Transfer ribonucleic acid nucleotidyltransferase activity in virions of type-C viruses.

A nucleotidyltransferase activity has been found associated with a number of mammalian and avian oncornaviruses. This activity catalyzes the incorporation of adenosine monophosphate and cytosine monophosphate into acid insoluble forms. The transferase activity from Rauscher murine leukemia virus has been characterized. The endogenous reaction is stimulated by various tRNAs particularly the 4S RNA isolated from Rauscher leukemia virus, whereas other RNAs have no effect. The product of the reaction is alkali and RNase sensitive, insensitive to DNase, and its size is similar to tRNA. Finally, the terminal nucleotide analysis of the product of the reaction indicates the presence of a CCA terminus. The properties of the activity found in the type-C viruses are in accord with those of known tRNA nucleotidyltransferases from other sources.     

Feline sarcoma virus induced in vitro progression from premalignant to neoplastic transformation of human diploid cells

Summary Human diploid cells morphologically transformed by feline sarcoma virus were serially propagated under selective cell culture conditions. When injected into nude mice prior to passage in soft agar (0.35%), morphologically transformed cells did not produce tumors. However, when propagated under selective cell culture conditions, transformed cells grew in soft agar and, when injected subcutaneously into the subcapsular region of the nμ/nμ mice, produced neoplastic nodules histopathologically interpreted as fibromas. Karyological examination of cell populations grown out from the tumors confirmed that the tumors were composed of human cells. Examination of electron micrographs of the excised tumor tissue revealed the presence of budding virus particles. Tumor cells isolated from nude mice and morphologicaly transformed cells both contained the feline concornativirus-associated cell membrane antigen. It was concluded that expression of feline oncornavirus-associated cell membrane antigen is associated with an early stage of feline rerovirus-induced carcinogenesis, namely focus formation. In addition, it was shown that FeLV-FeSV can induce morphological transformation in human cells in vitro and that there is a requirement for the cells to passage through soft agar before subsequent tumor formation (neoplastic transformation) can be demonstrated. This work was supported in part by NIH-NCI RO1-259007, NO1-CP-3571 and CPV08 103563, and Air Force F49620-77-C-110.     

RNA metabolism of murine leukemia virus: detection of virus-specific RNA sequences in infected and uninfected cells and identification of virus-specific messenger RNA

Virus-specific RNA sequences were detected in mouse cells infected with murine leukemia virus by hybridization with radioactively labeled DNA complementary to Moloney murine leukemia virus RNA. The DNA was synthesized in vitro using the endogenous virion RNA-dependent DNA polymerase and the DNA product was characterized by size and its ability to protect radioactive viral RNA. Virus-specific RNA sequences were found in two lines of leukemia virus-infected cells (JLS-V11 and SCRF 60A) and also in an uninfected line (JLS-V9). Approximately 0.3% of the cytoplasmic RNA in JLS-VII cells was virus-specific and 0.9% of SCRF 60A cell RNA was virus-specific. JLS-V9 cells contained approximately tenfold less virus-specific RNA than infected JLS-VII cells. Moloney leukemia virus DNA completely annealed to JLS-VII or SCRF 60A RNA but only partial annealing was observed with JLS-V9 RNA. This difference is ascribed to non-homologies between the RNA sequences of Moloney virus and the endogenous virus of JLS-V9 cells.Virus-specific RNA was found to exist in infected cells in three major size classes: 60–70 S RNA, 35 S RNA and 20–30 S RNA. The 60–70 S RNA was apparently primarily at the cell surface, since agents which remove material from the cell surface were effective in removing a majority of the 60–70 S RNA. The 35 S and 20–30 S RNA is relatively unaffected by these procedures. Sub-fractionation of the cytoplasm indicated that approximately 35% of the cytoplasmic virus-specific RNA in infected cells is contained in the membrane-bound material. The membrane-bound virus-specific RNA consists of some residual 60–70 S RNA and 35 S RNA, but very little 20–30 S RNA. Virus-specific messenger RNA was identified in polyribosome gradients of infected cell cytoplasm. Messenger RNA was differentiated from other virus-specific RNAs by the criterion that virus-specific messenger RNA must change in sedimentation rate following polyribosome disaggregation. Two procedures for polyribosome disaggregation were used: treatment with EDTA and in vitro incubation of polyribosomes with puromycin in conditions of high ionic strength. As identified by this criterion, the virus-specific messenger RNA appeared to be mostly 35 S RNA. No function for the 20–30 S was determined.     

Retrovirus capsid protein assembly arrangements

During retrovirus particle assembly and morphogenesis, the retrovirus structural (Gag) proteins organize into two different arrangements: an immature form assembled by precursor Gag (PrGag) proteins; and a mature form, composed of proteins processed from PrGag. Central to both Gag protein arrangements is the capsid (CA) protein, a domain of PrGag, which is cleaved from the precursor to yield a mature Gag protein composed of an N-terminal domain (NTD), a flexible linker region, and a C-terminal domain (CTD). Because Gag interactions have proven difficult to examine in virions, a number of investigations have focused on the analysis of structures assembled in vitro. We have used electron microscope (EM) image reconstruction techniques to examine assembly products formed by two different CA variants of both human immunodeficiency virus type 1 (HIV-1) and the Moloney murine leukemia virus (M-MuLV). Interestingly, two types of hexameric protein arrangements were observed for each virus type. One organizational scheme featured hexamers composed of putative NTD dimer subunits, with sharing of subunits between neighbor hexamers. The second arrangement used apparent NTD monomers to coordinate hexamers, involved no subunit sharing, and employed putative CTD interactions to connect hexamers. Conversion between the two assembly forms may be achieved by making or breaking the proposed symmetric NTD dimer contacts in a process that appears to mimic viral morphogenesis.     

Delimitation of a DNA sequence which confers inducibility by glucocorticoid hormones

A chimeric long terminal repeat-thymidine kinase (LTR-tk) gene has been used to define the sequence requirements for glucocorticoid induction of gene expression. The original LTR-tk gene contains an entire mouse mammary tumor virus (MMTV) LTR preceding the tk gene. This gene can be expressed in a hormone-responsive fashion upon transfection into L tk--cells to produce a chimeric LTR-tk mRNA. Stepwise deletion of nucleotide sequences 5' of the viral RNA initiation site revealed that 202 nucleotides upstream of the viral cap site are sufficient for the hormonal regulation. Deletion of 5' sequences up to 59 nucleotides upstream of the viral cap site abolished RNA initiation in the LTR and hormonal induction.     

Studies on Egg White Protein

The carbohydrate of ovomucoid was analyzed for components I, II, III and IV which were, fractionated by CMC-column chromatography. The total hexose content and the molar ratio of d-mannose to d-galactose (4:1) were identical in each component, but the d-glucosamine and sialic acid contents were found to be higher in components I and II (both are trypsin inhibitors) compared with components III and IV (both are apo-proteins of flavomucoid). The amino acid composition of each component of ovomucoid varied considerably. There were remarkable differences in the amino acid composition between components I and II, both had an antitryptic activity. The N-terminal amino acid of components I and II was alanine and in the case of components III and IV, threonine was found on the N-terminal. The free carboxylic residue of sialic acid was found to be responsible for the negative charge of ovomucoid, and its electrophoretic heterogeneity was reaffirmed by paper electrophoresis. It is evident from the ultracentrifugal analysis that the four components of ovomucoid have a similar molecular size.     

A transient three-plasmid expression system for the production of hepatocytes targeting retroviral vectors

Targeting of retroviral vectors to specific cells was attempted through modifying the surface protein of the murine leukemia viruses （MLVs）, but in many cases the protein function was affected, and it is difficult to achieve the targeted delivery. In this study, we have tried to engineer ecotropic Moloney murine leukemia viruses （MoMLV）-based retroviral vectors to transduce hepatocytes. A chimeric envelope （Env） expression plasmid was constructed containing the hepatitis B virus PreS2 peptide fused to aa ＋1 at the Nterminus of Env. Following simultaneous transfection of pgag-pol, pLEGFP and chimeric env plasmids into 293T cells, helper-free retrovirus stocks with the titer of approximately 104 infectious units/ml were achieved at 48 h post-transfection. These pseudotype vectors showed the normal host range of retrovirus, infecting host NIH 3T3 cells, although the efficiency was reduced compared with that of virions carrying wild-type ecotropic MoMLV envelope. In addition, the resultant pseudotype viruses could transduce human hepatoma cells mediated by polymerized human serum albumin with relatively high titers in comparison with those transductions without polymerized human serum albumin. This approach can be used to target hepatocytes selectively.     

A comparison of the enzymatic responses of the DNA polymerases from four RNA tumor viruses.

DNA polymerases from avian, feline, murine and simian RNA tumor viruses exhibit substantial differences in optimal assay conditions and vary widely in their template-primer preferences. Avian DNA polymerase utilizes both natural and synthetic template-primers efficiently in the presence of Mg⁺⁺ as well as Mn⁺⁺. By contrast, the mammalian viral DNA polymerases are much more responsive to poly(A)·oligo(dT) than to other template-primers, and exhibit up to 20-fold greater activity with Mn⁺⁺ than with Mg⁺⁺. In addition, simian sarcoma virus DNA polymerase shows no detectable response to poly(C)·oligo(dG) over a wide variety of conditions stimulatory to the other viral enzymes.     

Deoxyglucose uptake by mouse astrocytes: Effects of temperature and retrovirus infection

Deoxyglucose uptake by FVB/N mouse astrocytes was studied before and after infecton by tsl retrovirus which causes a neurodegenerative disease in mice similar to HIV-1 encephalopathy in man. The Michaelis-Menten kinetic parameters, Km and Vmax, of 2-deoxy-D-glucose uptake by brain and cerebellar astrocytes were measured following culture at 34°C where tsl retrovirus replicates optimally, and at 37°C. Compared to astrocytes cultured at 37°C, astrocytes cultured at 34°C had increased Km and decreased deoxyglucose uptake despite increased or unchanged Vmax. Following ts1 retrovirus infection, brain astrocyte deoxyglucose uptake doubled [132%] associated with decreased Km but unchanged Vmax, whereas cerebellar astrocyte deoxyglucose uptake doubled [102%] associated with increased Vmax but unchanged Km. These observations of altered deoxyglucose uptake kinetic parameters following retrovirus infection indicate different neurochemical mechanisms for the regional variation in deoxyglucose uptake observed following retrovirus infection of the CNS in vivo.