A monoclonal antibody to glycoprotein gp85 inhibits fusion but not attachment of Epstein-Barr virus.

Epstein-Barr virus (EBV) codes for at least three glycoproteins, gp350, gp220, and gp85. The two largest glycoproteins are thought to be involved in the attachment of the virus to its receptor on B cells, but despite the fact that gp85 induces neutralizing antibody, no function has been attributed to it. As an indirect approach to understanding the role of gp85 in the initiation of infection, we determined the point at which a neutralizing, monoclonal antibody that reacted with the glycoprotein interfered with virus replication. The antibody had no effect on virus binding. To examine the effect of the antibody on later stages of infection, the fusion assay of Hoekstra and colleagues (D. Hoekstra, T. de Boer, K. Klappe, and J. Wilshaut, Biochemistry 23:5675-5681, 1984) was adapted for use with EBV. The virus was labeled with a fluorescent amphiphile that was self-quenched at the high concentration obtained in the virus membrane. When the virus and cell membrane fused, there was a measurable relief of self-quenching that could be monitored kinetically. Labeling had no effect on virus binding or infectivity. The assay could be used to monitor virus fusion with lymphoblastoid lines or normal B cells, and its validity was confirmed by the use of fixed cells and the Molt 4 cell line, which binds but does not internalize the virus. The monoclonal antibody to gp85 that neutralized virus infectivity, but not a second nonneutralizing antibody to the same molecule, inhibited the relief of self-quenching in a dose-dependent manner. This finding suggests that gp85 may play an active role in the fusion of EBV with B-cell membranes.     

Mice immunized with measles virus develop antibodies to a cell surface receptor for binding virus.

Mice were immunized with measles virus to determine whether an auto-anti-idiotypic antireceptor response could be generated as a probe for measles virus receptors. Mice initially responded to viral antigens (days 11 to 18) and subsequently developed antibodies to a putative measles virus receptor (peak at day 30 to 35) by three criteria: the sera (1) agglutinated erythrocytes which virus agglutinates, (2) reacted with Vero cells, and (3) inhibited virus attachment to Vero cells. Additionally, select sera inhibited virus infection of Vero cells. The cell-reactive activity was identified as immunoglobulin G antibody and was neutralized by sera reacting with virus (idiotype). The application of this anti-idiotypic antibody to identify measles virus-binding sites on Vero cells was revealed by the ability of sera to immunoprecipitate 20- and 30.5-kilodalton proteins from metabolically labeled ([35S]methionine) Vero cells.     

Induction of antigen-specific antibody response in human peripheral blood lymphocytes in vitro by a dog kidney cell vaccine against rabies virus (DKCV)

In the present report an in vitro method for obtaining a secondary human antibody response to a dog kidney cell vaccine against rabies virus (DKCV) is described. Cultures of peripheral blood mononuclear cells from normal rabies-immune and nonimmune donors were stimulated in vitro by DKCV. The production of virus-specific antibody in supernatant fluids was monitored by ELISA. Antibody was produced by lymphocytes from rabies-immune individuals, whereas those of nonimmune subjects consistently failed to produce anti-rabies antibodies after in vitro stimulation with DKCV. The generation of the anti-rabies virus antibody response of lymphocytes stimulated with DKCV was shown to be an antigen-dependent, as well as an antigen-specific process. Optimal antigen-specific responses were observed at relatively low concentrations of antigen (10(-1) to 10(-2) micrograms/culture). At increasing concentrations of antigen in culture (greater than 1 microgram/culture), the anti-rabies virus response was suppressed. Antibody produced upon stimulation was capable of neutralizing rabies virus. The response to rabies virus requires T cell help because lymphocytes depleted of SE rosetting cells did not respond to an antigenic stimulus. Studies in which the same individuals were followed over time showed a sequential development of circulating B cell subsets. The system may provide a model for the study of human B cell differentiation in vivo and in vitro and may be valuable for testing the potency of rabies vaccines in vitro.     

A monoclonal antibody that precipitates the glycoprotein receptor for epidermal growth factor is directed against the human blood group H type 1 antigen

Monoclonal antibody 101 produced by a hybridoma obtained by fusion with NS-1 myeloma cells of spleen cells from a mouse immunized with the human epidermoid carcinoma cell line, A431, specifically precipitates epidermal growth factor receptor, a glycoprotein of 170,000 Mr solubilized from A431 cell membranes (Richert, N. D., Willingham, M. C., and Pastan, I. H. (1983) J. Biol. Chem. 258, 8902-8907). The antibody also binds to neutral glycolipids extracted from A431 cells as evidenced by solid phase radioimmunoassay and by autoradiography. Binding of antibody to its target is inhibited by lacto-N-fucopentaose I but not by 2'-fucosyllactose or related oligosaccharides. Thus, antibody 101 is probably directed against the human blood group H type 1 sugar sequence Fuc alpha 1-2Gal beta 1-3GlcNAc . . .. This sequence presumably occurs on the epidermal growth factor receptor. Monoclonal antibody 102 produced by another hybridoma from the same fusion has the same cell specificity as antibody 101 and also binds to neutral glycolipids. However, binding of antibody 102 to its target is inhibited by 2'-fucosyllactose and not by lacto-N-fucopentaose I or related oligosaccharides. Thus, antibody 102 is probably directed against the human blood group H type 2 sugar sequence Fuc alpha 1-2Gal beta 1-4GlcNAc . . .. Antibody 102 does not precipitate solubilized epidermal growth factor receptor. Both antibodies bind to neutral glycolipids extracted from human erythrocytes belonging to blood group O but not to neutral glycolipids extracted from human erythrocytes with the "Bombay" phenotype.     

Characterization of a human antibody fragment Fab and its calcium phosphate nanoparticles that inhibit rabies virus infection with vaccine

Recombinant antibody phage display technology has been used to mimic many aspects of the processes that govern the generation and selection of high-affinity natural human antibodies in the human immune system, especially for infectious disease prophylaxis. An anti-rabies virus immunized phage-display Fab library was constructed from peripheral blood lymphocytes from vaccinated volunteers. The immunized antibody library, with a diversity of 6.7×10(8), was used to select and produce antibodies that bound to rabies virus glycoprotein. After five rounds of immobilized fixed rabies virion panning, four unique DNA sequences were found in the higher binding clones, and only one, Fab094, showed neutralization activity. Fab094 components were analyzed by ELISA, immunoprecipitation and immunofluorescent staining. ELISA and immunofluorescence showed that Fab094 bound specifically to rabies virions. Immunoprecipitation and mass spectrometry showed that Fab094 reacted with rabies virus glycoprotein. To improve the penetration power of Fab094 antibodies, we developed Fab094 calcium phosphate nanoparticles (Fab094-CPNPs) and tested their efficacy. The rapid fluorescent focus inhibition test indicated that the neutralizing antibody titers of Fab094 and Fab094-CPNPs were reached at 200.17 IU/Kg and 246.12 IU/Kg, respectively. These findings were confirmed in vivo in a Kunming mouse challenge model. Our results demonstrate that human Fab094 and Fab094-CPNPs are efficacious candidate drugs to replace rabies immunoglobulin in post-exposure prophylaxis (PEP).     

The influence of the type of immunosorbent on rabies antibody EIA; advantages of purified glycoprotein over whole virus

Two types of in vitro assay (enzyme immunoassay and sero-neutralization test) for the titration of rabies antibodies were used to assay sera from mice and humans immunized with cell culture vaccines or neural tissue vaccines. Enzyme immunoassays (EIA) were performed in plates sensitized with whole virus, purified glycoprotein or purified nucleocapsid. Neutralizing antibody titres were determined by the rapid fluorescent focus inhibition test (REFIT) and by an in vitro seroneutralization test including a rapid enzyme immunotitration of intracellular antigens (REITICA). The results obtained with sera of immunized mice and humans showed that (1) cell culture vaccines mainly induced the synthesis of antiglycoprotein neutralizing antibodies; and (2) neural tissue vaccines induced a high synthesis of antinucleocapsid non-neutralizing antibodies and a more or less important synthesis of antiglycoprotein antibodies depending on the origin of the tissue used for their preparation. Consequently, it was emphasized that when using EIA, the antibody titration must be run in glycoprotein-coated plates rather than in whole virus-coated plates to appreciate correctly the immunizing potency of a rabies vaccine, especially neural tissue vaccine.     

Recombinant rabies virus expressing IL-15 enhances immunogenicity through promoting the activation of dendritic cells in mice

Rabies remains a public health threat that kills approximately 59,000 people worldwide each year,most of which are from the developing countries of Africa and Asia where dog rabies are endemic.Therefore, developing an affordable and efficacious vaccine is crucial for rabies control in these countries. Interleukin(IL)-15, an immunoregulatory cytokine, is a pluripotent molecule with therapeutic potential, which targets many cell types and links the innate and adaptive immune system. In this study, IL-15 gene was cloned and inserted into the genome of a recombinant rabies virus(RABV) strain LBNSE(designated as LBNSE-IL15), and the effect of over-expression of IL-15 on the immunogenicity of RABV was investigated. It was found that mice vaccinated with LBNSEIL15 could induce significantly higher level of virus-neutralizing antibody(VNA) than those immunized with LBNSE, resulting in the higher protection after challenge. Further investigation was performed to find out the possible role of IL-15 plays in the process of antibody induction, and it was found that LBNSE-IL15 could enhance the maturation of dendritic cells(DCs) in immunized mice. Furthermore, the mice immunized with LBNSE-IL15 could promote the T_(FH) cells differentiation and the generation of germinal center B cells and plasma cells. Together, these data indicated that IL-15 could be a potential adjuvant in enhancing the immunogenicity of RABV, contributing to the development of more-efficacious rabies vaccines.     

Production and immunological characterization of a monoclonal antibody to Trichophyton quinckeanum: interaction with phosphorylcholine-bearing components

A monoclonal antibody (Tq-1) that interacts with the phosphorylcholine (PC)-bearing antigens of Trichophyton quinckeanum was produced by fusion of myeloma cells (JKAg-8) with spleen cells of BALB/c mice immunized with an alum-precipitated fraction of T. quinckeanum cytoplasmic antigen. It was characterized as an IgM class antibody by immunodiffusion using anti-Ig heavy chain specific reagents, ELISA using immunoglobulin-specific peroxidase-conjugated antibodies, and by gel filtration chromatography; it showed high affinity for Staphylococcus aureus protein-A. Interaction of Tq-1 with PC-like antigens of T. quinckeanum was demonstrated by inhibition studies using ELISA, immunoblotting, immunoprecipitation and immuno electron microscopy techniques. The binding activity of Tq-1 antibody with a range of dermatophyte proteins was completely inhibited by prior incubation with PC hapten. Moreover, dermatophyte antigens reacting with the monoclonal antibody reacted strongly with sera from chronically infected mice. Dermatophyte antigens derived from both young (24 h) and old (20 d) cultures reacted with Tq-1 and this binding was inhibited by PC, suggesting that Tq-1 target antigen PC appears at an early stage during fungal growth and remains throughout its life.     

Identification of a neutralization epitope on the envelope gp46 antigen of human T cell leukemia virus type I and induction of neutralizing antibody by peptide immunization.

We have generated a number of mAb against various epitopes on the external envelope glycoprotein, gp46, of human T cell leukemia virus type I (HTLV-I) from a WKA rat immunized with a recombinant vaccinia virus containing the HTLV-I env gene. Among these mAb, one group of mAb, represented by a mAb designated LAT-27, could neutralize the infectivity of HTLV-I, as determined by a HTLV-I-mediated cell fusion inhibition assay. LAT-27 also interfered with transformation of normal T lymphocytes by HTLV-I in vitro. An antibody-binding assay using overlapping synthetic oligopeptides showed that LAT-27 bound specifically to 10-mer peptides that contained the gp46 amino acid sequence 191-196 (Leu-Pro-His-Ser-Asn-Leu). Antibodies from HTLV-I+ humans interfered with the binding of LAT-27 to gp46 Ag. Sera from rabbits immunized with a LAT-27-reactive peptide, 190-199, conjugated with OVA, but not sera from OVA-immunized rabbits, reacted with gp46 Ag and neutralized infectivity of HTLV-I. These results show that the HTLV-I neutralization epitope recognized by LAT-27 locates to the gp46 amino acids 191-196, and that immunization with a peptide containing the LAT-27 epitope can elicit an HTLV-I neutralizing antibody response.     

Monoclonal antibodies NORM-1 and NORM-2 induce more normal behavior of tumor cells in vitro and reduce tumor growth in vivo

In this study, large numbers of hybridomas (produced by syngeneic immunization with B16 mouse melanoma and fusion with NS-1 myeloma cells) were screened for the production of antibodies that affected morphology and growth of animal and human tumor cells in vitro. Two such antibodies, NORM-1 and NORM-2 (both IgG2a), inhibited the growth of B16 melanoma cells in soft agar and increased the serum requirements of tumor cells in tissue culture. Antibody NORM-2 also inhibited the growth of SV40-transformed 3T3 cells in agar and caused them to deposit more fibronectin into extracellular matrix. These antibodies thus seem to induce a more normal behavior of tumor cells in vitro. In vivo both antibodies reduced the number of growing lung tumors of B16 melanoma in C57BL/6 mice by 70%-90% when injected 3 days after the tumor cells. By immunoprecipitation of 35S-methionine-labeled cell extracts, NORM-2 antibody recognized a 59 kd protein in B16 mouse and in A375 human melanoma cells but not in 3T3 fibroblasts.     

Localization and synthesis of an antigenic determinant of herpes simplex virus glycoprotein D that stimulates the production of neutralizing antibody.

An antigenic determinant capable of inducing type-common herpes simplex virus (HSV)-neutralizing antibodies has been located on glycoprotein D (gD) of HSV type 1 (HSV-1). A peptide of 16 amino acids corresponding to residues 8 to 23 of the mature glycoprotein (residues 33 to 48 of the predicted gD-1 sequence) was synthesized. This peptide reacted with an anti-gD monoclonal antibody (group VII) previously shown to neutralize the infectivity of HSV-1 and HSV-2. The peptide was also recognized by polyclonal antibodies prepared against purified gD-1 but was less reactive with anti-gD-2 sera. Sera from animals immunized with the synthetic peptide reacted with native gD and neutralized both HSV-1 and HSV-2.     

Effect of a monoclonal anti-large granular lymphocyte antibody on the human NK activity

A monoclonal hybridoma antibody of IgGIa subclass was produced by fusing NS-1 myeloma cells with spleen cells of a mouse immunized with human LGL cells. This hybridoma antibody, termed NK-8, was reactive by indirect immunofluorescence with 33% of peripheral blood LGL cells and 70% of LGL forming conjugates with K-562 cells. Monocytes, granulocytes, and other lymphocytes were nonreactive. In iodinated protein A binding assays NK-8 was nonreactive with all kinds of leukemia and lymphoma lines tested and showed activity only against LGL cells. NK-8 inhibited the LGL-mediated cytotoxicity against K-562 cells by 50 to 60% without complement and inhibited the K-562 induced interferon production from the LGL population. However, the spontaneous cytotoxicity against human skin fibroblasts was augmented if the effector cells were pretreated with NK-8.     

Monoclonal antibodies against baboon endogenous virus and against host cell antigens.

Monoclonal antibodies were produced by murine hybridomas after immunization with semipurified baboon endogenous virus. In a solid-phase radioimmunoassay, two antibodies (F12-9 and B9-18) reacted with viral antigen only. The antibodies A6-8 and C9-12 also reacted with virus-producing cells but not with control cells, whereas antibodies E4-6 and D12-2 bound to virus-free cells as well. The cytofluorometry technique confirmed these results and showed a competition between antibodies A6-8 and C9-12 for binding to virus-producing cells as well as a competition between antibodies D12-2 and E4-6 for binding to virus-free human cells. An immune precipitation assay with disrupted virions indicated that antibodies A6-8, B9-18, and C9-12 were directed against the gp70 glycoprotein, and that antibody F12-9 reacted with a viral antigen with a molecular weight of 18,000. The syncytia induced in RSa cells by baboon molecular weight of 18,000. The syncytia induced in RSa cells by baboon endogenous virus could be inhibited either when antibody A6-8 or C9-12 was combined to the virus or when the RSa cells were treated with the anticellular antibody D12-2 or E4-6. These two effects were not observed with Mason-Pfizer virus. Thus, of three antibodies with specificities for viral gp70, two (A6-8 and C9-12) were directed at viral sites responsible for syncytium formation. Another antiviral antibody (F12-9) reacted with a protein of unknown function with a molecular weight of 18,000. The two anticellular antibodies were directed at similar or neighboring epitopes, which may be situated within the receptor to the virus.     

Enhancement of antibody production against rabies virus by uridine 5′-triphosphate in mice

Extracellular nucleotides such as adenosine 5′-triphospate (ATP) and uridine 5′-triphosphate (UTP) interact with P2 purinergic receptors on the surface of phagocytic cells and induce various physiological reactions. In this study, the production of antibody in mice immunized with an inactivated rabies vaccine containing these nucleotides was investigated. Injection of inactivated rabies vaccine with UTP, but not with ATP, induced significantly higher serum antibody production in mice. The enhancement of antibody production by UTP was inhibited by an anti-P2Y4 receptor antibody. In an air pouch experiment, UTP treatment increased the number of monocytes and macrophages infiltrating the pouch and up-regulated the gene expression of IL-4 and IL-13 in the regional lymph nodes. These results suggested that UTP admixed with rabies vaccine activates Th2 cells and induces a humoral immune response. Furthermore, the survival rate of mice immunized with a rabies vaccine admixed with UTP before rabies virus challenge was slightly higher than that of control mice. In conclusion, UTP can act as a vaccine adjuvant to enhance antibody production against the rabies virus in mice.     

Identification of a GP64 subdomain involved in receptor binding by budded virions of the baculovirus Autographica californica multicapsid nucleopolyhedrovirus

Enveloped virus entry into host cells is typically initiated by an interaction between a viral envelope glycoprotein and a host cell receptor. For budded virions of the baculovirus Autographa californica multicapsid nucleopolyhedrovirus, the envelope glycoprotein GP64 is involved in host cell receptor binding, and GP64 is sufficient to mediate low-pH-triggered membrane fusion. To better define the role of GP64 in receptor binding, we generated and characterized a panel of antisera against subdomains of GP64. Eight subdomain-specific antisera were generated, and their reactivities with GP64 proteins and neutralization of virus infectivity and binding were examined. Antibodies directed against the N-terminal region of GP64 (amino acids 21 to 159) showed strong neutralization of infectivity and effectively inhibited binding of (35)S-labeled budded virions to Sf9 cells. In addition, we generated virions displaying truncated GP64 constructs. A construct displaying the N-terminal 274 amino acids (residues 21 to 294) of the ectodomain was sufficient to mediate virion binding. Additional studies of antisera directed against small subdomains revealed that an antiserum against a 40-amino-acid region (residues 121 to 160) neutralized virus infectivity. Site-directed mutagenesis was subsequently used for functional analysis of that region. Recombinant viruses expressing GP64 proteins with single amino acid substitutions within amino acids 120 to 124 and 142 to 148 replicated to high titers, suggesting that those amino acids were not critical for receptor binding or other important GP64 functions. In contrast, GP64 proteins with single amino acid substitutions of residues 153 and 156 were unable to substitute for wild-type GP64 and did not rescue a gp64 knockout virus. Further analysis showed that these substitutions substantially reduced binding of recombinant virus to Sf9 cells. Thus, the amino acid region from positions 21 to 159 was identified as a putative receptor binding domain, and amino acids 153 and 156 appear to be important for receptor binding.     

Isolation and characterization of human T cell lines and clones reactive to rabies virus: antigen specificity and production of interferon-gamma

By using a preparation of inactivated rabies virus, the blood mononuclear cells from five rabies vaccine recipients were stimulated in vitro in the presence of interleukin 2. T cell lines that displayed significant proliferative responses to whole rabies virus and to preparations of rabies glycoprotein and nucleocapsid were obtained from all the individuals. Other antigens, such as diphtheria and tetanus toxoids, influenza A virus, hepatitis B surface antigen, and serum albumin, failed to induce the proliferation of the T cell lines. One of these rabies-specific T cell lines was found to proliferate in response to rabies antigens only when the antigen-presenting cells expressed homologous HLA-DR antigens. The use of mouse monoclonal antibodies specific for human T cell surface markers revealed that most of the cells of these rabies-reactive lines were of the helper/inducer class of T lymphocytes. Stimulation of the T cell lines with the rabies antigens induced the production of interferon-gamma, a lymphokine with potent antiviral activity. Several T cell clones were isolated from two of these cell lines, and most of them appeared to be specific for the antigenic components of the viral nucleocapsid. Two T cell clones specific for the rabies glycoprotein were also isolated from one of these lymphocyte interleukin 2-dependent lines. Further in vitro studies with rabies-specific T cells could help us to understand in more depth the role of regulatory T cells in the human immune response to rabies virus.     

Intracerebral vaccination suppresses the spread of rabies virus in the mouse brain

To investigate the efficacy of intracerebral (IC) immunization in preventing viral spread in the brain, we immunized mice with inactivated rabies virus via the subcutaneous (SC) or IC route, followed by administration of a lethal dose of rabies virus (challenge virus standard strain), directly into the brains of immunized mice. Progressive paralytic neurological signs were observed in control and 75% of SC immunized mice, whereas only 20% of IC immunized mice exhibited symptoms. Neutralizing antibody titers in blood plasma were significantly elevated in SC and IC immunized mice, with the highest levels seen in IC immunized mice. Analysis of whole brain lysates revealed a strong induction of immunoglobulin in the brains of IC immunized mice that had virus neutralizing activity. Histopathological examination of brain tissue revealed mild encephalitis and disseminated viral antigen in control and SC immunized mice, but rare in IC immunized mice. These results suggest that IC immunization induces a preventive humoral immune response against intracerebrally inoculated rabies virus. Induction of neutralizing antibody in cerebrospinal fluid represents a putative therapeutic measure for the treatment of rabid animals and humans.     

Establishment and characterization of monoclonal antibody against androgen receptor

Hybrid cell lines were prepared by the fusion of BALB/c myeloma NS-1 cells with the lymphocytes of BALB/c mice that were immunized with partially purified androgen receptor (AR) from human prostates. Nine clones of the hybrid progeny were determined for the production of antibodies against AR by immunoprecipitation assay. One of the clones, referred to as "5F4", was chosen for analysis of the detailed specificity. The clone "5F4" secreted IgM class antibodies against AR. Competition study demonstrated that "5F4" antibody inhibited androgen binding of AR, suggesting that the antibody identifies androgen binding site of AR. Immunoblotting analysis showed that the antibody identified the ARs as two proteins, 95 kD and 41 kD proteins, on a sodium dodecyl sulfate polyacrylamide gel. It is suspected that a 95 kD protein should be a monomeric AR and a 41 kD protein is a proteolytic fragment of AR. Immunohistochemical analysis demonstrated that androgen-dependent tissues--human prostatic hypertrophy tissues, an AR abundant prostatic cancer tissue and fibroblast cells from human genital skin--were stained intensely with "5F4" monoclonal antibody, while androgen-independent tissues--fibroblast cells from lymph nodes, an AR deficient prostatic cancer tissue and human prostatic cancer cell line, PC-3--showed no staining. These results also support the specificity of the antibody for AR.     

人源抗狂犬病毒中和性全抗体在昆虫细胞中的表达

将来源于噬菌体抗体库的人源狂犬病毒糖蛋白特异性单抗G10Fab的基因 ,克隆入杆状病毒人源IgG抗体表达载体 ,通过转染将重组质粒导入昆虫细胞 ,以全抗体的形式表达了一株人源抗狂犬病毒基因工程抗体G10。用亲和层析的方法纯化了表达产物 ,经与一株鼠源糖蛋白特异性单抗竞争证实 ,该单克隆抗体特异性识别狂犬病毒糖蛋白 ,亲和力约为 10 -9M。体外中和实验证明 ,该单抗对狂犬病毒aG株具有体外中和活性     

Evidence that Equine rhinitis A virus VP1 is a target of neutralizing antibodies and participates directly in receptor binding

Equine rhinitis A virus (ERAV) is a respiratory pathogen of horses and is classified as an Aphthovirus, the only non-Foot-and-mouth disease virus (FMDV) member of this genus. In FMDV, virion protein 1 (VP1) is a major target of protective antibodies and is responsible for viral attachment to permissive cells via an RGD motif located in a distal surface loop. Although both viruses share considerable sequence identity, ERAV VP1 does not contain an RGD motif. To investigate antibody and receptor-binding properties of ERAV VP1, we have expressed full-length ERAV VP1 in Escherichia coli as a glutathione S-transferase (GST) fusion protein (GST-VP1). GST-VP1 reacted specifically with antibodies present in serum from a rabbit immunized with purified ERAV virions and also in convalescent-phase sera from horses experimentally infected with ERAV. An antiserum raised in rabbits to GST-VP1 reacted strongly with viral VP1 and effectively neutralized ERAV infection in vitro. Using a flow cytometry-based binding assay, we found that GST-VP1, but not other GST fusion proteins, bound to cell surface receptors. This binding was reduced in a dose-dependent manner by the addition of purified ERAV virions, demonstrating the specificity of this interaction. A separate cell-binding assay also implicated GST-VP1 in receptor binding. Importantly, anti-GST-VP1 antibodies inhibited the binding of ERAV virions to Vero cells, suggesting that these antibodies exert their neutralizing effect by blocking viral attachment. Thus ERAV VP1, like its counterpart in FMDV, appears to be both a target of protective antibodies and involved directly in receptor binding. This study reveals the potential of recombinant VP1 molecules to serve as vaccines and diagnostic reagents for the control of ERAV infections.