Receptor-Triggered but Alkylation-Arrested Env of Murine Leukemia Virus Reveals the Transmembrane Subunit in a Prehairpin Conformation

ABSTRACT A central feature of the prevailing model for retrovirus fusion is conversion of the transmembrane (TM) subunit from a prehairpin to a hairpin-like structure. The fusion inhibition of many retroviruses, except murine leukemia virus (MLV), with peptides corresponding to interacting regions in the hairpin supports the model. MLV fusion is controlled by isomerization of the intersubunit disulfide in Env. We show here that TM peptides bind to MLV Env that has been arrested at an intermediate stage of activation by alkylation of the isomerization-active thiol in the surface subunit. This inhibits fusion rescue by dithiothreitol-mediated reduction of the surface protein-TM disulfide.

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Suppression of a Fusion Defect by Second Site Mutations in the Ecotropic Murine Leukemia Virus Surface Protein

Journal of Virology ◽

10.1128/jvi.73.6.5034-5042.1999 ◽

1999 ◽

Vol 73 (6) ◽

pp. 5034-5042 ◽

Cited By ~ 40

Author(s):

Tatiana Zavorotinskaya ◽

Lorraine M. Albritton

Keyword(s):

Host Cell ◽

Cell Fusion ◽

Murine Leukemia Virus ◽

Leukemia Virus ◽

Surface Protein ◽

Host Cells ◽

Virus Surface ◽

Fusion Defect ◽

Murine Leukemia ◽

Cell Cell

ABSTRACT Entry of ecotropic murine leukemia virus initiates when the envelope surface protein recognizes and binds to the virus receptor on host cells. The envelope transmembrane protein then mediates fusion of viral and host cell membranes and penetration into the cytoplasm. Using a genetic selection, we isolated an infectious retrovirus variant containing three changes in the surface protein—histidine 8 to arginine, glutamine 227 to arginine, and aspartate 243 to tyrosine. Single replacement of histidine 8 with arginine (H8R) resulted in almost complete loss of infectivity, even though the mutant envelope proteins were stable and efficiently incorporated into virions. Virions carrying H8R envelope were proficient at binding cells expressing receptor but failed to induce cell-cell fusion of XC cells, indicating that the histidine at position 8 plays an essential role in fusion during penetration of the host cell membrane. Thus, there is at least one domain in SU that is involved in fusion; the fusion functions do not reside exclusively in TM. In contrast, envelope with all three changes induced cell-cell fusion of XC cells and produced virions that were 10,000-fold more infectious than those containing only the H8R substitution, indicating that changes at positions 227 and 243 can suppress a fusion defect caused by loss of histidine 8 function. Moreover, the other two changes acted synergistically, indicating that both compensate for the loss of the same essential function of histidine 8. The ability of these changes to suppress this fusion defect might provide a means for overcoming postbinding defects found in targeted retroviral vectors for use in human gene therapy.

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A Unique Heparin-Binding Domain in the Envelope Protein of the Neuropathogenic PVC-211 Murine Leukemia Virus May Contribute to Its Brain Capillary Endothelial Cell Tropism

Journal of Virology ◽

10.1128/jvi.75.24.12439-12445.2001 ◽

2001 ◽

Vol 75 (24) ◽

pp. 12439-12445 ◽

Cited By ~ 26

Author(s):

Atsushi Jinno-Oue ◽

Miho Oue ◽

Sandra K. Ruscetti

Keyword(s):

Amino Acid ◽

Murine Leukemia Virus ◽

Leukemia Virus ◽

Surface Protein ◽

Binding Domain ◽

Heparin Binding ◽

Brain Capillary ◽

Envelope Surface ◽

Heparin Binding Domain ◽

Murine Leukemia

ABSTRACT Previous studies from our laboratory demonstrated that PVC-211 murine leukemia virus (MuLV), a neuropathogenic variant of Friend MuLV (F-MuLV), had undergone genetic changes which allowed it to efficiently infect rat brain capillary endothelial cells (BCEC) in vivo and in vitro. Two amino acid changes from F-MuLV in the putative receptor binding domain (RBD) of the envelope surface protein of PVC-211 MuLV (Glu-116 to Gly and Glu-129 to Lys) were shown to be sufficient for conferring BCEC tropism on PVC-211 MuLV. Recent examination of the unique RBD of PVC-211 MuLV revealed that the substitution of Lys for Glu at position 129 created a new heparin-binding domain that overlapped a heparin-binding domain common to ecotropic MuLVs. In this study we used heparin-Sepharose columns to demonstrate that PVC-211 MuLV, but not F-MuLV, can bind efficiently to heparin and that one or both of the amino acids in the RBD of PVC-211 MuLV that are associated with BCEC tropism are responsible. We further showed that heparin can enhance or inhibit MuLV infection and that the mode of action is dependent on heparin concentration, sulfation of heparin, and the affinity of the virus for heparin. Our results suggest that the amino acid changes that occurred in the envelope surface protein of PVC-211 MuLV may allow the virus to bind strongly to the surface of BCEC via heparin-like molecules, increasing the probability that the virus will bind to its cell surface receptor and efficiently infect these cells.

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Analysis of the murine leukemia virus R peptide: delineation of the molecular determinants which are important for its fusion inhibition activity.

Journal of Virology ◽

10.1128/jvi.71.11.8490-8496.1997 ◽

1997 ◽

Vol 71 (11) ◽

pp. 8490-8496 ◽

Cited By ~ 51

Author(s):

C Yang ◽

R W Compans

Keyword(s):

Murine Leukemia Virus ◽

Leukemia Virus ◽

Inhibition Activity ◽

Fusion Inhibition ◽

Molecular Determinants ◽

Murine Leukemia

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Recent Studies on a Murine Leukemia Virus Grown in Tissue Culture

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100060544 ◽

1967 ◽

Vol 25 ◽

pp. 106-107

Author(s):

L. Z. de Tkaczevski ◽

E. de Harven ◽

C. Friend

Keyword(s):

Tissue Culture ◽

Solid Tumors ◽

Murine Leukemia Virus ◽

Leukemia Virus ◽

Supernatant Fluid ◽

Virus Particles ◽

Friend Leukemia ◽

Type C ◽

Leukemia Viruses ◽

Murine Leukemia

Despite extensive studies, the correlation between the morphology and pathogenicity of murine leukemia viruses (MLV) has not yet been clarified. The virus particles found in the plasma of leukemic mice belong to 2 distinct groups, 1 or 2% of them being enveloped A particles and the vast majority being of type C. It is generally believed that these 2 types of particles represent different phases in the development of the same virus. Particles of type A have been thought to be an earlier form of type C particles. One of the tissue culture lines established from Friend leukemia solid tumors has provided the material for the present study. The supernatant fluid of the line designated C-1A contains an almost pure population of A particles as illustrated in Figure 1. The ratio is, therefore, the reverse of what is unvariably observed in the plasma of leukemic mice where C particles predominate.

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Immunoferritin Labelling of Murine Leukemia Virus Antigens in thin Sections

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s1431927600002221 ◽

1980 ◽

Vol 38 ◽

pp. 508-509

Author(s):

Ray A. Weigand ◽

Gregory C. Varjabedian

Keyword(s):

Murine Leukemia Virus ◽

Leukemia Virus ◽

Intracellular Localization ◽

Uranyl Acetate ◽

Antibody Technique ◽

Thin Sections ◽

Tumor Virus ◽

Labelling Procedure ◽

Unlabelled Antibody ◽

Murine Leukemia

We previously described the intracellular localization of murine mammary tumor virus (MuMTV) p28 protein in thin sections (1). In that study, MuMTV containing cells fixed in 3% paraformaldehyde plus 0.05% glutaraldehyde were labelled after thin sectioning using ferritin-antiferritin in an unlabelled antibody technique. We now describe the labelling of murine leukemia virus (MuLV) particles using the unlabelled antibody technique coupled to ferritin-Fab antiferritin. Cultures of R-MuLV in NIH/3T3 cells were grown to 90% confluence (2), fixed with 2% paraformaldehyde plus 0.5% glutaraldehyde in 0.1 M cacodylate at pH 7.2, postfixed with buffered 17 OsO4, dehydrated with a series of etha-nols, and embedded in Epon. Thin sections were collected on nickel grids, incubated in 107 H2O2, rinsed in HEPES buffered saline, and subjected to the immunoferritin labelling procedure. The procedure included preincubation in 27 egg albumin, a four hour incubation in goat antisera against purified gp69/71 of MuLV (3) (primary antibody), incubation in F(ab’)2 fragments of rabbit antisera to goat IgG (secondary antibody), incubation in apoferritin, incubation in ferritin-Fab ferritin, and a brief fixation with 2% glutaraldehyde. The sections were stained with uranyl acetate and examined in a Siemens IA electron microscope at an accelerating voltage of 60 KV.

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