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122 results on '"Cohen G."'

1. Mechanism of neutralization of herpes simplex virus by antibodies directed at the fusion domain of glycoprotein B

Author

Cairns, T. M., Fontana, J., Huang, Z.-Y., Whitbeck, J. C., Atanasiu, D., Rao, S., Shelly, S. S., Lou, H., Ponce de Leon, M., Steven, A. C., Eisenberg, R. J., Cohen, G. H., Hutt-Fletcher, L., and Hutt-Fletcher, L

Subjects
Models, Molecular, medicine.drug_class, Protein Conformation, Immunology, Biology, Monoclonal antibody, Antibodies, Viral, Microbiology, Epitope, Cell Line, 03 medical and health sciences, Epitopes, Immunoglobulin Fab Fragments, Viral envelope, Viral entry, Neutralization Tests, Virology, Chlorocebus aethiops, medicine, Animals, Humans, Simplexvirus, Protein Interaction Domains and Motifs, Vero Cells, 030304 developmental biology, 0303 health sciences, 030306 microbiology, Structure and Assembly, Antibodies, Monoclonal, Fusion protein, Herpesvirus glycoprotein B, Antibodies, Neutralizing, 3. Good health, Epitope mapping, Ectodomain, Insect Science, Immunoglobulin G, Liposomes, Mutation, Viral Fusion Proteins, Epitope Mapping, Protein Binding
Abstract

Glycoprotein B (gB), the fusogen of herpes simplex virus (HSV), is a class III fusion protein with a trimeric ectodomain of known structure for the postfusion state. Seen by negative-staining electron microscopy, it presents as a rod with three lobes (base, middle, and crown). gB has four functional regions (FR), defined by the physical location of epitopes recognized by anti-gB neutralizing monoclonal antibodies (MAbs). Located in the base, FR1 contains two internal fusion loops (FLs) and is the site of gB-lipid interaction (the fusion domain). Many of the MAbs to FR1 are neutralizing, block cell-cell fusion, and prevent the association of gB with lipid, suggesting that these MAbs affect FL function. Here we characterize FR1 epitopes by using electron microscopy to visualize purified Fab-gB ectodomain complexes, thus confirming the locations of several epitopes and localizing those of MAbs DL16 and SS63. We also generated MAb-resistant viruses in order to localize the SS55 epitope precisely. Because none of the epitopes of our anti-FR1 MAbs mapped to the FLs, we hyperimmunized rabbits with FL1 or FL2 peptides to generate polyclonal antibodies (PAbs). While the anti-FL1 PAb failed to bind gB, the anti-FL2 PAb had neutralizing activity, implying that the FLs become exposed during virus entry. Unexpectedly, the anti-FL2 PAb (and the anti-FR1 MAbs) bound to liposome-associated gB, suggesting that their epitopes are accessible even when the FLs engage lipid. These studies provide possible mechanisms of action for HSV neutralization and insight into how gB FR1 contributes to viral fusion. IMPORTANCE For herpesviruses, such as HSV, entry into a target cell involves transfer of the capsid-encased genome of the virus to the target cell after fusion of the lipid envelope of the virus with a lipid membrane of the host. Virus-encoded glycoproteins in the envelope are responsible for fusion. Antibodies to these glycoproteins are important biological tools, providing a way of examining how fusion works. Here we used electron microscopy and other techniques to study a panel of anti-gB antibodies. Some, with virus-neutralizing activity, impair gB-lipid association. We also generated a peptide antibody against one of the gB fusion loops; its properties provide insight into the way the fusion loops function as gB transits from its prefusion form to an active fusogen.

Published
2013

2. Glycoprotein D of herpes simplex virus (HSV) binds directly to HVEM, a member of the tumor necrosis factor receptor superfamily and a mediator of HSV entry

Author

Whitbeck, J C, primary, Peng, C, additional, Lou, H, additional, Xu, R, additional, Willis, S H, additional, Ponce de Leon, M, additional, Peng, T, additional, Nicola, A V, additional, Montgomery, R I, additional, Warner, M S, additional, Soulika, A M, additional, Spruce, L A, additional, Moore, W T, additional, Lambris, J D, additional, Spear, P G, additional, Cohen, G H, additional, and Eisenberg, R J, additional

Published
1997
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49. Boosting of vaginal HSV-2-specific B and T cell responses by intravaginal therapeutic immunization results in diminished recurrent HSV-2 disease.

Author

Bourne N, Keith CA, Miller AL, Pyles RB, Cohen G, and Milligan GN

Subjects
Animals, Female, Guinea Pigs, Humans, Adjuvants, Immunologic, Antibodies, Viral, Glycoproteins metabolism, Herpesvirus 1, Cercopithecine, Immunization, T-Lymphocytes, Vagina immunology, Vagina virology, Herpes Genitalis prevention & control, Herpes Simplex metabolism, Herpesvirus 2, Human physiology
Abstract

Boosting herpes simplex virus (HSV)-specific immunity in the genital tissues of HSV-positive individuals to increase control of HSV-2 recurrent disease and virus shedding is an important goal of therapeutic immunization and would impact HSV-2 transmission. Experimental therapeutic HSV-2 vaccines delivered by a parenteral route have resulted in decreased recurrent disease in experimental animals. We used a guinea pig model of HSV-2 infection to test if HSV-specific antibody and cell-mediated responses in the vaginal mucosa would be more effectively increased by intravaginal (Ivag) therapeutic immunization compared to parenteral immunization. Therapeutic immunization with HSV glycoproteins and CpG adjuvant increased glycoprotein-specific IgG titers in vaginal secretions and serum to comparable levels in Ivag- and intramuscular (IM)-immunized animals. However, the mean numbers of HSV glycoprotein-specific antibody secreting cells (ASCs) and IFN-γ SCs were greater in Ivag-immunized animals demonstrating superior boosting of immunity in the vaginal mucosa compared to parenteral immunization. Therapeutic Ivag immunization also resulted in a significant decrease in the cumulative mean lesion days compared to IM immunization. There was no difference in the incidence or magnitude of HSV-2 shedding in either therapeutic immunization group compared to control-treated animals. Collectively, these data demonstrated that Ivag therapeutic immunization was superior compared to parenteral immunization to boost HSV-2 antigen-specific ASC and IFN-γ SC responses in the vagina and control recurrent HSV-2 disease. These results suggest that novel antigen delivery methods providing controlled release of optimized antigen/adjuvant combinations in the vaginal mucosa would be an effective approach for therapeutic HSV vaccines. IMPORTANCE HSV-2 replicates in skin cells before it infects sensory nerve cells where it establishes a lifelong but mostly silent infection. HSV-2 occasionally reactivates, producing new virus which is released back at the skin surface and may be transmitted to new individuals. Some HSV-specific immune cells reside at the skin site of the HSV-2 infection that can quickly activate and clear new virus. Immunizing people already infected with HSV-2 to boost their skin-resident immune cells and rapidly control the new HSV-2 infection is logical, but we do not know the best way to administer the vaccine to achieve this goal. In this study, a therapeutic vaccine given intravaginally resulted in significantly better protection against HSV-2 disease than immunization with the same vaccine by a conventional route. Immunization by the intravaginal route resulted in greater stimulation of vaginal-resident, virus-specific cells that produced antibody and produced immune molecules to rapidly clear virus., Competing Interests: The authors declare no conflict of interest

Published
2023
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50. Characterization of chimpanzee/human monoclonal antibodies to vaccinia virus A33 glycoprotein and its variola virus homolog in vitro and in a vaccinia virus mouse protection model.

Author

Chen Z, Earl P, Americo J, Damon I, Smith SK, Yu F, Sebrell A, Emerson S, Cohen G, Eisenberg RJ, Gorshkova I, Schuck P, Satterfield W, Moss B, and Purcell R

Subjects
Amino Acid Sequence, Animals, Antibodies, Monoclonal chemistry, Antibodies, Monoclonal isolation & purification, Antibodies, Viral chemistry, Antibodies, Viral isolation & purification, Body Weight, Disease Models, Animal, Epitope Mapping, Humans, Immunoglobulin Constant Regions genetics, Immunoglobulin Fab Fragments genetics, Immunoglobulin Fab Fragments isolation & purification, Membrane Glycoproteins immunology, Mice, Molecular Sequence Data, Neutralization Tests, Pan troglodytes, Vaccinia immunology, Viral Envelope Proteins immunology, Antibodies, Monoclonal immunology, Antibodies, Monoclonal therapeutic use, Antibodies, Viral immunology, Antibodies, Viral therapeutic use, Vaccinia prevention & control, Vaccinia virus immunology, Variola virus immunology
Abstract

Three distinct chimpanzee Fabs against the A33 envelope glycoprotein of vaccinia virus were isolated and converted into complete monoclonal antibodies (MAbs) with human gamma 1 heavy-chain constant regions. The three MAbs (6C, 12C, and 12F) displayed high binding affinities to A33 (K(d) of 0.14 nM to 20 nM) and may recognize the same epitope, which was determined to be conformational and located within amino acid residues 99 to 185 at the C terminus of A33. One or more of the MAbs were shown to reduce the spread of vaccinia virus as well as variola virus (the causative agent of smallpox) in vitro and to more effectively protect mice when administered before or 2 days after intranasal challenge with virulent vaccinia virus than a previously isolated mouse anti-A33 MAb (1G10) or vaccinia virus immunoglobulin. The protective efficacy afforded by anti-A33 MAb was comparable to that of a previously isolated chimpanzee/human anti-B5 MAb. The combination of anti-A33 MAb and anti-B5 MAb did not synergize the protective efficacy. These chimpanzee/human anti-A33 MAbs may be useful in the prevention and treatment of vaccinia virus-induced complications of vaccination against smallpox and may also be effective in the immunoprophylaxis and immunotherapy of smallpox and other orthopoxvirus diseases.

Published
2007
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