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)

Gene loci controlling cell surface receptors for murine leukemia virus were studied by using murine X Chinese hamster hybrid cells. Hybrids which exclusively segregate murine chromosomes were made by fusing Mus cervicolor and Mus musculus lymphocytes to hamster fibroblasts. Sensitivity to Moloney murine leukemia virus infecotion and specific binding of the envelope glycoprotein of Rauscher murine leukemia virus (gp70) cosegregate and isozyme analysis show an association with chromosome 5 in both species. With the possible exception of one clone, no evidence was found for a proviral integration site independent of chromosome 5. Evidence is presented for additional unlinked ectropic and xenotropic receptors independent of chromosome 5.
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PMID:Genes controlling receptors for ecotropic and xenotropic type C virus in Mus cervicolor and Mus musculus. 21 45

Two types of apparently spontaneous malignant alterations of fibroblastlike ST/a mouse lung cells (ST-L cells) grown in vitro are described. One type is characterized by a high tumorigenic potential of the altered cells in nonconditioned syngeneic recipients, a fibroblastlike morphology with cell surface showing very few microvilli by scanning electron-microscopy (SEM), and a growth pattern typical of nontransformed cells. These cells were described as R- cells. The other type is characterized bya low tumorigenic potential in non-conditioned, immunocompetent syngeneic recipients, rounding up of the cells which by SEM showed numerous microvilli on the surface, and a growth pattern typical of transformed cells. These cells were described as round cells or R+ cells. In immunoincompetent mice, R+ cells readily produced sarcomas, which grew faster than those produced by R- cells. Both types of ST-L cells expressed murine leukemia virus (MuLV) when tested in a peroxidase anti-p30 plaque test. The concentration of murine leukemia virus envelope glycoprotein (gp70) has previously (5) been shown to be threefold higher in R+ cells compared to R- cells. Furthermore, round-cell transformation was accompanied by the development of crossreacting rejection antigens protective against a secondary shallenge with Ehrlich ascites tumor and with syngeneic dimethylbenzanthracene induced ST/a mouse leukemia (STABAL). A similar protection was obtained by preimmunization with a cloned embryonic feral mouse cell line (SC-1) infected with ST-L virus as well as with virus-free SC-1 cells, suggesting the presence of rejection antigens both of viral (gp70) and nonviral origin.
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PMID:Comparative studies of two types of "spontaneous" malignant alteration of ST/A mouse lung fibroblasts propagated in vitro. 23 Jan 49

In cats, horizontally transmitted viruses cause leukemia and lymphoma under natural conditions. As with other retroviruses, feline leukemia virus (FeLV) contains products of 3 major genes; the virus core gag gene products, the polymerase, and the virus envelope glycoprotein. When cells are transformed in vitro by the related feline sarcoma virus (FeSV), an additional protein, FOCMA is expressed at the cell membrane. FOCMA, which is FeSV-coded, is transformation and/or tumor specific and expressed regardless of whether or not the cells make virus or contain virus structural antigens. Lymphoid leukemia cells also express FOCMA, both when FeLV is used to induce the disease in laboratory cats and when the tumors occur under natural conditions. FOCMA is expressed on both T and B lymphoid leukemia cells, but not expressed on non-malignant lymphoid cells, even when they are infected with FeLV. About one-third of the naturally occurring lymphoid tumors of cats lack detectable FeLV proteins and varying portions of the FeLV provirus. Despite this, they regularly express FOCMA, which is the target of an immuno-surveillance response that functions effectively under most conditions. FOCMA thus provides a useful model for antigens that might be expressed in "virus-negative" leukemias of man.
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PMID:Leukemia specific antigens: FOCMA and immune surveillance. 23 69

Cells infected with a temperature-sensitive mutant (ts-26) of Rauscher murine leukemia virus (R-MuLV) or with wild-type virus were labeled with 35S-methionine, and cell extracts were examined for radioactive polypeptides which could be precipitated by monospecific antisera to viral proteins. When shifted from permissive (31 degrees C) to nonpermissive (39 degrees C) temperature, cells infected with ts-26 rapidly begin to accumulate gPr90enr, the glycoprotein precursor to the membrane envelope glycoprotein gp70 and to the membrane-associated protein p15E. Simultaneously, formation of these mature virion proteins ceases. In addition, lactoperoxidase-catalyzed surface labeling with 125I--iodine indicates that the plasma membrane of cells infected with ts-26 becomes depleted of gp70 antigens at 39 degrees C. Nevertheless, at 39 degrees C these cells release defective MuLVs which lack gp70 and p15E but contain an outer membrane. The released particles also contain an aberrantly processed form of the major virion core protein p30, and many of these virion cores have an unusual immature crescent shape. It has previously been reported that cells infected with the ts-26 mutant of R-MuLV process a 65,000 dalton precursor (Pr65gag) of the virion core proteins more slowly at 39 degrees C than do cells infected with wild-type virus (Stephenson, Tronick and Aaronson, 1975). Although we have confirmed these results, this effect is relatively small and it is known that various alterations of MuLV assembly can lead secondarily to inhibited processing of Pr65gag. We propose that the ts-26 mutant has a primary temperature-sensitive defect in membrane glycoprotein synthesis and that this change causes pleiotropic effects on core morphogenesis.
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PMID:A murine leukemia virus mutant with a temperature-sensitive defect in membrane glycoprotein synthesis. 42 Dec 71

The availability of membrane receptors for the 71,000-dalton envelope glycoprotein (gp71) of Rauscher murine leukemia virus on splenic and thymic cells from BALB/c mice during Rauscher murine leukemia virus-induced leukemogenesis was determined utilizing a radiolabeled gp71 binding assay. Shortly after infection, the relative cellular [125I]gp71 binding level decreased, first with splenic cells (at day 7 to 10 after infection) and later with thymic cells (at day 10 to 20 after infection). The dependency of the reduction of binding on the replication of the inoculated virus was demonstrated by regression analyses using cellular gp71 binding level as the dependent variable and infectious virus titer, as well as viral gp71 and p30 levels, of spleens and thymuses from infected mice as independent variables. With each independent variable, the reduction of gp71 binding for both cell types was highly dependent (P less than 0.01) on the level of virus detected in their respective organ. In the early stages of leukemogenesis, the [125I]gp71 binding level declined to approximately 20 to 30% of control values. During this period the rate of reduction of binding was very rapid and, in general was similar for both splenic and thymic cells. Further progression of the disease resulted in little or no further reduction in binding. The application of this technique to monitor host ecotropic virus synthesis and to study cell surface virus receptor control mechanisms in vivo is discussed.
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PMID:Depression of Rauscher leukemia virus envelope glycoprotein gp71 binding by lymphoid cells during leukemogenesis in mice. 46 72

The major envelope glycoprotein (gp71) purified from Rauscher leukemia virus (R-MuLV) binds efficiently to murine lymphoid cells but not to either murine nonlymphoid cells or lymphoid cells from other species. Binding of 125I-labeled R-MuLV gp71 was competitively inhibited by unlabeled glycoprotein, as well as by whole R-MuLV, but not by murine xenotropic viruses, R-MuLV p30, and several unrelated proteins. Polyacrylamide gel electrophoresis profiles of iodinated gp71 after binding to lymphoid cells were similar to prebound profiles. Antibody to R-MuLV gp71 prevented binding, whereas normal serum had no effect. Adsorption of the glycoprotein to murine lymphoid cells occurs rapidly and is time and temperature dependent. The procedure described is sensitive for detecting the binding activity of approximately 10(4) cells. Binding was proportional up to 2.5 X 10(5) cells per ml and plateaued above 10(7) cells per ml. In the presence of excess R-MuLV gp71, BALB/c thymocytes bound approximately 2.4 X 10(4) molecules per cell.
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PMID:Binding characteristics of Rauscher leukemia virus envelope glycoprotein gp71 to murine lymphoid cells. 56 78

Synthesis and post-translational processing of murine leukemia virus proteins were analyzed in a murine cell line (Eveline) that produces large amounts of Friend lymphatic leukemia virus. Immunoprecipitation of l-[(35)S]methionine-labeled cell extracts demonstrated that several different virus-specific proteins antigenically related to the virion core (gag) proteins p12 and p30 become radioactive within 1 min of labeling and exhibit labeling kinetics characteristic of primary translation products. The most abundant of these were proteins with molecular weights of 75,000 and 65,000. There were, in addition, two large glycosylated polyproteins with apparent molecular weights of 220,000 and 230,000, which were precipitated by antisera to p30 or p12 but not by antiserum to the major envelope glycoproteins gp69/71. Several lines of evidence, including labeling with d-[(3)H]glucosamine and binding to insolubilized lectins, suggested that the 75,000-dalton internal core polyprotein is slowly processed to form a glycoprotein with an apparent molecular weight of 93,000. On the contrary, the 65,000-dalton protein appeared to be an immediate precursor to the virion core proteins. Its processing can involve intermediates containing p30 and p12 antigens with molecular weights of 50,000 and 40,000; however, the latter did not appear to be obligatory intermediates. The detection of the 40,000-dalton protein suggested that the genes for p30 and p12 are adjacent on the viral genome. These results indicated that there are several pathways of synthesis and post-translational processing of polyprotein precursors to the gag proteins and that several of these polyproteins are glycosylated. A comparison of gag precursor processing in rapidly growing, slowly growing, and stationary cells indicated that different pathways are favored under different conditions of cell growth. Our analysis of envelope glycoprotein synthesis has confirmed the existence of two rapidly labeled 90,000-dalton glycoproteins, which appear to be precursors to the envelope glycoproteins gp69/71.
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PMID:Synthesis and glycosylation of polyprotein precursors to the internal core proteins of Friend murine leukemia virus. 59 67

The polypeptide composition of murine fibroblast cells and the effect of infection by RNA sarcoma and leukemia viruses were analyzed by two-dimensional gel electrophoresis and tryptic peptide mapping. The polypeptide maps of NIH Swiss mouse embryo fibroblasts (NIH/3T3) and BALB/c mouse embryo fibroblasts (BALB/3T3) were very similar except for two major polypeptides of about 65,000 and 75,000 daltons which were not detected in BALB/3T3 cells. NIH/3T3 cells infected with either Rauscher or Gross oncoviruses and outbred Swiss mouse embryo fibroblasts (3T3 FL) showed two major polypeptrides of about 73,000 and 80,000 daltons not found in uninfected NIH/3T3 cells. The 3T3 FL cells, although uninfected, were also found to contain a high concentration of envelope glycoprotein of an endogenous oncovirus. 3T3 FL cells transformed by Moloney sarcoma virus showed changes in many polypeptides, including several major components: the disappearance or modification of a component of 60,000 daltons, an increased concentration and shift in pl of a glycoprotein of 48,000 daltons, and the apparent loss of several smaller polypeptides. None of the major changes of the transformed cells were associated with cell surface proteins labeled by lactoperoxidase-catalyzed iodination.
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PMID:Polypeptide maps of cells infected with murine type C leukemia or sarcoma oncovirus. 62 38

The intracellular processing of the murine leukemia virus envelope glycoprotein precursor Pr85 to the mature products gp70 and p15e was analyzed in the mouse T-lymphoma cell line W7MG1. Kinetic (pulse-chase) analysis of synthesis and processing, coupled with endoglycosidase (endo H) and neuraminidase digestions revealed the existence of a novel high molecular weight processing intermediate, gp95, containing endo H-resistant terminally glycosylated oligosaccharide chains. In contrast to previously published conclusions, our data indicate that proteolytic cleavage of the envelope precursor occurs after the acquisition of endo H-resistant chains and terminal glycosylation and thus after the mannosidase II step. In the same W7MG1 cell line, the type and order of murine leukemia virus envelope protein processing events was identical to that for the mouse mammary tumor virus envelope protein. Interestingly, complete mouse mammary tumor virus envelope protein processing requires the addition of glucocorticoid hormone, whereas murine leukemia virus envelope protein processing occurs constitutively in these W7MG1 cells. We propose that all retroviral envelope proteins share a common processing pathway in which proteolytic processing is a late event that follows acquisition of endo H resistance and terminal glycosylation.
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PMID:A novel intermediate in processing of murine leukemia virus envelope glycoproteins. Proteolytic cleavage in the late Golgi region. 131 32

Retrovirus infection is initiated by the binding of virus envelope glycoprotein to a receptor molecule present on cell membranes. To characterize a receptor for feline leukemia virus (FeLV), we extensively purified the viral envelope glycoprotein, gp70, from culture supernatants of FeLV-61E (subgroup A)-infected cells by immunoaffinity chromatography. Binding of purified 125I-labeled gp70 to the feline T-cell line 3201 was specific and saturable, and Scatchard analysis revealed a single class of receptor binding sites with an average number of 1.6 x 10(5) receptors per cell and an apparent affinity constant (Ka) of 1.15 x 10(9) M-1. Cross-linking experiments identified a putative gp70-receptor complex of 135 to 140 kDa. Similarly, coprecipitation of 125I-labeled cell surface proteins with purified gp70 and a neutralizing but noninterfering anti-gp70 monoclonal antibody revealed a single cell surface protein of approximately 70 kDa. These results indicate that FeLV-A binds to feline T cells via a 70-kDa cell surface protein, its presumptive receptor.
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PMID:Identification of a putative receptor for subgroup A feline leukemia virus on feline T cells. 131 77


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