UMLS:C1261473 - FACTA Search

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Query: UMLS:C1261473 (sarcoma)
25,952 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The simian sarcoma virus (SSV) encodes a gag-related 65,000-Da protein (SSV p65) which is not processed in SSV nonproducer cells (SSV-NP cells) (H.-J. Thiel, T. J. Matthews, E. M. Broughton, K. J. Weinhold, D. P. Bolognesi, T. Graf, and H. Beug (1981a), Virology 114, 124-131). In order to cleave SSV p65, retroviral particles containing this antigen were incubated with extracts from the heterologous helper virus Friend leukemia virus (FLV). Superinfection of SSV-NP cells by FLV has been previously shown to result in processing of SSV p65 in vivo (H.-J. Thiel, F. Weiland, R. Hafenrichter, T. J. Matthews, and K. J. Weinhold (1982), Virology 123, 229-234). In vitro cleavage was most efficient in the presence of a nonionic detergent (greater than 0.1% Nonidet-P40) and a reducing agent (greater than 5 mM dithiothreitol) at a pH of 7.0. The products, termed SSV p55 (p15, p12, p30), SSV p30, SSV p25 (p15, p12), and SSV p10, were characterized by (1) molecular weight, (2) kinetics experiments, (3) incorporation of different radiolabeled amino acids, and (4) comparison with SSAV structural proteins. Kinetics experiments with two amino acids ([3H]leucine, [35S]cysteine) revealed that initial processing of SSV p65 produced SSV p55 and SSV p10, with subsequent processing of SSV p55 occurring thereafter. In contrast to the Moloney system, the major intermediate p40 (p30, p10) could not be clearly demonstrated. A direct comparison of SSAV p10 and the cleavage product SSV p10 by SDS-PAGE suggests that SSAV pr65gag and SSV p65 differ slightly by molecular weight.
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PMID:Simian sarcoma virus-encoded gag-related protein: in vitro cleavage by Friend leukemia virus-associated proteolytic activity. 299 99

An immunoblotting procedure using viral proteins from purified murine sarcoma virus or MSV-(MLV) has been developed to characterize antiviral antibodies in sera from patients with autoimmune connective tissue disorders. Fifty-eight sera with anti-Sm, anti-RNP, anti-SS-B (La), and other undefined specificities were found to react with several major viral polypeptide bands. Most of them corresponded to gag-gene-encoded products: pr65gag, p40gag, p30, p15, p12 and p10. Other bands with molecular weights averaging 90K, 60K, 45K, and 28K were recognized by a few sera. Immunological specificity of the reaction was assessed by reproducing the tests with IgG purified from sera and from corresponding F(ab')2 fragments. Moreover, the specificity of the reaction with gag proteins was confirmed by repeating the tests with p30 and p15 prior purified by immunoprecipitation with anti-p30 and anti-p15 goat sera. Furthermore, the gag polypeptides were recognized by human sera by replacing MSV-(MLV) by three other murine retroviruses of different origin. An indirect confirmation of these results was obtained by applying this method to sera of MRL lpr/lpr mice which develop an autoimmune syndrome comparable to that of human systemic lupus erythematosus. In agreement with previously published results (C. Rordorf, C. Gambke, and J. Gordon (1983), J. Immunol. Methods 59, 105-112), we found that anti-gag-gene antibodies were present in the sera of individual mice. Patterns of reactivity were found to vary with the age of the animals. No retroviral polypeptide was significantly detected in the great majority (80%) of sera from normal donors. However, 5 out of 25 sera showed faint bands although to a lesser extent than pathological sera. These five sera also reacted with HeLa cell purified HnRNPs, suggesting that their normal status should be reconsidered.
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PMID:Presence of circulating antibodies against gag-gene MuLV proteins in patients with autoimmune connective tissue disorders. 299 55

We examined the molecular basis for phenotypic reversion in cells infected with a transformation mutant of murine sarcoma virus, MuSVts110. In MuSVts110-infected NRK cells (6m2 cells), the manifestation of the transformed phenotype at 33 degrees C and the normal phenotype at 39 degrees C is governed by thermosensitive splicing of the MuSVts110 primary transcript, a 4.0-kilobase (kb) RNA which contains the gag and mos genes joined out of frame. At 33 degrees C, selectively, the 4.0-kb RNA is processed to a spliced 3.5-kb RNA in which the gag and mos genes are rejoined in a continuous open reading frame, thus allowing synthesis of the P85gag-mos-transforming protein. In contrast, the MuSVts110 revertant cell lines (designated 54-5A4 and 204-3) appear transformed at all growth temperatures from 33 to 39 degrees C and express a P100gag-mos-transforming protein from an apparently unprocessed 4.0-kb viral RNA. In the current study we established both by S1 nuclease analysis and primer extension sequencing that the revertant 54-5A4 and 204-3 4.0-kb viral RNAs suffered a 5-base deletion at the intron-exon border of the 3' splice site. The effect of this deletion is twofold. First, because of the damage to the 3' splice site, the revertant viral 4.0-kb RNAs cannot be processed to the spliced 3.5-kb RNA and, consequently, cannot be translated to P85gag-mos. Second, the 5-base deletion excises an in-frame stop codon positioned at the intron-exon border in the parental RNA and restores the original mos gene reading frame. The net effect is to produce a continuous open reading frame from the gag, alternate mos, and authentic mos gene reading frames which are fused together in the revertant 4.0-kb RNA. This continuous open reading frame can be translated into the P100gag-mos-transforming protein at any growth temperature.
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PMID:Molecular basis underlying phenotypic revertants of Moloney murine sarcoma virus MuSVts110. 300 54

The avian carcinoma virus MH2 contains a hybrid gene delta gag-mht with a contiguous open reading frame of 2682 base pairs as well as v-myc and avian helper virus-related sequences. delta gag is a partial retroviral core protein gene while v-mht and v-myc are cell-drived sequences. The v-mht sequence can be divided into two regions: the v-raf-related region at its 3' end contains 969 nucleotides which are 94% related as amino acid sequence to the onc-specific v-raf sequence of murine sarcoma virus 3611 (MSV 3611), and the v-mht-specific region at its 5' end contains 173 nucleotides which are unrelated to either MSV 3611 or avian helper virus sequences. To study the origin of the v-mht-specific sequences, the 5' region of the proto-mht/raf gene was molecularly cloned from a phage lambda library containing genomic chicken sequences. Nucleic acid hybridization, heteroduplex and DNA sequence analyses indicate that the v-mht-specific sequences are encoded in three exons. The first and second exons are separated by a 3.4-kb intron while the second and third exons are separated by a 90-bp intron. The last 14 bp of the third exon are shared with v-raf and thus represent the start of v-raf-related sequences. The junction between v-mht-unrelated and related cellular sequences occurs within the first exon. There is no homology between the v-mht-unrelated sequences and the retroviral helper sequences indicating that the viral transduction of the proto-mht/raf sequences occurred through illegitimate recombination. The predominant v-mht-related messenger RNA (4.0 kb) hybridizes to several noncontiguous regions on the molecularly cloned cellular proto-mht/raf DNA indicating that the proto-mht/raf gene is distributed over at least 10 kb of DNA in the chicken genome. Thus the v-mht oncogene is a subset of its normal cellular homolog in that it lacks intervening sequences and possibly lacks 5'-coding sequences.
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PMID:Analysis of the cellular proto-oncogene mht/raf: relationship to the 5' sequences of v-mht in avian carcinoma virus MH2 and v-raf in murine sarcoma virus 3611. 300 17

An N-ecotropic murine leukemia virus (OA MuLV), originally isolated from spontaneous osteomas of strain 101 mice, was molecularly cloned. The virus induces osteomas, osteopetrosis, and malignant lymphomas in NMRI mice. The cloned virus was analyzed by heteroduplex analysis, restriction enzyme mapping, and oligonucleotide mapping. The data show a very close relationship to the endogenous Akv prototype virus with some differences in the gag and the env region. The nucleotide sequence of the U3 region of OA MuLV LTR revealed a structure within the presumable enhancer region very similar to the U3 sequences of the FBJ murine sarcoma virus and its associated helper virus. The significance of these specific structures for the oncogenicity of the virus and the development of the typical disease pattern is discussed.
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PMID:Oncogenic retrovirus from spontaneous murine osteomas. II. Molecular cloning and genomic characterization. 300 46

Infection of the rat myoblast cell line, L6E9, with Moloney murine sarcoma virus (Mo-MuSV) clone 124, altered a cellular protein of Mr 55,000 (P55) within 2 days of infection. The alteration of P55 was observed as a reduction in its steady-state level in cell extracts. The reduction of P55 correlated with the appearance of p37mos in infected cells. Except for P55 and one other protein, no change was detected in the total protein pattern of infected cells compared to uninfected cells, as judged by either immunoblots of one-dimensional NaDodSO4 gels or direct two-dimensional gel analysis. P55 levels were unchanged when L6E9 cells were infected with Moloney murine leukemia virus or several different transforming retroviruses. To determine the specificity of this v-mos-induced effect on P55, L6E9 cells were acutely infected with a temperature-sensitive variant (ts110) of Mo-MuSV. When these cells were shifted from 39 degrees C to 33 degrees C, which activates the gag-mos gene product, the P55 level dropped by greater than 50% within 2-3 hr. Conversely, with a shift in temperature from 33 degrees C to 39 degrees C, the cells' P55 level returned to normal within 5 hr, starting at 30 min after shift. These results clearly show that v-mos expression in acutely infected L6E9 cells alters the cellular protein, P55.
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PMID:Expression of the v-mos gene alters a Mr 55,000 protein during acute infection by Moloney murine sarcoma virus. 301 22

The myeloproliferative sarcoma virus (MPSV) is made up entirely of sequences derived from the Moloney murine leukemia virus (Mo-MuLV) and the cellular mos oncogene. As other members of the Moloney murine sarcoma virus (Mo-MuSV) family, MPSV transforms fibroblasts in vitro and causes sarcomas in vivo. In addition, however, MPSV also causes an acute myeloproliferative disease in adult mice. The mos oncogene is essential for its transforming capacity, but sequences specific to the long terminal repeat (LTR) U3 region of MPSV account for its expanded target specificity as compared to Mo-MuSV (C. Stocking, R. Kollek, U. Bergholz, and W. Ostertag, Proc. Natl. Acad. Sci. USA 82, 5746-5750 (1985)). The U3 region of the LTR of MPSV is, however, closely related to that of the Mo-MuLV, and it appeared likely that the difference between MPSV and Mo-MuSV was caused by a divergent evolution of Mo-MuSV LTRs. In this paper, we show that this is not the case. The few nucleotide differences in the LTR between Mo-MuLV and MPSV are crucial for the expanded host range of MPSV. Moreover, Mo-MuLV-related gag sequences retained in MPSV are not essential for the distinctive biological properties of MPSV.
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PMID:Point mutations in the U3 region of the long terminal repeat of Moloney murine leukemia virus determine disease specificity of the myeloproliferative sarcoma virus. 301 84

The effect of cerulenin, an inhibitor of de novo fatty acid (and cholesterol) biosynthesis, on the synthesis of the precursor gag polyprotein, Pr65gag in a defective murine leukemia virus (334C) producing murine cell line (3JE) and a defective murine sarcoma virus (Gazdar) producing hamster cell line (HTG-2) was examined. In contrast to Moloney murine leukemia virus (M-MuLV) producing cell lines (MJD-54, clone 2) the amount of the Pr65gag remaining in the presence of cerulenin (20 micrograms/ml) was greatly reduced in both defective virus-infected cells. This effect appears specific for the Pr65gag polyprotein, since the env precursor polyprotein Pr80env was normally synthesized and remained undegraded in cerulenin-treated 3JE-infected cells. Thin-section electron micrographs showed an increased accumulation of virion particles in vesicles of treated HTG-2 cells.
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PMID:The effect of cerulenin on the synthesis of the precursor gag polyprotein in defective murine leukemia and sarcoma virus producing cell lines. 301 2

The proteolytic processing of the gag precursor polypeptide pr65gag of simian sarcoma-associated virus (SSAV) has been studied in vivo and in vitro. In SSAV-infected cells (i.e., in vivo) proteins of 52 and 38 kDa and the viral protein p30 could be immunoprecipitated with anti-p30 serum. This cleavage pattern is only in part imitated by in vitro cleavage of the isolated pr65gag with avian myeloblastosis virus (AMV) protease p15. However, in vitro incubation of isolated pr65gag with detergent-disrupted SSAV particles generated products identical in size to those found in vivo, i.e., proteins of 52 and 38 kDa and p30. The extent of cleavage is dependent on the concentration of the disrupted virions added to the incubation mixture. Studies with protease inhibitors suggest that the SSAV enzyme is a serine-type protease like that of other mammalian retroviruses and unlike the protease of avian viruses. The SSAV protease activity eluted from a molecular sieve column in a range of about 10-15 kDa reflecting the molecular weight of the murine leukemia virus (MuLV) protease (Mr = 13.5K). Thus, it appears that there is a close similarity between the proteolytic enzymes present in different mammalian retroviruses such as MuLV and SSAV.
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PMID:Characterization of a virus-specific proteolytic activity processing the gag precursor of the simian sarcoma-associated virus. 302 76

A cis-acting enhancer element has been detected within the gag gene of several avian retroviruses, including Rous sarcoma virus, Fujinami sarcoma virus, and the endogenous Rous-associated virus-0. A consensus enhancer core sequence, GTGGTTTG, is present in all of these viral genomes, approximately 900 bases downstream from the site of initiation of transcription. When an internal fragment derived from the gag gene of any of these viruses (spanning nucleotides 533 to approximately 1149) was inserted into a plasmid containing the chloramphenicol acetyltransferase (cat) gene under control of the simian virus 40 promoter, 9- or 21-fold enhancement of CAT expression was observed after transfection into mouse L cells and chicken embryo fibroblasts, respectively. This enhancement was not dependent on the position of insertion of the gag fragment into the plasmid. However, there was a strong dependence on orientation, with higher levels of CAT expression in constructs in which the 5' end of the gag fragment was nearest to the promoter, suggesting a possible negative regulatory element at the 3' end of this fragment. Deletion of the 3' end of the insert resulted in a gag fragment, containing nucleotides 533 to 1017, which enhanced expression equally in either orientation. When the gag fragment was inserted into a plasmid containing the cat gene under the control of an intact Rous sarcoma virus long terminal repeat, it induced a two- to threefold increase in CAT activity and CAT mRNA levels. Translation of the gag fragment did not appear to be necessary for the observed enhancement, since two insertional mutations resulting in frameshifts in the gag insert did not affect CAT expression. However, deletion of a 330-base internal fragment from the gag insert restored a basal level of CAT activity. These results suggest that retroviruses have regulatory elements within their genes distinct from those in the long terminal repeats that flank the genes.
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PMID:cis-acting regulatory elements within gag genes of avian retroviruses. 303 70

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