Env gene products of AKR dual-tropic viruses: examination of peptide maps and cell surface expression

Cell surface expression of human cytomegalovirus (HCMV) gp55-116 (gB): use of HCMV-recombinant vaccinia virus-infected cells in analysis of the human neutralizing antibody response

Cell surface expression of the human cytomegalovirus (HCMV) major envelope glycoprotein complex, gp55-116 (gB), was studied by using monoclonal antibodies and an HCMV gp55-116 (gB) recombinant vaccinia virus. HCMV-infected human fibroblasts and recombinant vaccinia virus-infected HeLa cells expresses three electrophoretically distinct proteins of Mr 170,000, 116,000, and 55,000 on their surface. These species have been previously identified within infected cells and purified virions. Two unique neutralizing epitopes were shown to be present on the cell surface gp55-116 (gB). Utilizing HeLa cells infected with the gp55-116 recombinant vaccinia virus as a specific immunosorbent, we have shown that approximately 40 to 70% of the total serum virus-neutralizing activity of a group of individuals with past HCMV infections was directed against this single envelope glycoprotein. The implications of this finding for vaccine development are discussed.

A Val-25-to-Ile substitution in the envelope precursor polyprotein, gPr80env, is responsible for the temperature sensitivity, inefficient processing of gPr80env, and neurovirulence of ts1, a mutant of Moloney murine leukemia virus TB

ts1 is a neurovirulent spontaneous temperature-sensitive mutant of Moloney murine leukemia virus TB which causes hindlimb paralysis in mice. Previously, it had been shown that the temperature-sensitive defect resided in the env gene. At the restrictive temperature, the envelope precursor polyprotein, gPr80env, is inefficiently processed intracellularly into two cleavage products, gp70 and Prp15E. This inefficient processing of gPr80env is correlated with neurovirulence. In this study, it was shown that a single amino acid substitution, Val-25----Ile in gPr80env, is responsible for the temperature sensitivity, inefficient processing of gPr80env at the restrictive temperature, and neurovirulence of ts1. At the restrictive temperature, a steady-state level of nonprocessed, endoglycosidase H-sensitive gPr80env remained in the endoplasmic reticulum of cells infected by ts1, but no endoglycosidase H-resistant gPr80env and only trace amounts of gp70 were detected in the infected cells. Since the host cell-encoded processing protease resides in the cis cisternae of the Golgi apparatus, inefficient processing of gPr80env at the restrictive temperature is most likely due to inefficient transport of gPr80env from the endoplasmic reticulum to the cis cisternae of the Golgi apparatus rather than due to misfolded gPr80env being a poor substrate for the processing protease at the restrictive temperature.

Association of recombinant murine leukemia viruses of the class II genotype with spontaneous lymphomas in CWD mice

We determined the phenotype and genotype of murine leukemia viruses associated with the development of spontaneous nonthymic lymphomas in the high-leukemia mouse strain CWD/J. By T1 oligonucleotide fingerprint analysis of the viral RNA, the ecotropic viruses recovered from the spleen or thymus of preleukemic CWD/J mice were found to represent the progeny of the two endogenous ecotropic proviruses present in this strain. Polytropic murine leukemia viruses were produced by tissues from one-half of the leukemic mice, and fresh tumor cells from one of the two animals tested expressed recombinant envelope glycoproteins. The genomic structure of the recombinant viruses resembled those of class II polytropic viruses of NFS X Akv mice and differed from those of class I recombinant viruses that are commonly isolated from other high-leukemia strains such as AKR and HRS. Acquired retroviral sequences with the structural features of class II recombinant proviruses were detected in the DNA from each CWD/J tumor by the Southern blot technique. Finally, the injection of a mixture of CWD/J ecotropic and class II recombinant polytropic viruses into neonatal CWD/J mice accelerated the onset of lymphoma, whereas the endogenous ecotropic virus was inactive in these assays.

Thymotropic envelope gene recombinants of Moloney leukemia virus have highly conserved envelope structures

Envelope gp70s were isolated from the thymotropic recombinant viruses related to Moloney murine leukemia virus (RM-M-MuLVs) which were generated by the inoculation of two strains of ecotropic M-MuLV (strain 1869 and temperature-sensitive mutant-1) into BALB/c or CFW/D mice. Chymotrypsin oligopeptide maps of parental ecotropic MuLV, RM-M-MuLV, and inducible xenotropic MuLV showed each of the above virus types had a distinctly characteristic peptide map. The majority of RM-M-MuLV gp70 molecules examined showed a high degree of peptide homology. Data from restriction endonuclease mapping demonstrated that the newly acquired sequences in each of the RM-M-MuLVs were very related and encompassed both the polymerase and the envelope genes. The source of the sequences acquired by the RM-M-MuLV was from endogenous nonecotropic and nonxenotropic proviruses. This suggested that the family of endogenous proviruses which combined with the parental ecotropic virus was either specifically selected or was much more available than other endogenous proviruses. Although slight variations of envelope-specific sequences and peptides existed among various RM-M-MuLV isolates; within a single thymoma, individual clones of tumor cells yielded RM-M-MuLV gp70s which were identical to each other. These findings are discussed within the context of the leukemogenic potential of RM-MuLVs.

Pathogenesis and virus content of lymphomas induced by pure ecotropic Graffi murine leukemia virus

Tumors induced by wild type Graffi murine leukemia virus (Gi-MuLV) contained high titers of MuLV consisting of a predominant ecotropic (e)-MuLV and a scarcer titer recombinant (RM) MuLV component. Each of these was purified by biological cloning and examined for its envelope properties and leukemogenicity. Both the e- and the RM-MuLV's were single isolates and unique in terms of their neutralization profiles and peptide maps. The cloned e-Gi-MuLV was highly leukemogenic in C57Bl mice, inducing a very rapid lethal thymic lymphoma but no myeloid leukemia. e-Gi-MuLV also accelerated thymic lymphoma in AKR mice. The purified RM-MuLV did not induce any tumors. Infectious cell center (ICC) experiments of organs of mice inoculated with e-Gi-MuLV showed that virus replicated very rapidly and reached maximal titers in about one week in C57Bl mice. There was a highly preferential replication in the thymus of the animal so that this e-Gi-MuLV can be considered as thymotropic. Within two weeks after infection of mice, infected cells of the thymus also began to release low levels of a non-ecotropic MuLV. The rapid induction of lymphoma is compared to that induced by other e-MuLV's and their RM-MuLV's, and to the natural AKR-MuLV-associated disease. These findings are discussed in the context of prevailing theories on envelope gene rearrangements in the virus and in the proviral sequences in resulting tumors.

A leukemia virus-related protein in the murine pancreas

A protein that has been detected in the granules of islet cells in the murine pancreas is similar but not identical to the endogenous murine leukemia virus envelope protein gp70. The pancreatic protein was detected by several immunological methods using both polyclonal and monoclonal anti-murine gp70. On purification by affinity chromatography, it was shown to be different from murine gp70 in its subcellular location and its molecular size and the size of its precursor and by the effect of various reagents on its immunological activity as determined by the ELISA assay.

A time-course study of MuLV env gene expression in the AKR thymus: qualitative and quantitative analysis of ecotropic and recombinant virus gene products

Low levels of synthesis of two species of MuLV env gene polyprotein (PrENV protein) in thymocytes of 3-month-old AKR mice were identified. Synthesis of PrENV proteins which comigrate with those of ecotropic and recombinant, dualtropic MuLV represented, respectively, 0.03-0.05 and 0.01-0.03% of total cell protein synthesis in these animals. An increase in the rate of synthesis of both PrENV species was observed in animals at 5-6 months of age; ecotropic virus PrENV represented 0.2-0.6% of total protein synthesis and recombinant virus PrENV, 1-2.5% of total protein synthesis in thymocytes of mice of this age. This same increase in env gene expression of both the ecotropic and recombinant virus was induced in 3-month-old animals by intrathymic injection of recombinant MuLV at 4-6 weeks of age. The level of recombinant virus env gene synthesis in thymomas was similar to that observed in thymocytes of 5- to 6-month-old animals and in experimentally injected animals; elevated synthesis of ecotropic virus PrENV protein was detected in 85% of these leukemias. Partial protease digest mapping of the recombinant virus PrENV protein isolated from 23 primary thymomas revealed that the predominant type of recombinant (18/23) expressed in these cells was that of the MCF 69L1/247 type. A notable finding was the identification of expression of variant ecotropic MuLV in these thymomas. Of ten leukemias studied, eight expressed ecotropic virus PrENV proteins which were distinguishable from that of Akv virus. Four unique ecotropic virus PrENV proteins were observed.

Localization of the leukemogenic determinants of SL3-3, an ecotropic, XC-positive murine leukemia virus of AKR mouse origin

SL3-3 is a potent leukemogenic retrovirus that closely resembles the non-leukemogenic virus Akv. Both viruses were isolated from AKR mice, have ecotropic host ranges, and form plaques in the XC assay. They differ at only 1 to 2% of the nucleotides in the viral genomes but differ markedly in virulence properties. SL3-3 induces leukemia in a high percentage of inoculated AKR, C3H, CBA, and NFS mice, whereas Akv does not induce disease in any of these strains. To determine which region of the genome accounts for the leukemogenic potential of SL3-3, we constructed recombinant genomes between molecular clones of SL3-3 and Akv. Recombinant, viral DNA genomes were cloned and then were transfected onto NIH 3T3 fibroblasts to generate infectious virus. The recombinant viruses were tested for leukemogenicity in AKR/J, CBA/J, and C3Hf/Bi mice. We localized the primary leukemogenic determinant to a 3.8-kilobase fragment of the SL3-3 genome containing the viral long terminal repeat, 5' untranslated sequences, gag gene, and 5', 30% of the pol gene. Reciprocal recombinants containing the equivalent region from Akv, linked to the env gene and the remainder of the pol gene from SL3-3, did not induce leukemia. We conclude that the primary virulence determinant of SL3-3 lies outside the region of the genome that encodes the envelope proteins gp70 and p15E.

Surface proteins of radiation-induced and radiation leukemia virus-induced thymic lymphosarcomas in mice

Thymic lymphosarcomas (TLS) were induced in C57BL mice by X-rays or by Radiation Leukemia Virus (RadLV) and their surface glycoproteins (gps) compared after cell-surface radioiodination and polyacrylamide gel electrophoresis (SDS-PAGE). All lymphocytic antigens tested (T200, 170/100, Thy-1) and proteins with apparent molecular weight (Mr) around 120,000 and 100,000 were present on all tumours, as well as retrovirus--encoded proteins but considerable variation in the Mr of several serologically-related proteins was observed. Therefore, the TLS in C57BL mice form a heterogeneous group, suggesting that T cells can be transformed at different stages of maturation. The possibility that transformation allows or even triggers differentiation is also entertained.

Molecular cloning of a highly leukemogenic, ecotropic retrovirus from an AKR mouse

SL3-3 is a leukemogenic, ecotropic retrovirus produced by a T-cell line derived from a spontaneous lymphoma of an AKR mouse. We have isolated a molecular clone of its DNA provirus from infected NIH 3T3 fibroblasts. Cloned proviral DNA produced infectious virus upon transfection onto NIH 3T3 cells. Virus derived by transfection induced lymphomas at high frequency in AKR/J, C3H(f)/Bi, CBA/J, and NFS/N mice. Heteroduplex and RNase T1 fingerprinting analyses showed that the genomes of SL3-3 and the non-leukemogenic virus, Akv, contain no major substitutions relative to one another and differ by only a few base changes. These results unambiguously show that SL3-3 is a highly leukemogenic virus and that major rearrangements of the genome relative to Akv are not required for virulence.

Leukemogenesis by Gross passage A murine leukemia virus: expression of viruses with recombinant env genes in transformed cells

Gross passage A murine leukemia virus (MuLV) derived from extracts of C3Hf/Bi mouse leukemias has been shown to be a virus complex consisting of ecotropic, xenotropic, and recombinant, dualtropic MuLV components. The three virus components were distinguished biochemically by differences in the molecular weights and peptide maps of their primary env gene products synthesized in infected cells in vivo and in vitro. Virus expression was studied in primary leukemias induced in C3Hf/Bi mice by Gross passage A virus extracts and by the individual ecotropic and recombinant MuLV components that were isolated in vitro. Our findings suggest that expression of the recombinant MuLV component of the Gross passage A virus complex is necessary and sufficient for the induction of leukemias in C3Hf/Bi mice. In contrast, induction of leukemias by the ecotropic virus component appears to involve generation of a second virus with characteristics of recombinant, dualtropic MuLV.