Isolation of transforming murine leukemia viruses from mice with a high incidence of spontaneous lymphoma.

Murine leukemia viruses capable of malignant transformation of mink tissue culture cells have been isolated from an AKR thymoma cell line and from a spontaneous reticulum cell sarcoma in an NIH Swiss mouse partially congenic for the AKR ecotropic virus-inducing locus Akv-2. In contrast to the recently described mink cell focus-inducing strains of murine leukemia virus, at least one of the two transforming strains is replication defective. Nonproducer mink cells carrying the genome of the transforming virus of AKR origin have been isolated, and pseudotype transforming viruses generated.     

Friend and Moloney murine leukemia viruses specifically recombine with different endogenous retroviral sequences to generate mink cell focus-forming viruses.

A group of mink cell focus-forming (MCF) viruses was derived by inoculation of NFS/N mice with Moloney murine leukemia virus (Mo-MuLV 1387) and was compared to a similarly derived group of MCF viruses from mice inoculated with Friend MuLV (Fr-MuLV 57). Antigenic analyses using monoclonal antibodies specific for MCF virus and xenotropic MuLV envelope proteins and genomic structural analyses by RNase T1-resistant oligonucleotide finger-printing indicated that the Moloney and Friend MCF viruses arose by recombination of the respective ecotropic MuLVs with different endogenous retrovirus sequences of NFS mice.     

A new class of murine leukemia virus associated with development of spontaneous lymphomas.

A new type of murine leukemia virus has been detected in thymuses of leukemic and late preleukemic AKR mice, in lymphomas developing in NIH Swiss mice carrying the AKR ectopic virus-inducing loci Akv-I or Akv-2, and in the thymus of a preleukemic C58 mouse. The viruses induce focal areas of morphologic alteration in a mink lung cell line and are tentatively referred to as "mink cell focus-inducing" (MCF) strains. They have the host range of both xenotropic and N-tropic ecotropic murine leukemia viruses, are neutralized by antisera to both ecotropic and xenotropic viruses, and are interfered with by both viruses. They may represent a particular type of genetic recombinant which emerges during the preleukemic period in high-ecotropic-virus mouse strains, and they may play a significant role in the etiology of spontaneous lymphomas.     

Expression of differentiation and murine leukemia virus antigens on cells of primary tumors and cell lines derived from chemically induced lymphomas of RF/J mice.

3-Methylcholanthrene (MCA) skin painting rapidly induced a 100% incidence of thymic lymphomas in RF/J mice. Tumors developed exclusively in cells of the T-lymphocyte lineage and displayed the surface phenotype: Thy-1+, Lyt-1+, Lyt-2+, Qa-1+, H-2K+, H-2D+, TL-, Ig-, Ia-. This phenotype resembled that of cortisone-resistant, medullary thymocytes, whereas the phenotype of spontaneous AKR thymomas resembles that of cortisone-sensitive, cortical thymocytes. The phenotype differed very little from one tumor to another and was maintained during syngeneic passage in vivo and adaptation to growth in culture. Infectious ecotropic murine leukemia virus (MuLV) was produced in a minority of primary tumors and cell lines, but no xenotropic or mink cell focus-inducing virus (MCF) MuLV production was reliably detected. MuLV-related antigen expression on normal thymocytes increased in an age-dependent manner, and levels on thymoma cells were similar to those on thymocytes from age-matched normal controls. MuLV nonproducer tumor cells expressed few or no epitopes of AKR ecotropic gp70, but they were positive when tested with an antiserum prepared against MCFenv glycoprotein.     

Structure of endogenous murine leukemia virus DNA in mouse genomes.

By using molecularly cloned ecotropic AKR murine leukemia virus (MuLV) DNA, a 400-base-pair ecotropic type-specific segment in the env region has been identified. This DNA segment and other defined viral subgenomic fragments have been used as 32P-labeled probes to identify and analyze the structure of integrated ecotropic viral DNA sequences in uninfected mouse genomes. Those mice from which endogenous ecotropic MuLV of the AKR type have been isolated contained at least one virtually complete linear copy of the viral genome. Strains from which ecotropic MuLV has not been isolated lacked ecotropic-specific sequences. All inbred mouse strains tested also contained MuLV DNAs of genomic length whose restriction endonuclease digestion pattern was characteristic of xenotropic viruses.     

Differences in glycosylation patterns of closely related murine leukemia viruses

The nature of the carbohydrate chains in the major envelope glycoprotein of murine leukemia virus, gp70, and its cellular precursor has been investigated. A difference in the oligosaccharide composition of gp70 from an ecotropic murine leukemia virus (Akv) and three recombinant dual-tropic viruses [mink cell focus-inducing viruses (MCFs)] derived from Akv was demonstrated. Glycosidase digestion and gel filtration were utilized to identify the two classes of N-asparagine-linked oligosaccharides, high-mannose and complex. The gp70 of the ecotropic virus contained only N-linked oligosaccharides of the complex type. In contrast, the gp70s of the dual-tropic viruses contained both high-mannose and complex oligosaccharides. Analysis of gp70 glycopeptides from an MCF-related xenotropic virus showed an elution profile similar, but not identical, to profiles of the MCFs. The gp70 precursors isolated from cells infected with Akv or MCF virus contained N-linked oligosaccharides that were exclusively of the high-mannose type. Comparison of the high-mannose oligosaccharides of the MCF gp70 precursors with those of the corresponding gp70s indicated that very little further processing of the high-mannose residues in the gp70s had occurred. The presence of the high-mannose oligosaccharides in the envelope glycoprotein of the dual-tropic viruses results from altered carbohydrate processing. The conservation of this altered carbohydrate pattern in a number of hosts and under various conditions of growth suggests that the viral protein structure is the primary factor in determining the different mode of glycosylation of the MCF gp70s. Thus, these viral glycoproteins provide an important model system for studying the relationship between protein structure and patterns of glycosylation.     

Tissue tropism of a leukemogenic murine retrovirus is determined by sequences outside of the long terminal repeats.

Although it has been previously determined that the long terminal repeat (LTR) sequences of several murine retroviruses specify the major tissue tropism of leukemias they induce, data reported here show that the LTR is not responsible for tissue tropism in the case of all leukemogenic viruses. In an effort to determine whether LTR sequences of the acute erythroleukemia-inducing spleen focus-forming virus (SFFV), like those of the other murine leukemia viruses, are uniquely required to confer tissue specificity to the virus, we prepared recombinant SFFVs in which the LTR region containing promoter and enhancer functions was replaced with analogous LTR regions from Friend and Moloney ecotropic and mink cell focus-inducing viruses. It was found that all of the SFFV constructs, even those with a LTR derived from lymphoma-inducing viruses such as Moloney murine leukemia virus, transformed erythroid cells in vitro and induced exclusively an erythroid disease. These results demonstrate that sequences in SFFV that determine the tissue-specific nature of the disease reside outside the LTR.     

Highly efficient induction of type C retroviruses by a human tumor in athymic mice.

We have found that 1 of 20 human tumors transplanted and passaged in nude mice was associated with a massive induction of endogenous murine leukemia virus (MuLV). Separation and growth of these viruses on various substrates indicated that both ecotropic and xenotropic MuLV were present in the induced mixture. Tryptic peptide fingerprints of the p30 and gp70 structural elements of the viruses indicated that all of the known endogenous muLVs of BALB/c mice were present in the mixture. In addition, a new xenotropic MuLV was identified. The human tumor that induced the viruses was an oat cell carcinoma. The oat cell carcinoma possibly produced a specific hormone or factor that acts as a potent inducer of endogenous type C retroviruses.     

Changes in expression of murine leukemia virus antigens and production of xenotropic virus in the late preleukemic period in AKR mice.

We recently reported that thymocytes from 6-month-old preleukemic AKR mice express higher levels of murine leukemia virus (MuLV)-related antigens that thymocytes from 2-month-old mice. We have now found that the level of xenotropic MuLV (defined operationally as MuLV able to infect mink cell cultures) is also markedly increased in thymus of 6-month-old AKR mice and that this increase in virus correlates closely with increased MuLV-antigen expression. There is no increase of MuLV antigen or xenotropic virus in spleen or lymph nodes. Production of ecotropic MuLV remains unchanged with age in thymus, lymph nodes, and spleen. Thymic grafts from 6-month-old AKR mice, but not from 2-month-old mice, induce both amplified MuLV-antigen expression and xenotropic virus production in the thymus of young AKR recipients. Experiments with lethally irradiated AKR mice reconstituted with syngeneic bone marrow cells indicate that age-related changes in the thymus rather than in bone marrow precursor cells are responsible for MuLV-antigen amplification.