UMLS:C0023418 - FACTA Search

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

The specificity of CTL generated against tumors induced by murine leukemia viruses (MuLV) has been reported to parallel the expression of two serologically defined tumor cell surface antigens--the cross-reactive FMR antigen expressed on the surface of tumors induced by Friend, Moloney, and Rauscher MuLV, and the Gross cell surface antigen (GCSA) expressed on tumors induced by AKV/Gross MuLV. We examined the specificity of CTL generated against MuLV-induced tumors and identified two distinct patterns of reactivity. The first follows the traditional pattern of FMR vs GCSA reactivity as assessed on a panel of established MuLV-induced lymphomas. However, CTL exhibiting this pattern of reactivity are incapable of lysing MuLV-infected fibroblasts. CTL exhibiting the second pattern of reactivity are capable of lysing MuLV-induced lymphomas as well as MuLV-infected fibroblasts. In addition, these CTL exhibit extensive cross-reactivity between lymphomas and fibroblasts infected by both groups of MuLV. Our results suggest that CTL exhibiting the traditional FMR vs GCSA pattern of reactivity are directed against a tumor-associated antigen and not against virus-encoded antigens, and that CTL directed against MuLV-encoded antigens demonstrate extensive cross-reactivity, including the ability to lyse AKV-infected cells.
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PMID:The immune response to Moloney murine leukemia virus-induced tumors: induction of cytolytic T lymphocytes specific for both viral and tumor-associated antigens. 349 Nov 52

The genome of Kirsten murine sarcoma virus was formed by recombination between Kirsten murine leukaemia virus sequences, and rat sequences derived from a retrovirus-like '30S' (VL30) genetic element encompassing the Kras oncogene. Using cloned DNAs we have determined the nucleotide sequences of the long terminal repeats and adjacent regions, extending across the points of recombination on the sarcoma and leukaemia virus genomes. Our results suggest that discrete regions of homology and other cryptic sequence features, may have constituted recombinational hot-spots involved in the genesis of the Kirsten murine sarcoma virus genome. We have also compared the sequence of the Kirsten murine leukaemia virus p15 env and adjacent long terminal repeat with the corresponding regions of the AKV and Gross A murine leukaemia virus genomes. This comparison has identified a leukaemogenic determinant in the U3 domain of the long terminal repeat, possibly within a enhancer-like sequence element.
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PMID:Genesis of Kirsten murine sarcoma virus: sequence analysis reveals recombination points and potential leukaemogenic determinant on parental leukaemia virus genome. 609 Oct 40

A restriction endonuclease cleavage map of the genome of AKV, the endogenous, ecotropic leukemia virus of AKR mice, has been derived. By using this map and analyzing DNA from congenic mice, we have defined four DNA fragments diagnostic for AKV proviruses. Analysis of DNAs from 10 strains of American laboratory mice revealed that all strains carrying inducible, ecotropic murine leukemia viruses yielded DNAs which contained the four DNA fragments diagnostic for AKV. Virus-negative strains lacked these fragments in their DNA. Screening DNA from 23 additional mice revealed that, among these mice, only mice from Asia gave rise to the DNA fragments diagnostic of an AKV provirus. We conclude that all of the endogenous ecotropic murine leukemia proviruses in American laboratory mice are closely related since they share a common set of restriction endonuclease cleavage sites. These proviruses appear to derive from the East Asian ancestors of these mouse strains. Analysis of DNA from six selected mice with an additional restriction endonuclease showed that greater than 97% of the nucleotide sequences in each provirus are contigous and that these endogenous proviruses are indistinguishable from proviruses introduced by exogenous infection.
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PMID:Evidence for the Asiatic origin of endogenous AKR-type murine leukemia proviruses. 625 41

Several recent reports (8, 10, 11, 13) have established the biological and molecular genetic similarity between the endogenous AKV virus of strain AKR, and an N-ecotropic endogenous virus found in the genome of feral Japanese mice, Mus musculus molossinus. The similarities are so striking as to suggest a common origin of these viruses, which are present in some, but not all, inbred mouse strains. The virogenes of AKR mice may have been acquired by either: (a) common descent of AKR (and other AKV(+) strains) from a common ancestor of AKR and molossinus animals, or (b) horizontal germ line infection of the AKR strains by molossinus virus at 1;he strain's inception followed by fixation through inbreeding. The sexual descent model carries with it a prediction of relative consanguinity of the AKR strain and molossinus, whereas the horizontal infection model does not. We have examined the polymorphic allozyme (allelic isozyme) genotype of 51 nonvirus-related loci in 17 strains of mice including AKR, C58, BALB/c, Swiss, and molossinus. By comparing the composite allozyme genotype of different inbred and outbred mouse strains, the "genetic distance" statistic was derived. Genetic distance measures the degree of allelic substitution between populations and increases proportionately with the amount of time the populations have been reproductively isolated. The genetic distance computed between molossinus and AKR is large, nearly 5-10 times the distance between known related populations and strains (e.g., C57L vs. C57BL/6). Molossinus had a similarly large distance from AKV negative strains (Swiss, C57L) as it did from AKV- positive strains. Cellular DNA sequences that flank the integrated AKV provirus were analyzed by restriction enzyme digestion of liver DNA from molossinus, AKR, and additional inbred strains that express ecotropic murine leukemia virus. The integration flanks of three AKR provirus sequences, Akv-1, Akv-2, and a third uncharacterized sequence, were not evident in molossinus cell DNA, which contained at least six different proviral integration fragments. These data effectively exclude the interpretation of consanguinity of AKR and molossinus and support the notion of acquisition of the endogenous virus in AKR by horizontal infection of the molossinus virus.
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PMID:Evidence for the horizontal acquisition of murine AKR virogenes by recent horizontal infection of the germ line. 627 48

The gel electrophoresis-hybridization technique of Southern was used to analyze genetically transmitted proviruses coding for the AKV strain of murine leukemia virus. We were able to identify the restriction endonuclease EcoRI fragments containing two previously unidentified, genetically transmitted AKV proviruses of AKR mice. Comparison of different sublines of AKR mice revealed considerable heterogeneity in their complement of germ line proviruses. This heterogeneity provides evidence that the provirus complement of AKR mice is not stable. Rather, the number of genetically transmitted proviruses increases during inbreeding. Examination of a series of sublines of the C3H strain indicated that this amplification is dependent on viremia. We estimate that, in viremic strains of mice, one new provirus becomes fixed in the germ line every 15 to 30 years.
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PMID:Continuing germ line integration of AKV proviruses during the breeding of AKR mice and derivative recombinant inbred strains. 628 36

We report the nucleotide sequence of the 3' half of the ecotropic murine leukemia virus AKV genome. To obtain a preliminary sequence, we developed a sequencing strategy whereby a nested set of restriction fragments is chemically modified prior to gel purification and strand scission. The sequence defines the genetic map of the 3' half of AKV and locates recombinant regions previously identified in structural analyses of MCF viruses.
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PMID:Nucleotide sequence of the 3' half of AKV. 629 21

To study the structure of murine leukemia proviruses in AKR mice by Southern hybridization, we have isolated and mapped ecotropic AKV and nonecotropic MCF-derived cDNA restriction fragments. The ecotropic-specific probes originate from four regions of the AKV genome which include the corresponding recombinant region of two MCF viruses (VI-36 and 247). We also isolated two nonecotropic probes from the recombinant region of MCF V1-36. The probes were characterized by (i) mapping of restriction fragments at the 3' end of AKV and MCF V1-36 by a two-dimensional gel strategy, (ii) hybridization of restriction fragments to the related viral RNA genomes followed by electrophoresis, (iii) two-dimensional fingerprinting of single-stranded restriction fragments, and (iv) DNA sequence analysis of the ecotropic probes. The ecotropic AKV and nonecotropic MCF probes discriminate between two populations of endogenous murine leukemia viruses and show that the MCF viruses are not present in the germ line of AKR mice.
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PMID:Isolation and mapping of cDNA hybridization probes specific for ecotropic and nonecotropic murine leukemia proviruses. 629 4

AKV is an endogenous, ecotropic murine leukemia virus that serves as one of the parents of the recombinant; oncogenic mink cell focus-forming viruses that arise in preleukemic AKR mice. I report the 8,374-nucleotide-long sequence of AKV, as determined from the infectious molecular clone AKR-623. The 5'-leader sequence of AKV extends to nucleotide 639, after which lies a long open reading frame encoding the gag and pol gene products. The reading frame is interrupted by a single amber codon separating the gag and pol genes. The pol gene overlaps the env gene within the 3' region of the AKV genome. The nucleotide sequence of the 5' region of AKV reveals the following features. (i) The 5'-leader sequence lacks any AUG codon to initiate translation of gPr80gag, suggesting that gPr80gag is not required for the replication of AKV. (ii) A short portion of the leader region diverges in sequence from the closely related Moloney murine leukemia virus and appears to be related to a sequence highly repeated in eucaryotic genomes. (iii) As in Moloney murine leukemia virus, there is a potential RNA secondary structure flanking the amber codon that separates the gag and pol genes. This structure might function as a regulatory protein binding site that controls the relative levels of synthesis of the gag and pol precursors. The nucleotide sequence of the 3' region of AKV is compared with sequences reported previously from both infectious and noninfectious molecular clones of AKV.
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PMID:Nucleotide sequence of AKV murine leukemia virus. 631 46

Comparison of the genomic sequences of the Friend spleen focus-forming virus with other murine retroviral sequences indicated that the spleen focus-forming virus was derived from at least three retroviruses. The 5' end of the virus, from the primer binding site through most of gag, was derived from AKV. The rest of gag and all of pol were of uncertain origin, but were probably derived from the same xenotropic virus that gave rise to the 5' half of env. The remainder was derived from Friend murine leukemia virus. The positions of a 585-base deletion, a 6-base duplication, and a point insertion that leads to a frame shift and premature protein termination in the ecotropic 3' end of env were invariant between three spleen focus-forming virus strains, indicating that they had a single common ancestor. However, the point of crossover between xenotropic viral sequences and Friend murine leukemia virus was different in each strain, and two strains were much more closely related to each other than to the third in the xenotropic region, indicating that these strains had diverged by multiple recombinations. Furthermore, a different nucleotide comprised the single point insertion near the 3' end of env, suggesting that these viruses have an extremely high transition and transversion rate.
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PMID:Fluidity of a retrovirus genome. 632 5

Upon infection with the Moloney murine sarcoma virus-murine leukemia virus (MuLV) complex, H-2b C57BL/6 (B6) mice respond with a class I Db-restricted cytotoxic T-lymphocyte (CTL) response, which protects against virus-induced tumorigenesis. In the B6-derived Db mutant B6.CH-2bm13 (bm13) strain, part of the class I Db antigen-presenting groove is shaped by a class I Kb-encoded sequence. Like B6 mice, bm13 mice reject Moloney virus-induced tumors, but the protective CTL response is Kb restricted. In this study we show enhanced levels of Moloney MuLV-specific CTLp with a restriction for Kb in bm13 mice. Through the use of CTL clones from Moloney virus-immunized bm13 mice, the class I Kb-presented CTL epitope was identified. The epitope is located in the Moloney virus gp70 envelope protein region (Moloney envelope, amino acids 189 to 196 [Mol env (189-196)]), SSWDFITV and has the Kb allele-specific binding motif. The Dbm13 molecule does not present the env(189 to 196) epitope to Kb-restricted bm13 CTL. In B6 mice, Mol env(189-196)-specific CTL could be induced by peptide vaccination. B6 mice thus have CTL precursors specific for this epitope but at considerably lower levels than do bm13 mice. We hypothesize that additional positive selection of Kb-restricted CTL on the Dbm13 molecule in bm13 mice explains this difference in precursor frequencies. We examined related strains of MuLV for the presence of Mol env(189-196) sequence equivalents. Rauscher, Friend, and AKV MuLV-encoded Mol env(189-196) epitope equivalents were properly recognized in cytotoxicity assays, both as synthetic and as endogenously expressed (Rauscher MuLV) peptides. In contrast, the mink cell focus-forming virus MuLV-encoded epitope equivalent, lacking a Kb anchor residue, was not presented for CTL recognition and hence can be excluded as an important CTL epitope for mink cell focus-forming viruses.
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PMID:Identification of an H-2 Kb-presented Moloney murine leukemia virus cytotoxic T-lymphocyte epitope that displays enhanced recognition in H-2 Db mutant bm13 mice. 752 98

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