UMLS:C0027651 - FACTA Search

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Query: UMLS:C0027651 (tumor)
685,946 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The relationship between immunosuppression and oncogenesis can be determined by studying the molecular interactions between tumor-inducing viruses and lymphocytes. We approached this study by using a unique system of two genetically related Leporipoxviruses, malignant fibroma virus (MV), and Shope fibroma virus (SFV). MV induces a syndrome of a highly lethal, disseminated myxosarcoma, severe immune suppression, and replicates in lymphocytes both in vivo and in vitro. In contrast, SFV causes a benign fibromyxosarcoma without immune dysfunction and cannot replicate in lymphocytes. Earlier studies demonstrated that transfer of a 10.8-kb Bam HI piece of MV (fragment "C") to SFV resulted in the ability of SFV to replicate in lymphocytes and suppress immune function. These results suggested that lymphocytotropic replication and immune suppression was located on the left side of fragment C. We extended these studies by generating families of recombinants between MV and SFV by using subfragments of fragment C. The resulting recombinant viruses were analyzed for their ability to replicate in lymphocytes, suppress immune function, and produce tumors. Those recombinants expressing MV-like characteristics were mapped by endonuclease digestion. This study demonstrates that recombinants containing a 3.6-kb Nde I subfragment, as well as those containing an overlapping 1.9-kb Hinc II subfragment, were capable of replicating in lymphocytes, suppressing immune functions, and inducing disseminated tumors in rabbits. Our study has therefore identified a portion of MV DNA sufficient to transfer the unique pathogenicity of MV to SFV, and suggests that control of immune suppression and tumor dissemination may not necessarily be mediated by the same viral genes.
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PMID:Molecular analysis of immunosuppression induced by virus replication in lymphocytes. 215 37

Feline leukemia virus (FeLV) is a horizontally transmitted agent of the domestic cat which is known to be associated with wide spectrum of diseases of the hematopoietic system. In the present study, proviral DNAs of FeLV proviruses were examined in the tumor cells of natural killer cell lineage which is very rare in cats. In the chromosomal DNA of the tumor cells, 5 distinct bands corresponding to exogenous FeLV provirus genomes were detected by digestion with EcoRI which does not cut most FeLV isolates. Five clones of pLC1, pLC2, pLC3, pLC4, and pLC5 obtained from the 5 respective bands were analysed by restriction endonuclease mapping and Southern blot hybridization using gene-specific probes of FeLV. The results have clearly demonstrated that pLC4 and pLC5 contained large deletions in the pol and part of gag regions, while the full-length proviruses could be observed in pLC1 and pLC2. Furthermore, pLC3 contained part of a variant FeLV genome having an EcoRI site in its gag region. The molecular clones of defective and variant FeLV in this study may be useful for the further examination of tumorigenesis of large granular lymphoma in the cat.
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PMID:Molecular cloning of feline leukemia provirus genomes integrated in the feline large granular lymphoma cells. 216 59

Twenty DNA samples obtained from seven cases of inverted papillomas, eight cases of nasal polyps and five cases of chronic sinusitis were investigated by Southern blot hybridization for the possible presence of sequences homologous to human papillomavirus (HPV) types 6, 11, 16 and 18. HPV type-6-related DNA was identified in one of the seven inverted papillomas. The restriction endonuclease cleavage patterns showed that this latter DNA is a new subtype of HPV type 6 DNA. In the other six papillomas and in all cases of nasal polyps and chronic sinusitis, no HPV sequence could be demonstrated, even under low stringent conditions (Tm-40 degrees C). These results indicate that HPV infection might be one of the possible causative factors in the pathogenesis of inverted papillomas but is not essential for the induction of the tumor.
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PMID:Presence of human papillomavirus type-6-related sequences in inverted nasal papillomas. 216 85

A panel of cell lines that represents a reproducible, easily manipulated experimental system which discriminates between the minimally and diffusely invasive phenotypes of brain tumors has been developed. A population of SV40-transformed glial cells derived from newborn hamster cerebral cortex (Cx) has been sequentially passaged in newborn hamsters by intracerebral inoculation followed by in vitro culture, and after each passage progressively more invasive cell lines have been established. To study the molecular basis for the observed phenotypic characteristics associated with invasiveness, cloned cells were isolated from the first (Cx4T1-derived) and third Passage (Cx4T3-derived) cells lines. After injection into hamster brain, these cloned cells produce tumors that were either minimally invasive (Cx4T1-derived) or diffusely invasive (Cx4T3-derived) into normal brain tissue. In our initial attempt to identify and characterize the cellular and molecular factors that modulate the invasive phenotype, restriction endonuclease generated SV40 DNA-containing fragment patterns of DNA from each parental cell line and each of the clonal variants were determined by Southern transfer-hybridization. The results suggest the cell lines are composed of a limited number of tumorigenic subpopulations, each of which contain characteristic arrangements of integrated SV40 DNA with repeated in vivo/in vitro passage the avvangement of intecyvated SV40 changed. Analysis of DNA from minimally and diffusely invasive cloned cells indicated strong similarities of integrated SV40 DNA arrangement to their parental cells with the greatest similarities in cells exhibiting comparable invasive phenotypes. A striking difference was seen, however, in comparisons of SV40 DNA-containing fragment patterns of DNA extracted from clones which induced marginally versus diffusely invasive tumors. These differences suggest that the invasive cells were selected from a distinct minority subpopulation or that they may have arisen as a consequence of a more dynamic process of genetic rearrangement. This cell system appears to mimic the phenotypic and genetic heterogeneity observed in human tumors of glial origin and should prove valuable in defining the biochemical and molecular basis of tumor cell invasion.
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PMID:Alterations in SV40 DNA integration patterns are associated with acquisition of the invasive phenotype in hamster brain tumors. 217 26

Ditercalinium (NSC 335153) was synthesized as a bifunctional DNA intercalator. It is made of two 7-H pyridocarbazole rings joined by a rigid bis-ethyl bispiperidine chain. It binds to DNA with high affinity and elicits anti-tumor activity on a variety of animal tumors. 1H n.m.r. studies of ditercalinium bis-intercalated into d(CpGpCpG)2 have shown that the intercalation process occurs from the large groove of the DNA helix while the two intercalated rings are separated by two base pairs. Because of the linking chain rigidity of ditercalinium, DNA conformation has to be altered to permit the intercalation of the two rings. DNA must be bent toward the minor groove. In E. coli, ditercalinium elicits a specific toxicity on polA strains which is suppressed by an additional uvrA mutation. In vitro, the purified UvrA and UvrB proteins bind to the DNA-ditercalinium complex in an ATP dependent manner. The UvrABC complex induces single-strand nicks, but only when ditercalinium is bound to negatively supercoiled DNA. The life-time of the UvrAB-DNA-ditercalinium complex is greater than 50 min when free ditercalinium concentration is maintained constant in the incubation medium. The cytotoxicity of ditercalinium in E. coli results from the induction of a futile and abortive DNA repair. The reversible ditercalinium-DNA complex mimics a bulky DNA lesion, yet the UvrABC endonuclease is unable to cope with a reversible lesion since it cannot eliminate the causative agent. The interaction of UvrA and UvrB proteins has also been studied with DNA and other DNA-binding drugs forming high-affinity complexes such as distamycin. The Uvr protein recognition process appears to be associated with specific DNA structural alterations. In eukaryotic cells, ditercalinium is concentrated in mitochondria. Mitochondrial DNA is rapidly and totally degraded. Mitochondrial DNA coded proteins being no longer synthesized, the respiratory chain is progressively inactivated. The stimulation of the glycolytic pathway allows the cells to continue growth for several generations. Dihydro-orotate dehydrogenase is located in the inner membrane of mitochondria and its activity is dependent on mitochondria energization. It becomes inactive after ditercalinium treatment. A drop of the pyrimidine pool is then observed. Complementation of treated cells with uridine decreases 10-fold the ditercalinium toxicity. The cellular delayed toxicity of ditercalinium results from the slow induction of a pyrimidineless state associated with the progressive inactivation of mitochondria. The results show that DNA structural alterations induced by reversible drug-DNA complexes can be recognized by DNA repair enzymes.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Recognition by the DNA repair system of DNA structural alterations induced by reversible drug-DNA interactions. 218 Apr 23

Moloney murine leukemia virus (MuLV) can be a potent inducer of promonocytic leukemias in mice that are undergoing a chronic inflammatory response. The neoplasms are, at least in part, associated with insertional mutagenesis of the c-myb locus. Evidence is presented for the existence of at least two genetic elements of the virus that are crucial to induction of this disease but are not required for viral replication in hematopoietic tissues or induction of lymphoid disease. These genetic elements were detected by testing the pathogenicity of recombinants between Moloney and Friend MuLVs, the latter of which is nonleukemic to myeloid cells under these conditions, and by testing Moloney MuLV-based viruses that have nonretroviral sequences inserted at specific endonuclease sites in their long terminal repeats (LTRs). Analysis of the Moloney/Friend recombinants showed that there are sequences within the structural gene domain of Moloney, but not Friend, MuLV that are necessary for promonocytic leukemia, whereas the LTRs of the MuLVs are equally effective for promonocytic tumor formation and insertional mutagenesis of the c-myb gene. Experiments with viruses which were mutagenized in the LTR by insertions demonstrated that there is a specific genetic element in the U3 region of the LTR of Moloney MuLV, upstream of the 75-base-pair enhancer which, when interrupted, results in loss of leukemogenicity for cells in the monocytic lineage but not cells in the lymphoid lineage. We conclude, therefore, that promonocytic leukemia induction, in Moloney MuLV-infected mice undergoing a chronic inflammatory response, requires specific sequences in the structural gene region of Moloney MuLV as well as other sequences in the regulatory region of the virus.
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PMID:Regions of the Moloney murine leukemia virus genome specifically related to induction of promonocytic tumors. 240 39

Analysis of AFP and albumin genes fails to demonstrate a correlation of gene activity with the degree of gene methylation as determined by restriction endonuclease fragments obtained using the isoschizomer pair, Hpa II and Msp I. There is no difference in the methylation patterns of DNA from high and low producing tissues, such as fetal and adult liver for AFP, hepatoma 7777 and 9098 for AFP; adult lung, brain, kidney and liver for albumin; fetal liver and brain or heart for AFP, etc. Minor selective differences in gene methylation that correlate with AFP or albumin gene expression cannot be ruled out.
Tumour Biol 1985
PMID:Lack of correlation of methylation and alphafetoprotein and albumin gene expression during liver growth, in hepatocellular carcinomas, and during hepatocarcinogenesis. 241 16

Two H-ras oncogenes were detected by NIH/3T3 transfection assay out of 16 primary kidney tumors, 15 renal cell carcinomas (RCC), and one transitional cell carcinoma in 16 patients. Analysis of ras Mr 21,000 protein suggested single point mutations within codon 12 and 61 in each case. The restriction endonuclease analysis of H-ras gene at codon 12 confirmed this in one of them, and the remaining 15 tumors did not have a mutation at this site. DNAs from the noncancerous portions of the kidney with codon 12 mutated tumor, but not leukocytes from the same patient, showed an abnormal resistance to the endonucleases MspI and HpaII, suggesting a presence of codon 12 mutated H-ras gene in the noncancerous cells. No amplification of ras genes was detected in the 16 tumors analyzed. In one of eight tumors from patients heterozygous for H-ras related BamHI restriction fragments, one allele was lost in the tumor but not in the noncancerous portion of the same kidney. Although cytogenetic studies have previously suggested nonrandom involvement of c-raf-1 gene in RCC, no abnormality in the size nor amount of raf transcript was detected in the 15 RCCs. Our results thus indicated that the genetic lesions affecting ras genes do occur in human RCC, and probably serve as one of multisteps in the carcinogenic process.
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PMID:Activated H-ras oncogenes in human kidney tumors. 245 38

A number of tumor cell lines have been examined that differentially produce human chorionic gonadotropin and the isolated alpha- or beta-subunits. It has been demonstrated that all of the cell lines studied to date contain genes for both alpha- and beta-subunits, indicating that differential and exclusive expression of one subunit is not the result of a particular cell line having lost the gene for the alternate subunit as a consequence of chromosome changes accompanying cell transformation. Because many of these established cell lines are aneuploid, it is also significant that no evidence was found for gene amplification in cell lines producing alpha-subunit at very high levels compared to those with very low level expression. Analysis of restriction endonuclease digests of tumor cell DNAs has demonstrated identical patterns for beta-subunit in KpnI digests and KpnI/HindIII double digests. Polymorphisms were observed for alpha-subunit in EcoRI and HindIII digests, but these did not correspond with expression of the alpha-subunit. Significant levels of either mRNA (as determined by dot blot and Northern transfer hybridization analysis) were accompanied by corresponding elevated levels of alpha- and beta-subunits (as determined by radioimmunoassay), suggesting that regulation of subunit production most likely occurs at a pretranslational stage. However, there were apparent differences in the relative ratio of alpha- and beta-subunits and their cognate mRNAs among the cell lines.
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PMID:Chorionic gonadotropin synthesis by human tumor cell lines: examination of subunit accumulation, steady-state levels of mRNA, and gene structure. 246 49

The development of human cancer is generally thought to entail a series of events that cause a progressively more malignant phenotype. This hypothesis predicts that tumor cells of the ultimate stage will carry each of the events, cells of the penultimate stage will carry each of the events less the last one and so on. That is to say, a dissection of the pathway form a normal cell to a fully malignant tumor may be viewed as the unraveling of a nested set of aberrations. In experiments designed to elucidate these events, we have compared genotypic combinations at genomic loci defined by restriction endonuclease recognition site variation in normal and tumor tissues from patients with various forms and stages of cancer. The first step, inherited predisposition, is best described for retinoblastoma in which a recessive mutation of a locus residing in the 13q14 region of the genome is unmasked by aberrant, but specific, mitotic chromosomal segregation. A similar mechanism involving the distal short arm of chromosome 17 is apparent in astrocytic tumors and the event is shared by cells in each malignancy stage. This is distinct from a loss of heterozygosity for loci on chromosome 10 which is restricted to the ultimate stage, glioblastoma multiforme. Further, this approach has has been extended to a wide variety of human cancers and shown to be generally applicable. The results suggest a genetic approach to defining degrees of tumor progression and a means for determining the genomic locations of genes involved in the pathway as a prelude to their molecular isolation and characterization. They have provided a molecular genetic-based oncology with clinical utility in differential pathology, in disease groupings for therapeutic purposes and in prenatal identification of latent disease carriers.
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PMID:Tumor progression stage: specific losses of heterozygosity. 248 36

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