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:C0178874 (tumor progression)
40,807 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The ability of simian virus 40-encoded large T antigen to disrupt the growth control of a variety of cell types is related to its ability to interfere with certain cellular proteins, such as p53 and the retinoblastoma susceptibility gene product (pRB). We have used wild-type and mutant forms of T antigen in transgenic mice to dissect the roles of pRB, p53, and other cellular proteins in tumorigenesis of different cell types. In this study, using a cell-specific promoter to target expression specifically to brain epithelium (the choroid plexus) and to B and T lymphoid cells, we characterize the tumorigenic capacity of a T-antigen fragment that comprises only the amino-terminal 121 residues. This fragment (dl1137) retains the ability to interact with pRB and p107 but lacks the p53-binding domain. While loss of the p53-binding region results in loss of the capacity to induce lymphoid abnormalities, dl1137 retains the ability to induce choroid plexus tumors that are histologically indistinguishable from those induced by wild-type T antigen. Tumors induced by dl1137 develop much more slowly, however, reaching an end point at around 8 months of age rather than at 1 to 2 months. Analysis of tumor progression indicates that tumor induction by dl1137 does not require secondary genetic or epigenetic events. Rather, the tumor growth rate is significantly slowed, indicating that the T-antigen C-terminal region contributes to tumor progression in this cell type. In contrast, the pRB-binding region appears essential for tumorigenesis as mutation of residue 107, known to disrupt pRB and p107 binding to wild-type T antigen, abolishes the ability of the dl1137 protein to induce growth abnormalities in the brain.
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PMID:Induction versus progression of brain tumor development: differential functions for the pRB- and p53-targeting domains of simian virus 40 T antigen. 813 68

The role of loss or inactivation of the retinoblastoma (Rb1) and p53 tumor suppressor genes in the pathogenesis of various human malignancies has been well established, yet little is known regarding plasma cell dyscrasias. In the present study, the loss of Rb1 protein expression, and the presence of Rb1 gene rearrangements as well as the presence of p53 somatic mutations (exons 5 through 9) were investigated in a panel of plasma cell dyscrasias, including 15 monoclonal gammopathies of undetermined significance (MGUS), 63 multiple myelomas (MM), and 18 plasma cell leukemias (PCL). In the same panel of cases, we established the frequency of ras oncogene mutations, the main genetic lesion associated with MM. We report that loss of Rb1 protein and p53 mutations are detectable in 34.7 and 9.8% of MM and PCL primary cases; no lesion was found in MGUS. In advanced stage MM, and PCL cases, Rb1 and p53 inactivation, as well as ras mutations were detected. Our findings show that Rb1 and p53 inactivation are associated with aggressive plasma cell dyscrasias, suggesting a role for these lesions in tumor progression rather than initiation.
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PMID:Inactivation of tumor suppressor genes, p53 and Rb1, in plasma cell dyscrasias. 818 33

The retinoblastoma susceptibility gene (RB), the prototype of the class of tumor suppressor genes, is inactivated in a number of human malignancies. We investigated a possible role of RB in human brain tumors. Immunoprecipitation revealed frequent loss of RB protein expression in glioma cell lines (8/24), which was accompanied by lack of RB encoded transcripts. Among seventeen primary brain tumors studied by Western blotting, loss of Rb protein expression was observed in WHO grade 3 and 4 gliomas (3/10). However, none of the low grade gliomas and the other primary brain tumors investigated lacked RB protein expression. These data suggest a role for RB in glial malignancy, and loss of Rb expression appears to be associated with glial tumor progression.
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PMID:Loss in expression of the retinoblastoma gene product in human gliomas is associated with advanced disease. 828 93

Homozygous deletions of the tumor suppressor gene p16/MTS1 were reported in a wide variety of tumors and tumor cell lines. Its product inhibits the phosphorylation of the retinoblastoma protein (pRb) by CDK4 and CDK6. Because phosphorylation of pRb is a major regulatory event in the activation of the transcription factor E2F, a role for p16 in the regulation of E2F-dependent transcription was presumed. We investigated the effect of the loss of p16 on E2F-mediated transcription in a tumor progression model consisting of three cell lines originating from a common precursor cell--one p16-positive cell line established from the primary biopsy and two lines derived from more advanced stages of the tumor representing the same cell clone after loss of p16. We observed up- and deregulation of E2F-dependent transcription during the cell cycle of the p16-negative cell clones, which returned to normal after transient expression of p16. This p16-dependent regulation affects a set of enzymes necessary for the activation of all four DNA precursors; it is paralleled by the interconversion of transcriptionally active free E2F and transcriptionally inactive higher molecular complexes of E2F and is dependent on the existence of endogenous pRb. Furthermore, we show that p16-negative cell clones exhibit a growth advantage compared to their p16-positive counterparts. One might speculate that one feature of tumor progression could be deregulation of E2F-dependent transcription caused by loss of p16.
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PMID:Loss of the p16/MTS1 tumor suppressor gene causes E2F-mediated deregulation of essential enzymes of the DNA precursor metabolism. 856 96

Orthotopic transplantation of human tumors in nude mice reproduces the pattern of local growth and distal dissemination. The aim of our study was to determine the pattern of genetic alterations in human carcinomas of the exocrine pancreas orthotopically implanted and perpetuated in nude mice. Eight of the sixteen orthoimplanted human pancreatic carcinomas were perpetuated through several passages. Four perpetuated tumors followed distinct patterns of distal dissemination. Point mutations in the K-ras gene, genetic aberrations in the p53 and p16 genes, and allelic losses at retinoblastoma, adenomatous polyposis coli, and deleted in colorectal cancer loci were analyzed. Perpetuated tumors maintained the pattern of genetic alterations present in primary tumors. Five perpetuated tumors contained K-ras mutations, and all tumors contained p53 and/or p16 genetic aberrations. Allelic losses were present in four of the perpetuated tumors. Additional genetic alterations were detected in 6 of 35 metastases analyzed. Five of 9 peritoneal metastases or malignant ascitic cells acquired either K-ras or second p53 mutations. In contrast, only 1 of 25 liver metastases and none of the lymph node metastases acquired additional mutations. No additional p16 gene aberrations or other allelic losses were evidenced during tumor dissemination. We conclude that orthotopically implanted pancreatic carcinomas xenografted in nude mice show a high degree of genetic stability. Mutations in K-ras and p53 genes can occur in this model system in the more advanced stages of pancreatic tumor progression, mainly during peritoneal dissemination.
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PMID:Orthotopic xenografts of human pancreatic carcinomas acquire genetic aberrations during dissemination in nude mice. 897 Nov 80

Keratin 19 is an intermediate filament protein produced by cells of simple epithelia and basal cells of stratified epithelia of different organs. These cell types are associated with important human cancers. We have used the keratin 19 promoter to target the expression of the polyomavirus (Py) large T-antigen, an immortalizing oncogene known to bind to the tumor suppressor retinoblastoma gene product, to epithelial cells. Individuals of the transgenic mouse line K19PyLT-6 developed one or two nodules in one of their lungs. By histology, the nodules were papillary tumors that consisted of nonciliated epithelial cells of the terminal bronchioles. In addition, infiltrates emanating from the nodules were consistent with the development of pulmonary adenocarcinomas. In situ hybridization techniques demonstrated large T-antigen expression in the tumors. Primary cultures were established from a lung tumor dissected from a K19PyLT-6 transgenic mouse. These large T-antigen-expressing cell lines produced the keratin proteins reminiscent of the epithelial origin of the lung tumor. However, further molecular studies indicated that these cell lines did not express Clara cells or pneumocytes markers. s.c. injection of the cell lines into nontransgenic syngeneic mice produced tumors in 2 weeks that resembled malignant pulmonary adenocarcinomas. These animals, which display tumor progression in situ, and the cell lines derived thereof provide a useful system for the study of lung tumorigenesis.
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PMID:Transgenic mice bearing the polyomavirus large T antigen directed by 2.1 kb of the keratin 19 promoter develop bronchiolar papillary tumors with progression to lung adenocarcinomas. 901 64

Although there is no definitive evidence of the association of human cytomegalovirus (HCMV) infection with human cancers, the oncogenic potential of HCMV has been well established by in vitro studies demonstrating the ability of UV-irradiated or infectious virus to transform a variety of cells. After prolonged passaging the transformed cell type was maintained while HCMV DNA sequences were no more detectable. Three morphological transforming regions (mtr) of HCMV have been identified. The effects of HCMV on cellular functions which may be associated with the malignant phenotype include the expression of oncogenes and transcriptional activation of growth factors and interleukin synthesis. In infected cells, HCMV induces cytoskeletal alterations and changes in expression of cell surface receptors for extracellular matrix proteins which could result in increased motility and dissemination of cancer cells. Several human neuroblastoma cell lines undergo maturation in different neural crest derived cell types upon treatment with oncogenic potential agents, i.e. retinoic acid. The persistent HCMV infection of neuroblastoma cells (> 1 year) is accompanied by the increased expression of oncoproteins (i.e. N-myc) and decreased expression of tyrosine hydroxylase and dopamine-beta-hydroxylase. The activation of the cellular metabolism is due to HCMV binding to cellular receptors (prior to virus gene expression) and to the activity of HCMV immediate early (IE) gene products. IE proteins act directly as transcriptional activators or their activity is mediated by a variety of cellular transcription factors. HCMV infection may result in activation of promoters of cellular genes coding for cytokines, replication enzymes, proto-oncogenes and viral promoters. Recently it has been demonstrated that HCMV IE proteins block apoptosis probably by suppressing the ability of the antioncogene p53 to activate a reporter gene. The interactions of HCMV with tumor suppressor proteins such as p53 or retinoblastoma (pRb) susceptibility protein are reminiscent of those mediated by the oncoproteins of DNA tumor viruses. The acquisition of a fully malignant phenotype by normal cells is thought to require several mutations in a number of cellular genes. In this connection, HCMV may play the role of a nonobligate either direct or indirect cofactor for tumor genesis, e.g. by blocking apoptosis, which may be an essential requirement for tumor progression. Due to the stimulation of growth factors and/or inhibition of antioncogenes by its gene products, HCMV may modulate the malignant potential for tumor cells.
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PMID:Modulatory effects of human cytomegalovirus infection on malignant properties of cancer cells. 907 67

The etiopathogenesis of neoplastic diseases is characterized by its multiple nature. Multiple biological and physical agents have been identified as initiating or promoting neoplastic mechanisms. However, they all appear to have common molecular basis, granting genetic instability and causing somatic derangements to preneoplastic and tumor cells. Target genes implicated in cellular transformation and tumor progression have been divided into two categories: proto-oncogenes (that when activated become dominant events characterized by gain of function) and tumor suppressor genes (recessive events characterized by the loss of function). Alteration in proto-oncogenes and tumor suppressor genes seem equally prevalent among human cancers. Multiple mutations appear to be required to conform the malignant phenotype. It is, therefore, conceivable to view cancer as fundamentally a genetic disease entailing inherited (also called "germline") or acquired (also termed "somatic") mutations of genes in these two categories. The concept of tumor suppressor genes was established in studies with somatic cell hybrids, revealing that when malignant cells were fused with normal cells some of the hybrids were nontumorigenic. Clinically, the existence and relevance of this category of genes was based on epidemiological studies of the intraocular childhood tumor retinoblastoma, and it was postulated that two independent events were needed to inactivate a given gene. It was further shown that, in general, that was achieved by an allelic loss followed by a point mutation of the remaining allele. A family of genes has been characterized that follows this "two-hit" model including the two prototype suppressors genes: the retinoblastoma (RB) and the TP53 (also known as p53) genes. These genes encode a variety of molecules with distinct biological properties, including cell cycle regulation and cellular differentiation. Germline and somatic mutations of these genes appear to be the most common abnormalities found in human cancer including bladder neoplasms. More recent studies have shown that inactivation of some of these genes (i.e., TP53) occurs in bladder tumors that have a more aggressive clinical outcome and poor prognosis. In the following subheadings, the authors have reviewed the molecular abnormalities associated with these recessive genes in bladder tumors and discuss the potential clinical use of their detection. The implementation of objective predictive assays to identify these alterations in clinical material will enhance the ability to assess tumor biological activities and to design effective treatment regimens. The need now is to translate this newly developed scientific knowledge into diagnostic and therapeutic strategies, which, in turn, will enhance quality of life and prolong patient survival.
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PMID:Alterations of tumor suppressor genes in bladder cancer. 917 73

Target genes implicated in cellular transformation and tumor progression have been divided into two categories: proto-oncogenes which, when activated, become dominant events characterized by the gain of function, and tumor suppressor genes which become recessive events characterized by the loss of function. Alterations in proto-oncogenes and tumor suppressor genes seem equally prevalent among human cancers. Multiple mutations appear to be required to conform the malignant phenotype. Proto-oncogenes are activated mainly by point mutations; however, amplification and translocation events are also common. Tumor suppressor genes are inactivated by an allelic loss followed by a point mutation of the remaining allele. The prototype suppressor genes are the retinoblastoma (RB) gene and the TP53 (also known as p53) genes. Recent studies have shown that inactivation of TP53 and RB occur in bladder tumors that have a more aggressive clinical outcome and poor prognosis. We will review the molecular abnormalities associated with both oncogenes and tumor suppressor genes in bladder tumors, and also discuss the potential clinical use of their detection. The implementation of objective predictive assays to identify these alterations in clinical material will enhance our ability to assess tumor biological activities and to design effective treatment regimes.
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PMID:Genetic studies and molecular markers of bladder cancer. 925 87

The product of the MTS1/CDKN2 gene (p16) and the retinoblastoma protein (pRB) inhibit cell cycle progression at the late G1 checkpoint. The absence of functional p16 or pRB has been identified in a variety of human tumors but has not been well studied in mesenchymal neoplasia. Using an immunohistochemical approach, the authors identified abnormal expression of either p16 or RB in 16 and 14 of 59 sarcomas, respectively, for an overall abnormality rate of 51%. Specific rates of abnormality varied by histological subtype, with leiomyosarcomas most commonly affected by loss of either tumor-suppressor gene product. There was no significant correlation between p16 or RB expression and overall grade, mitotic grade, or tumor progression for sarcomas. In contrast, no fibromatoses and other spindle cell neoplasms of low malignant potential displayed abnormal p16 expression, and only 4 of 23 cases showed loss of pRB expression. These data show that aberrant expression of p16/pRB is one of the most common molecular derangements in sarcomagenesis.
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PMID:Loss of RB and MTS1/CDKN2 (p16) expression in human sarcomas. 926 24


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