The effect of sCD4 on the binding and accessibility of HIV-1 gp41 MPER epitopes to human monoclonal antibodies

Two human monoclonal anti-HIV-1 antibodies, 2F5 and 4E10, were utilized to investigate the accessibility and conservation of gp41 MPER epitopes on five different clades of HIV-1 in the absence and presence of sCD4. The binding of human monoclonal antibodies (mAbs) to HIV-1 was dependent upon the virus clade. Soluble CD4 significantly increased the accessibility of gp41 MPER-binding epitopes on several isolates that previously showed little or no binding with 2F5 and 4E10 mAbs as determined by a modified ELISA-based virus capture assay and surface plasmon resonance. Studies on the relationship between virus binding and neutralization in a TZM-bl pseudovirus assay indicated that in most cases, mAbs that exhibited neutralization also bound the virus. However, neither binding per se nor the total envelope content per virion was a predictor of neutralization. The hidden or conformational gp41 MPER epitopes unmasked by sCD4 may provide additional targets for vaccine design.     

A virus binding assay for studying the antigenic landscape on intact, native, primary human immunodeficiency virus-type 1

This protocol describes a simple assay that can be used to study the nature of exposure of antigenic epitopes and antigenic relatedness of different intact, native HIV-1 strains. The assay is based on the principle that mAbs coated on microtiter wells bind to epitopes on the surface of intact, native virions. The bound virion is then lysed to release p24, which is then quantitated (pg/ml) to give a measure of the amount of virion bound to the mAb. High p24 levels released after lysis correlate with high level capture of virions by mAbs, and as such, reflect good exposure of the epitope on the virion. Likewise, binding patterns of a specific mAb with different virus strains reveal information on their antigenic relatedness. In establishing this assay, the nature of exposure of antigenic epitopes and the antigenic relatedness of six intact, native HIV-1 virions of clades A, B, C, D, F and G were examined using anti-HIV-1 mAbs directed at epitopes in the V2, V3, CD4bd and C5 of gp120, and in clusters I and II of the gp41 region. Analysis of the binding data shows that mAbs directed at epitopes in the V3, C5 and gp41 Cluster I region bound best to the viruses examined, suggesting that these are the regions most exposed and conserved on intact, native HIV-1 virions of different clades. Epitopes in the V2 and CD4bd of gp120, and in gp41 cluster II, are not exposed on intact, native virions.     

Development and characterization of monoclonal antibodies against avian reovirus sigma C protein and their application in detection of avian reovirus isolates.

Avian reovirus (ARV) is a non-enveloped virus with a segmented double-stranded RNA genome surrounded by a double icosahedral capsid shell. ARVs are associated with viral arthritis, immunosuppression, and enteric diseases in poultry. The sigma C protein was involved in induction of apoptosis and neutralization antibody. In the present study, sigma C-His protein was expressed in Sf9 insect cells and purified by immobilized metal affinity chromatography. Eight monoclonal antibodies (mAbs) against sigma C-His and three mAbs against His were screened from hybridoma cells produced by fusion of splenocytes from immunized mice with NS1 myeloma cells. Among the eight mAbs against sigma C protein, all belonged to the IgG isotype except three for IgM. It was discovered that all anti-His mAbs were mixtures of IgG and IgM isotypes. mAbs reacted with sigma C-His protein in a conformation-independent manner based on dot blot and western blotting assays. The competitive binding assay indicated that all mAbs recognized the same epitope on sigma C protein that was conserved in different isolates. Compared with the commercial anti-ARV S1133 polyclonal antibody, mAb (D15) had universal reactivity to all serotypes or genotypes of ARVs tested. This monoclonal antibody may therefore be useful for the development of an antigen-capture enzyme-linked immunosorbent assay for rapid detection of field isolates.     

Development and characterization of murine monoclonal antibodies to first and second Ljungan virus genotypes

Ljungan virus (LV) is a rodent pathogen that causes diabetes and myocarditis in its natural host. In addition, LV has been associated with human disease during pregnancy and of neonates, respectively. A panel of 22 monoclonal antibodies (mAbs) against first and second LV genotypes were produced by immunization of BALB/c mice with whole virus. Thirteen mAbs were class IgG antibodies and nine were class IgM antibodies; all of them contained kappa light chains. All mAbs were reactive with LV by capture enzyme-linked immunosorbent assay and indirect immunofluorescence assay. In addition, five mAbs showed a positive staining in immunohistochemistry. No mAb bound to denatured capsid proteins detected by western immunoblotting. In contrast, the target capsid protein(s) of 20 mAbs were identified by immune precipitation, revealing the conformational nature of epitopes required for mAb binding. None of the mAbs reacted with third and fourth LV genotypes. mAbs characterized should provide useful tools for the development of diagnostic assays and the investigation of LV first and second genotype properties and its pathogenesis.     

Isotype distribution and specificity of the antibody response to primary Moloney murine sarcoma virus infection in BALB/c mice

The development and isotype distribution of Moloney murine leukemia virus (M-MuLV)-specific serum antibodies following primary inoculation with Moloney murine sarcoma/leukemia virus (M-MuSV/M-MuLV) in adult BALB/c mice have been investigated using an enzyme-linked immunosorbent assay (ELISA). The primary antibody responses to M-MuSV/M-MuLV consisted of the IgM, IgG2a, IgG2b, and IgG3 isotypes; no M-MuLV-specific serum IgG1 or IgA antibodies were detected. The detectable antibody response was biphasic, with an early peak of virus-specific titers seen between 10 and 15 days after inoculation and a second peak seen in regressor sera. Pooled regressor sera contained IgM, IgG2a, and IgG2b antibodies which bound to M-MuLV-expressing lymphoma cells. Immunoelectron microscopy with regressor sera showed IgG bound both to infected cell surfaces and to mature viral particles, while IgM bound only to infected cell surfaces. These findings were supported by immunoprecipitation analyses which demonstrated binding of the M-MuLV-specific antibodies to both virion-associated and cell-associated antigens encoded by the gag and env genes.     

Characterizing anti-HIV monoclonal antibodies and immune sera by defining the mechanism of neutralization

Understanding the nature of neutralization may provide information for crafting improvements in HIV vaccines. Using JR-FL as a prototype primary pseudovirus, we first investigated anti-HIV monoclonal antibodies (mAbs) in several neutralization formats designed to elucidate the timing of neutralization. MAb b12 was most effective before receptor binding, 2G12 neutralized effectively even after CD4 binding, and X5 and a V3 loop mAb (LE311) were inactive in a standard format but were induced by sCD4. Consistent with this latter finding, native PAGE indicated that X5 and V3 mAb binding to Envelope trimers was dependent on sCD4 binding. In contrast, 2F5 and 4E10 were active even post-CD4/CCR5 engagement. We next analyzed the neutralization mechanism of a panel of HIV+ donor plasmas of various potencies. All mediated high levels of post-CD4 neutralization that was not associated with activity in the standard format. None, however, neutralized effectively in the post-CD4/CCR5 format, suggesting that 2F5/4E10-like Abs were absent or at low concentrations. Finally, we analyzed a non-neutralizing plasma spiked with mAbs b12, 2G12 or 2F5, which resulted in increases in neutralization titers consistent with the activities of the mAbs. We conclude that these methods, together with other mapping approaches, may provide a better understanding of neutralization that could be useful in vaccine research.     

Establishment and usefulness of an anti-human CD57 IgG1 monoclonal antibody

In the present study we established a new monoclonal antibody, JNK-1, which recognizes all cells recognized by CD57/HNK-1 mAb. JNK-1 and CD57 mAbs inhibited the binding of each other, suggesting that the molecules they recognize are either identical or sufficiently close to cause steric hindrance in the binding assay. JNK-1 mAb detected the 110-kDa protein, which is identical to the protein recognized by CD57/HNK-1 mAb in Western immunoblot analysis combined with immunoprecipitation. Therefore, JNK-1 mAb appears to recognize homogeneous molecules identified by the currently available CD57 mAb. Notably, JNK-1 mAb is composed of mouse IgG1 heavy chains, and thus can be used easily in immunoprecipitation, which cannot easily be performed with the available CD57 mAb because it is an IgM isotype. Thus, JNK-1, which is an IgG isotype, may present a useful tool to elucidate the CD57 protein.     

Cross-clade neutralization patterns among HIV-1 strains from the six major clades of the pandemic evaluated and compared in two different models

A panel of paired primary virus isolates and envelope pseudoviruses from sixty strains representing six HIV-1 clades was tested for neutralization using pooled, clade-specific plasma in two prominently utilized neutralization platforms: a primary isolate assay using peripheral blood mononuclear cells (PBMC) and a pseudovirus assay using a reporter epithelial cell line. Using the PMBC assay, pairing of the antibody pool against homologous clade viruses generated the highest geometric mean neutralizing antibody titer in 4 out of 6 clades tested, and neutralization patterns showed numerous examples of reciprocal cross-recognition between antibody and viruses of specific clade pairs. In the pseudovirus assay, cross-clade neutralization was more limited, with fewer distinct cross-clade relationships evident. The clade C antibody pool was broadly cross-reactive, neutralizing the greatest number of viruses in both assays. These data highlight the importance of the neutralization assay format employed and suggest that clade C envelopes merit further evaluation for the elicitation of broadly neutralizing antibodies.     

以假病毒为基础的HIV-1中和抗体检测体系的建立以及初步应用

目的 建立以假病毒为基础的HIV-1中和抗体检测方法,并对其进行初步应用.方法 从重组质粒中扩增出gp160基因片段,并克隆到pcDNA3.1质粒上,酶切鉴定得到阳性克隆.将阳性克隆分别和pSG3△env质粒共转染获得假病毒.用假病毒分别检测单克隆抗体和HIV-1抗体阳性血清的中和活性.结果 成功地获得了4株假病毒CHB01、CHB02、CHBC03和CHAE04.单克隆抗体4E10可以中和4株假病毒;单克隆抗体2F5不能中和CHBC03假病毒株,但可以中和CHB01、CHB02和CHAE04假病毒株;单克隆抗体IgG1b12 可以中和CHBC03、CHB01和CHB02假病毒株,则不能中和CHAE04假病毒株.43份HIV-1抗体阳性血清中针对不同假病毒的中和抗体明显不同.结论 所获得的假病毒可以用于中和抗体的检测,但不同假病毒株的中和特性不同.     

Different epitopes of the CD31 antigen identified by monoclonal antibodies: cell type-specific patterns of expression

3 mAb-5A2.G5, B2B1 and 2BD4-all of IgG1 isotype were identified as belonging to the CD31 cluster by their binding to transfected murine cell lines expressing the CD31 antigen and by sequential immunoprecipitation experiments. Competitive binding experiments were carried out using the human myelomonocytic cell line RC-2A. mAb B2B1 and 2BD4 did not cross block. mAb 5A2.G5 partly inhibited binding of 2BD4 but not B2B1. Thus the epitopes identified by 5A2.G5 and 2BD4 appear to overlap but to be quite separate from that recognized by B2B1. All 3 antibodies bound to a 130 kDa species on Western blots after nonreducing polyacrylamide gel electrophoresis of platelet lysates. Culture of RC-2A cells in the presence of tunicamycin (after removal of surface antigens by pronase) blocked re-expression of the epitopes recognised by all 3 mAb suggesting that they involve N-linked glycosylation. Furthermore, treatment of platelet lysates with Endoglycosidase F prior to electrophoresis and Western blotting abolished the binding of the mAb but not a rabbit polyclonal antiserum to CD31. Nevertheless, neuraminidase treatment of RC-2A cells failed to affect mAb binding. The antibodies displayed typical properties of CD31 antibodies in that all 3 precipitated at 130 kDa cell surface protein and bound strongly to platelets, monocytes, neutrophils and vascular endothelium. All 3 antibodies were positive on hemopoietic progenitor cells which give rise to colonies in the CFU-C assay. However, differences in binding to peripheral blood lymphocytes and to certain human leukemic cell lines were noted. In particular, mAb 5A2.G5 bound weakly to lymphocytes and to the lymphoid cell line HSB-2 compared with the other 2 antibodies.     

Antibody elicited against the gp41 N-heptad repeat (NHR) coiled-coil can neutralize HIV-1 with modest potency but non-neutralizing antibodies also bind to NHR mimetics

Following CD4 receptor binding to the HIV-1 envelope spike (Env), the conserved N-heptad repeat (NHR) region of gp41 forms a coiled-coil that is a precursor to the fusion reaction. Although it has been a target of drug and vaccine design, there are few monoclonal antibody (mAb) tools with which to probe the antigenicity and immunogenicity specifically of the NHR coiled-coil. Here, we have rescued HIV-1-neutralizing anti-NHR mAbs from immune phage display libraries that were prepared (i) from b9 rabbits immunized with a previously described mimetic of the NHR coiled-coil, N35(CCG)-N13, and (ii) from an HIV-1 infected individual. We describe a rabbit single-chain Fv fragment (scFv), 8K8, and a human Fab, DN9, which specifically recognize NHR coiled-coils that are unoccupied by peptide corresponding to the C-heptad repeat or CHR region of gp41 (e.g. C34). The epitopes of 8K8 and DN9 were found to partially overlap with that of a previously described anti-NHR mAb, IgG D5; however, 8K8 and DN9 were much more specific than D5 for unoccupied NHR trimers. The mAbs, including a whole IgG 8K8 molecule, neutralized primary HIV-1 of clades B and C in a pseudotyped virus assay with comparable, albeit relatively modest potency. Finally, a human Fab T3 and a rabbit serum (both non-neutralizing) were able to block binding of D5 and 8K8 to a gp41 NHR mimetic, respectively, but not the neutralizing activity of these mAbs. We conclude from these results that NHR coiled-coil analogs of HIV-1 gp41 elicit many Abs during natural infection and through immunization, but that due to limited accessibility to the corresponding region on fusogenic gp41 few can neutralize. Caution is therefore required in targeting the NHR for vaccine design. Nevertheless, the mAb panel may be useful as tools for elucidating access restrictions to the NHR of gp41 and in designing potential improvements to mimetics of receptor-activated Env.     

Characterization of monoclonal immunoglobulin a and g against shiga toxin binding subunits produced by intranasal immunization

Immunoglobulin A (IgA) is considered to play a major role in protection of the mucosal surface. However, its immunological and biological properties have not been extensively studied because the production of IgA class monoclonal antibodies (mAbs) is difficult. We compared the properties of IgA and IgG mAbs against Shiga toxin B subunits (Stx1B). These mAbs were secreted from hybridomas that had been produced from mice after intranasal immunization with recombinant Stx1B and cholera toxin. The dose response curves for the binding of the IgA (clone G2G7) and IgG (clone D11C6) mAbs to immobilized Stx1B were similar, as revealed on ELISA. The majority of the IgA mAb formed dimers while the IgG mAb was monomeric, as judged by immunoblot analysis. The IgG mAb completely inhibited the binding of Stx1B to Burkitt's lymphoma cell line Ramos, while the inhibition by the IgA mAb was only partial. The IgG mAb was able to neutralize the cytotoxicity of Stx1 holotoxin towards Vero cells, whereas the IgA mAb was not. The binding affinity of each binding site was compared by means of surface plasmon resonance analysis involving a capture method, with which the binding of soluble Stx1B to immobilized mAb was detected. The association rate was similar but the dissociation rate was twofold faster in the case of the IgA mAb, resulting in twofold higher affinity of the IgG mAb. These results suggest that one can obtain high affinity IgA mAb but toxin neutralization is another challenge as to therapeutic antibodies of the IgA class.     

抗MRSA-PBP2a转肽酶区蛋白单克隆抗体的制备、鉴定及初步应用

目的:制备和鉴定抗MRSA-PBP2a转肽酶区蛋白单克隆抗体(mAb),初步建立检测PBP2a的乳胶凝集方法。方法:以基因工程重组PBP2a转肽酶区蛋白为抗原,免疫BALB/c小鼠,制备鼠源性mAb,间接ELISA鉴定IgG亚类、腹水效价及亲和常数,Western blot检测mAb的特异性,用所得mAb致敏聚苯乙烯乳胶,建立检测PBP2a的乳胶凝集方法。结果:筛选出2株能稳定分泌抗PBP2a mAb的杂交瘤细胞株F1和F2,免疫球蛋白亚类均为IgG1类;腹水效价为0.5×106~1×106,亲和力常数分别为1.57×108M-1和5.43×109M-1。Western blot显示F1、F2抗体均能有效识别重组PBP2a转肽酶区蛋白及MRSA临床分离株中的天然PBP2a,用mAb F2建立了乳胶凝集法,敏感性达1mg/L。结论:获得2株特异性好、亲和力高、能稳定分泌抗PBP2a mAb的杂交瘤细胞株,为研制MRSA快速鉴定试剂盒奠定了良好的基础。     

Deciphering IgM interference in IgG anti-HLA antibody detection with flow beads assays

In flow beads assays, the interference of IgM for IgG anti-HLA antibodies detection is not precisely understood. Using the screening flow beads assay for class I HLA antibodies, we analyzed the binding of two IgG mAbs, the anti-class I HLA W6/32 and an anti-beta-2-microglobulin, in the presence of an anti-beta-2-microglobulin IgM mAb. In neat serum, the IgM mAb impaired the detection of both IgG. In EDTA-treated serum, the interference was stronger for the anti-beta-2-microglobulin IgG than for W6/32, in agreement with the finding in surface plasmon resonance that this IgM competed with the anti-beta-2-microglobulin IgG but not with W6/32. The IgM interference was higher in neat than in EDTA-treated serum for both IgG mAbs. The IgM interference was also analyzed with class II single antigen flow beads and sera from two kidney recipients containing IgG and IgM donor specific antibodies. Anti-HLA IgG detection was partially corrected by EDTA, and restored by IgM inactivation with DTT, confirming the results observed with the mAbs. Therefore, three mechanisms can explain the IgM interference for IgG anti-HLA antibodies in flow beads assays: direct competition for antigen, steric hindrance and complement activation.     

Synergistic interaction between ligands binding to the CD4 binding site and V3 domain of human immunodeficiency virus type I gp120.

We demonstrate that soluble CD4 (sCD4) or a monoclonal antibody (mAb), 39.13g, binding to a conformational epitope of gp120 involved in CD4 binding, and mAbs binding to the V3 domain of gp120, can synergistically neutralize human immunodeficiency virus type I (HIV-1). In contrast, a neutralizing mAb binding to a linear epitope within the CD4 binding domain was unable to exert a synergistic effect in combination with V3 mAbs, suggesting that synergism is dependent on ligands binding to the critical, discontinuous, gp120 residues constituting the CD4 binding site. A number of V3 mAbs showed increased binding to virion gp120 in the presence of sCD4, suggesting a mechanism for the synergistic neutralization. This effect was not observed with recombinant or detergent solubilized viral gp120, suggesting that the oligomeric structure of gp120 on viral particles affects V3 epitope exposure. This hypothesis is supported by the ability of two new V3 mAbs, 8/38c and 8/64b, to only neutralize HIV-1 in the presence of sCD4 or mAb 39.13g; binding studies demonstrate that these mAbs only bind to virion gp120 in the presence of sCD4. Thus, V3 epitope exposure is modulated by the interaction of virion gp120 with ligands specific for the CD4 binding domain and results in enhanced antibody-mediated neutralization.     

Generation,characterization and cross-reactivities of monoclonal antibodies against the p24 core protein and the gp130 envelope glycoprotein of HIV-2ben

The purpose of this study was to characterize antigenic determinants on structural polypeptides of human immunodeficiency virus type 2 (HIV-2_ben). Therefore, three HIV-2-specific monoclonal antibodies (mAbs) against the p24 core protein (gag) and one mAb against the gp130 envelope glycoprotein (env) were produced. In addition to p24 the anti-core mAbs recognized the primary translation product of the viral gag gene p55 and an intermediate cleavage product p41. Core mAbs cross-reacted with another HIV-2 isolate (HIV-2_rod), and several simian immunodeficiency viruses (SIV_agm TYO7 and SIV_mac), but not with SIV_mnd and the HIV-1 isolates investigated (HIV-1_han and HIV-1_lai). The env mAb cross-reacted with HIV-2_rod and SIV_mac but not with SIV_agm, SIV_mnd or HIV-1. In competition assays and with epitope mapping possible binding sites for the mAbs were identified. The processing of HIV-2 core proteins is compared in retrovirus-infected T cell lines and during the expression by recombinant vaccinia virus. Finally, the mAb XIV DC10 which recognized a highly conserved epitope could be useful for an assay to detect HIV-1 and HIV-2 simultaneously. II D8 is the first mAb raised against HIV-2 env glycoprotein.     

Neutralizing activity of antibodies to the V3 loop region of HIV-1 gp120 relative to their epitope fine specificity

The V3 loop of HIV-1 gp120 is considered occluded on many primary viruses. However, virus sensitivity to neutralization by different V3 mAbs often varies, indicating that access to V3 is not restricted equally for all antibodies. Here, we have sought to gain a better understanding of these restrictions by determining the neutralizing activities of 7 V3 mAbs (19b, 39F, CO11, F2A3, F530, LA21, and LE311) against 15 subtype B primary isolates and relating these activities to the fine specificity of the mAbs. Not surprisingly, we found that most mAbs neutralized the same 2-3 viruses, with only mAb F530 able to neutralize 2 additional viruses not neutralized by the other mAbs. Epitope mapping revealed that positively-charged residues in or near the V3 stem are important for the binding of all the mAbs and that most mAbs seem to require the Pro residue that forms the GPGR β hairpin turn in the V3 tip for binding. Based on the mapping, we determined that V3 sequence variation accounted for neutralization resistance of approximately half the viruses tested. Comparison of these results to those of select V3 mAbs with overall better neutralizing activities in the light of structural information illustrates how an antibody's mode of interaction with V3, driven by contact residue requirements, may restrict the antibody from accessing its epitope on different viruses. Based on the data we propose an angle of interaction with V3 that is less stringent on access for antibodies with cross-neutralizing activity compared to antibodies that neutralize relatively fewer viruses.     

Dynamic appearance of antigenic epitopes effective for viral neutralization during membrane fusion initiated by interactions between HIV-1 envelope proteins and CD4/CXCR4

HIV-1 entry into cells is mediated by interactions between the envelope (Env) gp120 and gp41 proteins with CD4 and chemokine receptors via an intermediate called the viral fusion complex (vFC). Here, mAbs were used to find the dynamic changes in expression of antigenic epitopes during vFC formation. A CD4-specific mAb (R275) and anti-vFC mAbs, designated F12-1, F13-6 and F18-4 that recognize the epitopes only appeared by the co-culture of env-transfected 293FT and CD4-transfected 293 cells, were developed by immunizing ganp-gene transgenic mice with an vFC-like structure formed by the same co-culture. The epitopes recognized by the mAbs appeared at different time points during vFC formation: F18-4 appeared first, followed by F13-6, and finally F12-1. The anti-vFC mAbs had little effect on vFC formation or virus neutralization; however, interestingly F12-1 and F18-4 increased exposure of the OKT4-epitope on the domain 3 in the extracellular region of CD4. R275, which recognizes the epitope closely associated with the OKT4-determinant on the domain 3, showed the marked inhibition of vFC formation and viral neutralization activity. The Ab binding to the epitopes appeared during viral membrane fusion might reinforce the appearance of the target epitopes for effective neutralization activity.     

ELDKWA-epitope-specific monoclonal antibodies inhibit HIV env-mediated syncytium formation

Recent studies demonstrated that the N- and C-domains of HIV-1 gp41 are involved in virus-mediated membrane fusion resulting in HIV-entry into target cells. Synthetic N- and C-domain peptides, such as DP107 and DP178, potently inhibit membrane fusion induced by both laboratory-adapted strains and primary isolates of HIV-1. Monoclonal antibody (mAb) 2F5 recognizing ELDKWA-epitope on the gp41 C-domain has shown broad neutralizing activity to many HIV stains even primary isolates. To test the neutralizing mechanism of the ELDKWA-epitope-specific antibody, mAbs with predefined ELDKWA-epitope-specificity were induced by synthetic epitope-peptide instead of a natural or recombinant gp41 bearing this epitope. All of five mAbs were identified to recognize ELDKWA-epitope on recombinant soluble gp41 in ELISA-assay. In flow cytometry analysis, four out of five mAbs could bind to HIV-Env+ CHO-WT cells and such binding could be inhibited by ELDKWA-epitope peptide, which suggests that these mAbs could recognize native envelope protein expressed on cell membranes. Interestingly, two out of five mAbs could inhibit membrane fusion between the CXCR4- and CD4-expressing 3T3.T4.CXCR4 cells and HIV-Env+ CHO-WT cells in a dose-dependent manner, consistent with their potent binding capability to HIV-Env+ CHO-WT cells. Parren et al. (1998) suggested that neutralization of HIV-1 by antibody may be determined primarily by occupancy of sites and spatial obstruction which blocks virus entry. Based on this theory, a model was suggested to explain the neutralizing activities of mAbs against the epitope ELDKWA.     

Characterization and application of monoclonal antibodies against turbot (Scophthalmus maximus) Rhabdovirus

Five monoclonal antibodies (mAbs), 1G8, 1H9, 2D2, 2D3, and 2F5, against Scophthalmus maximus rhabdovirus (SMRV) were prepared. Characterization of the mAbs included indirect enzyme-linked immunosorbent assay, isotyping, viral inhibition assay, immunofluorescence staining of virus-infected cell cultures, and Western blot analysis. Isotyping revealed that 1G8 and 1H9 were of the IgG2b subclass and that the other three were IgM. 2D2, 2D3, and 2F5 partially inhibited SMRV infection in epithelioma papulosum cyprinid (EPC) cell culture. Western blotting showed that all five mAbs could react with two SMRV proteins with molecular masses of approximately 30 kDa (P) and 26 kDa (M). These two proteins were localized within the cytoplasm of SMRV-infected EPC cells by immunofluorescence assay. Also, progressive foci of viral replication in cell cultures were monitored from 6 to 24 h, using mAb 2D3 as the primary antibody. A flow cytometry procedure was used to detect and quantify SMRV-infected (0.01 PFU/cell) EPC cells with mAb 2D3, and 10.8% of cells could be distinguished as infected 36 h postinfection. Moreover, mAb 2D3 was successfully applied for the detection of viral antigen in cryosections from flounder tissues by immunohistochemistry tests.