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)

The human papillomavirus E7 gene can transform murine fibroblasts and cooperate with other viral oncogenes in transforming primary cell cultures. One biochemical property associated with the E7 protein is binding to the retinoblastoma tumor suppressor gene product (pRB). Biochemical properties associated with pRB include binding to viral transforming proteins (E1A, large T, and E7), binding to cellular proteins (E2F and Myc), and binding to DNA. The mechanism by which E7 stimulates cell growth is uncertain. However, E7 binding to pRB inhibits binding of cellular proteins to pRB and appears to block the growth-suppressive activity of pRB. We have found that E7 also inhibits binding of pRB to DNA. A 60-kDa version of pRB (pRB60) produced in reticulocyte translation reactions or in bacteria bound quantitatively to DNA-cellulose. Recombinant E7 protein used at a 1:1 or 10:1 molar ratio with pRB60 blocked 50 or greater than 95% of pRB60 DNA-binding activity, respectively. A mutant E7 protein (E7-Ala-24) with reduced pRB60-binding activity exhibited a parallel reduction in its blocking of pRB60 binding to DNA. An E7(20-29) peptide that blocks binding of E7 protein to pRB60 restored the DNA-binding activity of pRB60 in the presence of E7. Peptide E7(2-32) did not block pRB60 binding to DNA, while peptide E7(20-57) and an E7 fragment containing residues 1 to 60 partially blocked DNA binding. E7 species containing residues 3 to 75 were fully effective at blocking pRB60 binding to DNA. These studies indicate that E7 protein specifically blocks pRB60 binding to DNA and suggest that the E7 region responsible for this property lies between residues 32 and 75. The functional significance of these observations is unclear. However, we have found that a point mutation in pRB60 that impairs DNA-binding activity also blocks the ability of pRB60 to inhibit cell growth. This correlation suggests that the DNA-binding activity of retinoblastoma proteins contributes to their biological properties.
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PMID:Human papillomavirus type 16 E7 protein inhibits DNA binding by the retinoblastoma gene product. 131 47

The adenovirus E1A gene product, the simian virus 40 large tumor antigen, and the human papillomavirus E7 protein share a short amino acid sequence that constitutes a domain required for the transforming activity of these proteins. These sequences are also required for these proteins to bind to the retinoblastoma gene product (pRb). Recent experiments have shown that E1A can dissociate complexes containing the transcription factor E2F bound to pRb, dependent on this conserved sequence element. We now show that the E7 protein and the simian virus 40 large tumor antigen can dissociate the E2F-pRb complex, dependent on this conserved sequence element. We also find that the E2F-pRb complex is absent in various human cervical carcinoma cell lines that either express the E7 protein or harbor an RB1 mutation, suggesting that the loss of the E2F-pRb interaction may be an important aspect in human cervical carcinogenesis. We suggest that the ability of E1A, the simian virus 40 large tumor antigen, and E7 to dissociate the E2F-pRb complex may be a common activity of these viral proteins that has evolved to stimulate quiescent cells into a proliferating state so that viral replication can proceed efficiently. In circumstances in which a lytic infection does not proceed, the consequence of this action may be to initiate the oncogenic process in a manner analogous to the mutation of the RB1 gene.
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PMID:Adenovirus E1A, simian virus 40 tumor antigen, and human papillomavirus E7 protein share the capacity to disrupt the interaction between transcription factor E2F and the retinoblastoma gene product. 131 11

We examined loss of heterozygosity at 13 loci on 5 chromosomes in hepatocellular carcinomas (HCCs) from 56 patients. In 42 of these cases, regenerative nodules of liver cirrhosis were also analyzed. High frequencies of allelic losses were detected on chromosomes 13q (47%), 16q (40%) and 17p (64%), whereas losses on chromosome 4p and 11p were observed in less than 22% of cases in HCCs. In contrast, LOH was not detected on any loci in cirrhotic nodules. On chromosome 13q, the common region of allelic loss was mapped to the region including the retinoblastoma (RB) locus, by using 8 polymorphic probes. Furthermore, one case with 13q loss had an interstitial deletion of the RB gene, indicating the involvement of inactivation of the RB gene in hepatotumorigenesis. Losses were associated with portal-vein thrombosis or intrahepatic metastasis, increased tumor size, a poorly differentiated phenotype and clinical stage. Losses occurring together on 13q, 16q and 17p were significantly higher in patients in clinical stage IV or histologically poorly differentiated tumors, suggesting that the accumulation of allelic loss occurs in advanced tumors and that patients with multiple allelic losses may have a worse prognosis than those with a single loss.
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PMID:Accumulation of allelic loss on arms of chromosomes 13q, 16q and 17p in the advanced stages of human hepatocellular carcinoma. 132 76

Patients with retinoblastoma have an increased risk of developing second primary tumors. Only a few examples of sinonasal small cell neoplasms developing after radiation therapy for retinoblastoma have been reported. We report one such case that developed 18 years after treatment for retinoblastoma. Histologic examination revealed a small, blue, round cell tumor without rosettes or cytoplasmic glycogen. Immunohistochemically, the tumor cells were positive for neuron-specific enolase, synaptophysin, and S-100 protein, but negative for epithelial and mesenchymal markers, suggesting that this was a primitive neuroectodermal tumor. Cytogenetic studies of this tumor failed to reveal the chromosome 13 abnormality typical of retinoblastoma and the t(11:22) translocation typical of the group of peripheral neuroepitheliomas.
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PMID:Sinonasal small cell neoplasm developing after radiation therapy for retinoblastoma: an immunohistologic, ultrastructural, and cytogenetic study. 132 60

We have used E1A probes to study the roles of the p34cdc2 kinase and the retinoblastoma tumor susceptibility gene product (pRB) in transforming growth factor beta 1 (TGF beta 1)-mediated growth suppression in mink lung epithelial (Mv1Lu) cells. In agreement with previous reports, we see a decline in p34cdc2 kinase activity and a loss of pRB phosphorylation after TGF beta 1 treatment. We report here that TGF beta 1 induces not only a change in p34cdc2 kinase activity but a strong repression of p34cdc2 synthesis. Loss of p34cdc2 kinase activity is not seen until the steady-state level of p34cdc2 declines, suggesting that the intra-cellular signals induced by TGF beta 1 affect p34cdc2 at the level of expression, rather than by altering the posttranslational modifications of p34cdc2 that regulate its kinase activity. Infection with adenovirus expressing either wild-type E1A or a mutant E1A (pm928) defective for pRB binding alleviated TGF beta 1-mediated suppression of DNA synthesis, indicating that E1A does not need to bind pRB physically to keep cell growth-suppressing functions from being activated by TGF beta 1. The E1A.928 mutant virus is able to maintain p34cdc2 expression and kinase activity, as well as pRB phosphorylation in the presence of TGF beta 1, which may account for its ability to maintain cell cycle activity without directly sequestering pRB. Overall our results suggest that TGF beta 1 acts by signaling changes at the level of control of G1 gene expression, not at the level of posttranslational modification of p34cdc2 or its substrates.
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PMID:Transforming growth factor beta 1 (TGF beta 1) reduces cellular levels of p34cdc2, and this effect is abrogated by adenovirus independently of the E1A-associated pRB binding activity. 132 50

Based on personal experience with approximately 350 enucleations for retinoblastoma, the authors describe their current surgical technique for removal of the eye, opening the globe to harvest fresh tissue for research including DNA analysis, and placement of the new hydroxyapatite orbital implant. Enucleation should be performed as gently as possible. A hemostat is placed on the stump of the severed medial rectus muscle for traction purposes, and long, minimally curved scissors are used to cut the optic nerve near the orbital apex. Clamps and snares are not advised and cautery of the orbital tissue is avoided. A piece of optic nerve is first submitted separately for histopathologic study and the globe is opened with a specific technique to harvest fresh tumor tissue. A hydroxyapatite implant covered by sterilized sclera is placed in the anophthalmic socket to provide orbital volume and improved motility of the prosthesis.
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PMID:Enucleation technique for children with retinoblastoma. 132 85

Genomic rearrangements occurring in C3H/10T1/2 cells transformed by X-rays were examined with a DNA fingerprint assay. Four multilocus and multiallele probes were employed (M, X, H10, and H16) that detect different families of minisatellite sequences dispersed throughout the genome. Genomic rearrangements were detectable only with probe M. This specificity may be explained by a genomic instability owing to a specific sequence or structure of DNA recognized by probe M. Genomic rearrangements were detected in 5 of 12 type III foci transformed by 600 cGy of X-rays and in all clones isolated from a previously transformed clone exposed to a second dose of 600 cGy and recloned. The latter data suggest that the stage of transformation and the occurrence of genomic rearrangement induced by X-rays may be related. An intensity shift or a complete deletion of band 2 was common to these X-ray-induced clones, as well as to clones transformed by UV-C (1 of 5) or 3-methylcholanthrene (4 of 6). This band did not hybridize to probes for the retinoblastoma gene RB or for p53. We hypothesize that the loss of band 2 may reflect a significant genetic change in the transformation of 10T1/2 cells, perhaps representing the inactivation of a tumor suppressor gene other than RB or p53. Additional rearrangements occurred in X-ray-transformed clones; these rearrangements were not observed with the other carcinogens. Aside from the changes in band 2, however, no specific pattern of genomic rearrangement was associated with X-ray transformation, and the presence or absence of rearrangements did not correlate with tumorigenicity in syngeneic nonimmunosuppressed C3H mice.
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PMID:Genomic rearrangements in mouse C3H/10T1/2 cells transformed by X-rays, UV-C, and 3-methylcholanthrene, detected by a DNA fingerprint assay. 132 16

The mouse polyomavirus encodes a tumor-suppressor gene inactivator in its large T protein and a proto-oncogene activator in its middle T protein. We have used site-directed mutagenesis to selectively inactivate the former function without affecting the latter. Two mutant viruses were constructed to encode altered large T proteins that fail to bind the retinoblastoma tumor-suppressor gene product pRB, along with normal small and middle T proteins. The pRB-binding mutants proved to be defective in immortalization of primary rat embryo fibroblasts by a variety of tests. Yet they proved capable of transforming both primary and established fibroblasts in culture. Most importantly, the inability of these mutants to bind pRB had little effect on their ability to induce tumors in mice. We conclude that induction of multiple tumor types in this system does not depend on large T-pRB interactions but rather on middle T-dependent pathways. In addition, the ability of this virus to immortalize cells in culture is not essential to its ability to induce tumors in the animal.
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PMID:Separation of immortalization from tumor induction with polyoma large T mutants that fail to bind the retinoblastoma gene product. 132 87

The retinoblastoma tumor suppressor gene (RB gene) has been reported to be deleted and/or modified in a number of human cancers, indicating that dysfunction of this tumor suppressor gene is perhaps critical in the development of many human tumors. In addition to deletion of one copy and/or mutational inactivation of the RB gene, this gene has also been reported to be altered by a small deletion in the promoter sequence in one case of small cell mixed adenocarcinoma of the prostate. A deletion of 105 nucleotides of the RB gene in exon 21, leading to an aberrant short-sized mRNA transcript, has also been reported in one cell line (DU 145) derived from brain metastasis of prostatic adenocarcinoma. We have analyzed tissues from 10 prostate specimens (3 hyperplastic and 7 neoplastic) and one prostate cancer cell line (DU 145) for the presence of short-sized mRNA transcript (exon 21 alterations) by polymerase chain reaction (PCR) using total RNA extracted from frozen tumors and the cell line. None of the prostate tissue showed any evidence of aberrant short-sized mRNA, although it was confirmed in the DU 145 cell line. Simultaneously, we have used DNA-PCR to investigate RB promoter deletion in 23 adenocarcinomas and one small cell carcinoma of the prostate. We also failed to demonstrate any indication of RB promoter deletion at the DNA level in adenocarcinomas. The single case of small cell carcinoma failed to show evidence of any aberration in RB promoter. We therefore conclude that neither RB promoter alterations nor the exon 21 deletion are associated with typical prostate adenocarcinoma.
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PMID:Analysis of retinoblastoma (RB) gene deletion in human prostatic carcinomas. 132 54

The establishment of a new glioma cell line, DBTRG-05MG, in a modified RPMI 1640 medium is described. The cells were derived from an adult female with glioblastoma multiforme who had been treated with local brain irradiation and multidrug chemotherapy; the tumor showed substantial change in histologic appearance compared to the original biopsy 13 mo. previously. The line has been successfully cryopreserved and passaged up to 20 times. The karyotype of the cells demonstrated it as a hypotetraploid line; the DNA index of 1.9 confirmed the karyotype analyses. By immunocytochemical analysis, the cell line reacted with polyclonal antibodies to vimentin, S100, and neuron specific enolase, reflecting its primitive neuroectodermal character. Positive immunostaining for epidermal growth factor receptor correlated with the excess of chromosome 7 seen in the karyotype. The cell line reacted negatively to antibodies against platelet-derived growth factor and its receptor, neuronal cell adhesion molecule, and glial fibrillary acidic protein. By flow cytometry, the cells were major histocompatibility class I antigen positive and class I antigen negative. Growth kinetic studies demonstrated an approximate population doubling time of 34 to 41 h and a colony forming efficiency of 71.4%. Western blot analysis showed the presence of low levels of normal-sized retinoblastoma protein. When compared to the patient's lymphocyte DNA, no loss of heterozygosity of the p53 tumor suppressor gene was observed in the DBTRG-05MG cell line DNA.
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PMID:Characterization of a continuous human glioma cell line DBTRG-05MG: growth kinetics, karyotype, receptor expression, and tumor suppressor gene analyses. 133 Oct 21


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