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:C0023418 (leukemia)
93,477 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A molecular hybridization technique has been used to quantitatively measure the nucleotide sequence relationships of selected mammalian RNA tumor viruses. Reciprocal cross-hybridization tests were done in which a given radioactively labeled, viral genomic RNA species was annealed with an excess of unlabeled, complementary DNA product synthesized in endogenously instructed reverse transcriptase reactions. Hybrid formation was measured with pancreatic RNase A. Three representative mammalian RNA tumor virus groups were examined: murine viruses, simian viruses, and feline viruses. The results of reciprocal cross-hybridization testing have revealed that the murine viruses consist of four distinctly related subgroups: (i) the Friend leukemia virus/Rauscher leukemia virus subgroup, (ii) the Gross leukemia virus subgroup, (iii) the Moloney sarcoma virus subgroup, and (iv) the Kirsten sarcoma virus subgroup. Simian sarcoma virus, the only simian virus examined, appeared to share limited interspecies sequence relationships with members of the other virus groups and in particular with Kirsten sarcoma virus. Of the two members of the feline virus group tested, Rickard feline sarcoma virus and RD-114, each was placed in a separate, unrelated subgroup. Rickard feline sarcoma virus exhibited limited sequence relatedness with members of the other virus groups, whereas RD-114 exhibited none.
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PMID:Quantitative nucleotide sequence relationships of mammalian RNA tumor viruses. 4 42

Cats represent an unusually valuable model for studying the role of the immune response to leukemia, lymphoma, and other mesodermal neoplasms. The agents that cause spontaneous feline leukemias, lymphomas, and fibrosarcomas, the feline leukemia and sarcoma viruses, are well characterized. A specific tumor cell membrane antigen, designated the feline oncornavirus-associated cell membrane antigen (FOCMA) has also been described. Feline leukemia and feline sarcoma viruses are antigenically indistinguishable, and FOCMA is common for both. Both laboratory-induced and spontaneous feline leukemias, lymphomas, and fibrosarcomas are available for study. A clear correlation has been shown between the resistance of cats to development of lethal tumors following inoculation of feline sarcoma virus and the presence of high humoral antibody titers to FOCMA. The geometric mean antibody titer to FOCMA for cats that resisted growth of fibrosarcomas was more than 20-fold higher than the mean for cats that succumbed to lethally progressing tumors. Cats with induced or spontaneous leukemia or lymphoma also have either no detectable FOCMA antibody or very low levels. Conversely, some cats resist development of leukemia or lymphoma following natural exposure to feline leukemia virus in leukemia cluster households, and these cats have high FOCMA antibody titers. These results support the concept of a natural immunosurveillance mechanism against leukemia or lymphoma development in an outbred mammalian species.
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PMID:Immune response to leukemia virus and tumor-associated antigens in cats. 5 24

Four-week-old specific-pathogen-free cats were immunized with a combined vaccine composed of killed feline leukemia virus and killed feline oncornavirus-associated cell membrane antigen-containing tumor cells. Immunization induced feline oncornavirus-associated cell membrane antigen antibody titers ranging from 1:32 to 1:256 but did not elicit detectable virus-neutralizing antibody titers. Kittens immunized with tumor cells alone developed higher feline oncornavirus-associated cell membrane antigen antibody titers (ranging from 1:512 to 1:2048) than those given the combined vaccine. All kittens were challenged with virulent Dynder-Theilen feline sarcoma virus at 12 weeks of age. Seventy-five % of the kittens vaccinated with combined vaccine and 67% of unvaccinated control kittens developed progressive fibrosarcomas after challenge. By contrast, none of the kittens vaccinated with killed tumor cells alone developed progressive fibrosarcomas after challenge. The combined vaccine did not, however, inhibit the induction of feline leukemia virus viremia.
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PMID:Abrogation of resistance to feline oncornavirus disease by immunization with killed feline leukemia virus. 6 86

A horse skin cell line (E. Derm, NBL-6, CCL-57) was susceptible to focus formation by the Kirsten mouse sarcoma virus, feline sarcoma virus (ST stain) and the MSV pseudotypes with woolly monkey, gibbon monkey, RD-114, AT-124, baboon placenta and murine xenotropic (BALB/c 3T3 and C57L/JD) type-C viruses. Foci were detected within 5 days after infection and the transformed cells continued to produce infectious virus and group-specific antigen of their respective type-C leukemia viruses. The transformation efficiency of various type-C sarcoma viruses in horse cells was also very high.
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PMID:Transformation of horse skin cells by type-C sarcoma viruses. 16 52

Current studies have shown that all mammalian sarcoma-producing viruses, whether isolated from laboratory experiments of naturally occurring tumors, are deletion mutants of replicating mammalian type C viruses. Nonproducer cells transformed by any of these sarcoma viruses contain RNA homologous to mammalian leukemia viruses, even though the cells contain no known proteins currently coded for by the mammalian leukemia virus. This mammalian leukemia virus information (FT-) is a genetically stable part of the mammalian sarcoma viruses (FT+). Second, another component in the Kirsten and Harvey sarcoma viruses can be identified in addition to this leukemia virus information for the homologous leukemia virus; at least part of the additional information came from rat type C viruses from the animals in which the sarcoma viruses were isolated. This indicates that these two mammalian sarcoma viruses are recombinants between mouse leukemia virus and genetic information in rat cells and suggests that the process of formation of the sarcoma virus is analogous to transduction of information in bacteriophage. Third, the Kirsten sarcoma virus seems to have a third component in it separate from either the mouse leukemia virus or rat leukemia virus information. Fourth, and FT+ leukemia virus isolated from mice, the Abelson leukemia virus which causes as B-cell leukemia, is also defective and can be shown to have information homologous to Moloney leukemia virus. Fifth, in the feline sarcoma virus, feline leukemia information can be detected, but information for the other cat virus, RD-114, cannot be detected. Finally, mutants of Kirsten sarcoma virus temperature sensitive for the maintenance of transformation have been isolated, and out of ten such mutants, thus far no complementation has been observed.
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PMID:A biochemical and genetic analysis of mammalian RNA-containing sarcoma viruses. 16 43

A microneutralization assay was developed for antibody-to-subgroup-specific feline oncornaviruses. This study combines the economic advantage of a microtiter system and the quantitative focus reduction method which permits contruction of multiplicity curves for determination of virus-neutralizing titers. A twofold increase in Synder-Theilen feline sarcoma virus (ST-FeSV) on feline embryo cells decreased by approximately twofold the titer of reference goat serum prepared against Kawakami-Theilen feline leukemia virus. Similar dose effects with FeLV serotype virus preparations were not observed. An assay system utilizing FeLV serotypes on sarcoma-positive leukemia-negative cells demonstrated slightly greater sensitivity than one employing ST-FeSV on FE cells. Differential antibody responses to the three subgroup-specific feline oncornaviruses (A, B ,and C) were observed in reference goat sera. This test demonstrated good reproducibility as well as sensitivity and constitutes a significant improvement over end point dilution assay systems.
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PMID:Determination of subgroup-specific feline oncornavirus-neutralizing antibody. 17 56

The feline oncornavirus-associated cell membrane antigen (FOCMA) is a target for naturally occurring immunity that protects the cat against development of fibrosarcoma and leukemia. Feline sarcoma virus-transformed "nonproducer" mink cells express high levels of FOCMA, but not the major viral structural proteins. Transformation of the same cells by murine sarcoma virus, or infection with feline leukemia virus, which is nontransforming for epithelial or fibroblastic cells, did not induce FOCMA. Thus, FOCMA expression in mind lung cells is specifically associated with transformation by feline sarcoma virus.
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PMID:Feline oncornavirus-associated cell membrane antigen: expression in transformed nonproducer mink cells. 19 10

The major non-glycosylated structural proteins of feline leukemia virus have been isolated, and competition immunoassays have been developed for each. These proteins include the 27,000- to 30,000-molecular-weight major internal antigen designated p30, a 15,000-molecular-weight protein (p15), an acidic protein of 12,000 molecular weight (p12), and a highly basic 10,000-molecular-weight protein (p10). Immunologically and biochemically corresponding proteins of feline and murine leukemia viruses have been identified. and, on the basis of analogy to the known sequence of a prototype type C virus of mouse origin, the map order of the gag region of the feline type C viral genome has been tentatively deduced as NH2-p15-p12-p10-COOH. The demonstration of two feline leukemia virus gag gene-coded proteins, p15 and p12, expressed in the form of an uncleaved precursor in a mink cell line nonproductively transformed by feline sarcoma virus provides indirect support for the proposed sequence.
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PMID:Feline leukemia virus: biochemical and immunological characterization of gag gene-coded structural proteins. 19 62

Correlation was greater than 90% between feline leukemia virus (FeLV), group-specific antigen (GSA) in leukocytes, and viral infectivity (VI) in serum or plasma from 132 cats infected with either the Rickard strain of FeLV, the Snyder-Theilen strain of feline sarcoma virus, or field strains of FeLV. Detection of GSA in blood cells was at least as sensitive as detection of VI in serum. In 45% of FeLV GSA-positive cats inoculated with FeLV-Rickard strain, VI was detected in saliva. No saliva samples from GSA-negative cats had VI. Sequential bone marrow biopsies from 34 cats inoculated with Snyder-Theilen feline sarcoma virus indicated that the correlation between FeLV GSA in bone marrow cells and blood cells was virtually 100%. FeLV GSA appeared in bone marrow leukocyte precursors 1 week before its appearance in peripheral blood leukocytes in 50% of the cats. The FeLV GSA-positive state was transient (3 to 6 weeks) in 34% of the Snyder-Theilen feline sarcoma virus-inoculated cats.
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PMID:Relationship between feline leukemia virus antigen expression and viral infectivity in blood, bone marrow, and saliva of cats. 19 20

A method for preparation of soluble feline oncornavirus-induced cell surface antigens was described. This technique relied upon the natural release of antigen(s) from FL-74 feline lymphoblastoid cells during their maintenance at 37 degrees in serum-deficient medium. When concentrated and clarified spent medium from 4-day cultures was tested for its antigen content by inhibition of humoral cytotoxicity, it was found that this natural production of soluble antigen provided more feline oncornavirus-associated cell membrane antigen per cell than did a solubilization procedure in which papain was used. The shed antigen preparation was immunogenic in cats, eliciting humoral antibody that was reactive with the surface of FL-74 Cells and feline sarcoma virus-transformed nonproducer mink cells but was not reactive with feline leukemia virus in a virus neutralization assay.
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PMID:Detection and evaluation of feline oncornavirus-induced cell surface antigen(s) shed from cells in vitro. 19 29


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