling by sublethal doses of cycloheximide]. 247 62

Contact-inhibited Kaposi's sarcoma-derived cells (KS cells) were transfected with Simian Virus 40 (SV40) DNA. Transformed cells (SV-KSC) were selected for their capacity to form foci on monolayers of the low-malignant KS cells. Isolated SV-KSC foci were found to contain integrated SV40 DNA sequences and to express SV40 large T-antigen. Several differentiation properties of KS cells are retained in the SV40 transformants, e.g., expression of vimentin and the endothelial cell marker BMA 120. In contrast to the maternal KS cells, SV-KSC are capable of growing in platelet-derived growth factor (PDGF)-depleted platelet-poor-plasma serum (PPPS) and in soft agar. However, they are not tumorigenic in nude mice. Expression of the oncogenes c-myc, c-N-ras, c-Ha-ras, and p53 is significantly elevated in SV-KSC, whereas c-fos and c-erb B expression is comparable to that of KS cells and fibroblasts. Conditioned medium from SV-KSC can substitute for PDGF when PDGF-dependent, nontransformed KS cells are grown in PPPS. Biochemical analysis of the SV-KSC supernatant and PDGF A and B mRNA expression analysis provide evidence that the mitogenic activity is not due to a PDGF-like growth factor. On the other hand, there is evidence to indicate that the SV-KSC mitogen is a member of the fibroblast growth factor family. SV-KSC represent an interesting model system for the study of different degrees of malignancy of cultured mesenchymal cells and especially provide an important source for the isolation of a potent growth factor for KS cells and other mesenchymal cells in vitro.
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PMID:Cytochemical and molecular properties of simian virus 40 transformed Kaposi's sarcoma-derived cells: evidence for the secretion of a member of the fibroblast growth factor family. 255 9

The molecular mechanisms underlying premalignant gastrointestinal diseases, such as ulcerative colitis and Barrett's esophagus, remain unknown. For this reason, the expression of the protooncogene c-Ha-ras was studied in ulcerative colitis and Barrett's esophagus. Total cellular RNA was extracted from different regions of the gastrointestinal tract in these two diseases. Expression of c-Ha-ras was greater in proximal than in distal colon and undetectable in Barrett's esophagus. These regional differences in expression were not seen with the control gene beta-actin or with the protooncogenes c-myc and p53. In order to evaluate structural factors contributing to expression, amplification and methylation of c-Ha-ras DNA were studied in these tissues by Southern and slot blotting. No amplification of c-Ha-ras or six other protooncogenes was detected. These data suggest tissue-specific regulation of c-Ha-ras expression in the gastrointestinal tract in certain premalignant disease states.
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PMID:Tissue-specific expression of c-Ha-ras in premalignant gastrointestinal mucosae. 255 32

The expression of oncogenes (c-myc, c-fos, c-Ki-ras, c-Ha-ras, and p53) was examined by Northern blot analysis using freshly isolated human colorectal and gastric cancers and noncancerous portions as the controls. Remarkably high levels of c-myc expression were found in colorectal cancers (eight of 11), but not in gastric cancers. High levels of c-myc expression were also detected in colorectal polyps and in metastatic liver tumors. In colorectal polyps, the transcript levels significantly correlated with the histologic malignancy and the size. In contrast, neither c-fos nor c-Ki-ras was overexpressed in colorectal and gastric cancers, and transcripts of c-Ha-ras and p53 were not evident in any tissue examined. In light of these observations the c-myc expression may be specifically associated with the evolution of colorectal cancer as well as progression and maintenance stages, hence may prove to be a useful marker to evaluate the malignant potential of colorectal polyps.
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PMID:Expression of c-myc oncogene in colorectal polyps as a biological marker for monitoring malignant potential. 274 65

Two mutant cell lines, R-1 and R-2, have been isolated from EJ/NIH (NIH/3T3 transformed by a human activated c-Ha-ras gene) by treatment with ethyl-methane-sulfonate (EMS). They reveal various characteristics of normal cells, and seem to have reversed to the original cells. Especially, R-1 shows a very flat morphology, complete contact inhibition, anchorage dependent cell growth and no tumorigenecity. Although transformed phenotypes are intensively suppressed, R-1 does not seem to secrete suppressive factors to the parent cell line. The activated c-Ha-ras (EJ-ras) could be detected as a 6.6 kb BamHI fragment in R-1 as well as in EJ/NIH. The level of transcription and translation in R-1 was also the same as that in EJ/NIH. Moreover, the DNA isolated from R-1 cells had a high transforming activity to NIH/3H3, suggesting that R-1 contained the EJ-ras as an activated oncogene. The levels of transcription of c-myc, c-fos, p53 and other ras family genes was unchanged between EJ/NIH and R-1. Further, R-1 cells are resistant to retransformation by EJ-ras, v-src, v-mos and SV40T genes, and DNAs isolated from EJ/NIH or NIH/3T3 could not transform R-1 cells. All these findings suggest that some genes necessary for transformation by EJ-ras, except for c-myc, c-fos, p53 and ras proto-oncogenes, are defective or some inhibitory genes against transformation are enhanced in R-1 cells.
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PMID:[A study on reversion of the human activated c-Ha-ras-transformed cells]. 307 18

The length of the prereplicative period after stimulation of quiescent WI-38 cells is prolonged in proportion to the length of time the cells are incubated prior to serum addition. Previous results from this laboratory have shown that this prolongation does not result from a delay in the induction of events which occur during the G0/G1 transition (i.e. c-fos or c-myc expression) (Owen, T., Cosenza, S., Soprano, D. R., and Soprano, K. J. (1987) J. Biol. Chem. 262 15111-15117). It was the goal of the present studies to examine the expression of other growth-associated genes known to be induced and maximally accumulate later in G1 to identify genes whose expression is coupled to entry into S rather than mitogenic stimulation. In order to do this, the temporal pattern of expression of a variety of growth-associated genes (thymidine kinase, p53, 2A9/calcyclin, ornithine decarboxylase, 4F1/vimentin, and c-Ha-ras) was studied in WI-38 cells stimulated either 12 days or 26 days after plating. We report that the time of induction and maximum accumulation of each of these transcripts, with the exception of c-Ha-ras, was delayed in the 26-day cell group for 10 h, a period of time approximately equal to the length of delay in entry of these cells into S. Thus the expression of these particular genes would appear to be closely coupled in time and sequence to the entry of cells into S. These results suggest that the prolongation of the prereplicative period in WI-38 cells is located in early G1, following the events leading to c-fos and c-myc induction but prior to the induction and maximum accumulation later in G1 of other growth-associated genes such as ornithine decarboxylase and 4F1/vimentin. In addition, these results provide molecular evidence for a definitive programmed order of gene expression during the progression of cells out of G0 through G1 to S.
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PMID:Evidence that the time of entry into S is determined by events occurring in early G1. 313 30

In a recent paper, we described the expression pattern of proto-oncogenes in primary human renal cell carcinoma [12]. To test the possibility of using xenografts as a useful alternative for such studies, we analyzed xenografts of a number of human renal cell carcinomas in nu/nu mice. Xenografts included RC2, RC14, RC21, RC43 and NC65. Northern blot analysis indicated that c-Ras was expressed in all these xenografts. The identity of the ras transcripts in the individual xenografts was further specified as c-Ha-ras, c-Ki-ras or N-ras. Expression of c-myc and the p53 gene was also found in a number of these tumors. Only RC21 failed to express the c-myc or the p53 gene. In all xenografts, a 3.0 kb c-fes/fps mRNA was present. In RC2, RC14, RC21 and RC43, low levels of the 4.8 kb ab 1 transcript were detectable. Transcripts of myb and sis could not be detected in any of the xenografts. The results indicated that the expression pattern of a variety of proto-oncogenes in xenografts of human renal cell carcinomas was similar to that in the primary tumors.
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PMID:Expression of proto-oncogenes in xenografts of human renal cell carcinomas. 332 44


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