The immune response to herpes simplex virus: comparison of the specificity and relative titers of serum antibodies directed against viral polypeptides following primary herpes simplex virus type 1 infections

Employing an immunoblotting technique, the polypeptide specificity and relative titers of anti-HSV IgG reactive with denaturation-resistant epitopes on HSV proteins were determined in patients experiencing primary HSV-1 infections at various anatomical sites. Early sera from previously seronegative patients with primary HSV-1 infections were found to have comparatively low levels of antibody directed against the major viral glycoprotein antigens (gB, gC, and gD) relative to titers present in sera of individuals with long-standing, latent orofacial HSV-1 infections. Patients with primary infections did however have high titers of antibody directed against a series of low molecular weight HSV polypeptide antigens. These antigens were found to be antigenically related to a structural component of virion nucleocapsids. At later times postinfection, titers of antibodies directed against other viral polypeptides including the major glycoproteins increased to levels more closely approximating those observed in latently infected individuals. These results indicate that the anti-HSV IgG detected by immunoblot analysis which appears earliest following primary infection is not directed against the known major infected cell or virion glycoprotein surface antigens but rather against an internal capsid protein of HSV.     

Induction of neutralizing antibody against varicella-zoster virus (VZV) by VZV gp3 and cross-reactivity between VZV gp3 and herpes simplex viruses gB

Glycoprotein gp3 (64K) is one of the major proteins specified by varicella-zoster virus (VZV). This glycoprotein was purified on an immunoadsorbent consisting of monoclonal antibody (clone 8) against gp3 linked to protein A-Sepharose. Rabbits were then immunized with the purified antigen to obtain monospecific antisera against gp3. The monospecific antisera and monoclonal antibody immunoprecipitated polypeptides with the same molecular weights of approximately 64,000 (64K), 106K, and 116K from a lysate of labeled cells infected with VZV. The monoclonal antibodies against gp3 did not have neutralizing activity against VZV, but anti-gp3 monospecific sera neutralized VZV infectivity. The antigenic relation of VZV to herpes simplex virus (HSV) was investigated by the immunofluorescent test, immunoprecipitation followed by analysis by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and the neutralizing antibody test with monoclonal antibodies and monospecific antisera. In the indirect immunofluorescent test, the cytoplasm of cells infected with HSV-type 1 or HSV-type 2 was stained with anti-gp3 monospecific antiserum but not with anti-gp3 monoclonal antibodies. This serum also precipitated the polypeptides of HSV-type 1 and HSV-type 2 with molecular weight of approximately 120,000, possibly corresponding to gB of HSV-1 or HSV-2, and this immunoprecipitation was blocked by anti-gB monoclonal antibody. However, anti-gp3 monospecific antisera did not neutralize either HSV-type 1 or HSV-type 2 infectivity. These results suggest that gp3 induces neutralizing antibody against VZV and that it also has a cross-reacting antigenic determinant with gB of HSV.     

The isolation and characteristics of monoclonal antibodies to different proteins of the herpes simplex virus types 1 and 2]

The authors prepared 156 mouse hybridomas producing monoclonal (MCA) antibodies to type- and group-specific antigenic determinants of HSV-1 and HSV-2. Seven of them were studied at length by western blot and radioimmunoprecipitation methods. The cell lines 1H97 and 2H141 were shown to produce immunoglobulins of G2 beta and M class, respectively, and were directed against group-specific antigenic determinants of the major nucleocapsid protein p150. The cell lines 1H38 and 1H110 produced immunoglobulins of M and G2 beta, respectively, and were directed against type-specific antigens of HSV-1 glycoprotein gB. At the same time, the presence of group-specific antigenic determinants on glycoprotein gB molecule was indicated by MCA 1H188 belonging to immunoglobulins of G2 alpha class. Two cell lines, 2H208 and 1H225, produced immunoglobulins G2 alpha directed against type-specific antigenic determinants of HSV-2 glycoprotein gD and group-specific antigenic determinants of HSV-1 gD, respectively. The results of immunoelectron microscopy indicated that MCA 1H110 and 2H208 were directed against virus envelope proteins.     

HSV-1 gB and VZV gp-II crossreactive antibodies in human sera

Summary The specificity and prevalence of human IgG antibodies crossreactive between HSV-1 (ANG) and VZV (Ellen) was examined in immunoblots. Using antibody fractions purified on HSV- and VZV-coated affinity chromatography columns and by preadsorption of sera with HSV and/or VZV lysates a cross-reactivity between HSV-1 gB and VZV gp-II was demonstrated. Crossreaction of human IgG antibodies among other structural and nonstructural viral proteins, however, was not detected. The frequency of human IgG antibodies crossreactive between HSV-1 gB and VZV gp-II was highest in HSV-seropositive patients experiencing an acute primary VZV infection (4 out of 5 sera tested). In contrast, no crossreactive antibodies were found in sera of HSV-seronegative patients with acute primary VZV infection (0/6) or in sera from individuals with acute recurrent HSV or VZV infection (0/12). Analysis of sera from individuals with previous HSV and/or VZV infection showed the presence of antibodies crossreactive between HSV-1 gB and VZV gp-II in 3 out of 30 sera tested.     

Analysis of the IgM and IgG antibody response against herpes simplex virus type 1 (HSV-1) structural and nonstructural proteins

In the present study the reactivity of IgG and IgM antibodies against HSV-1 structural and nonstructural proteins was analyzed by Western blot analysis (WBA) and radioimmunoprecipitation followed by polyacrylamide gel electrophoresis (RIPA-PAGE). It was demonstrated that IgM and IgG antibodies were directed against viral immediate-early, early, and late proteins. Following acute primary HSV infection, the early IgM antibody response in general was found to be directed against nonglycosylated structural proteins, viral early and immediate-early polypeptides. IgM antibodies against viral glycoproteins were found inconsistently. IgG antibodies against viral glycoproteins and other structural proteins with an apparent molecular weight of 56 kD, 45 kD, and 39 kD could be detected early in infection. Viral early and immediate-early proteins were poorly recognized by IgG antibodies in acute primary infections. In recurrent HSV infections, IgM antibodies revealed a less complex reaction with viral polypeptides. Thus, such IgM antibodies reacted predominantly with viral nonglycosylated structural proteins. In contrast, IgG antibodies from patients with recurrent infections strongly recognized viral structural, early, and immediate-early proteins. In seropositive individuals without obvious symptoms of acute infection, the most prominent antibody response was directed against gB and gD.     

Role of anti-gB and -gD antibodies in antibody-induced endocytosis of viral and cellular cell surface glycoproteins expressed on pseudorabies virus-infected monocytes

The addition of porcine pseudorabies virus (PrV)-specific polyclonal IgG antibodies to PrV-infected monocytes induces internalization of plasma membrane-anchored viral glycoproteins and major histocompatibility complex (MHC) class I. Using PrV deletion strains, it was shown that gB and gD are essential for the process to occur. The purpose of the current study was to evaluate whether antibodies directed against single viral glycoproteins are able to induce endocytosis. It was shown that monoclonal antibodies directed against viral glycoprotein gB and gD, but not against gC and gE, are able to induce internalization of their respective ligand. Adding a combination of monoclonal antibodies against gB and gD resulted in endocytosis levels, comparable to the endocytosis levels observed when adding porcine PrV-specific polyclonal antibodies. The addition of genistein and tyrphostin 25, two inhibitors of tyrosine kinase activity, abolished endocytosis induced by monoclonal anti-gB and -gD antibodies in a concentration-dependent manner. The addition of similar concentrations of tyrphostin 1, an inactive tyrphostin, had no effect on endocytosis. It was also shown that a mixture of polyclonal, but not monoclonal, antibodies against gB and gD is able to induce cointernalization of MHC class I. This indicates that MHC class I cointernalization results from a passive catching of the molecules rather than from a specific interaction of the MHC class I molecules with one or more viral glycoproteins. In conclusion, it can be stated that antibody-induced crosslinking of gB and gD induces the activation of a tyrosine phosphorylation-dependent signal transduction pathway, leading to their endocytosis. Cointernalization of other viral glycoproteins and MHC class I is most likely caused by a passive catching of these molecules in the gB and gD aggregates.     

Conserved epitopes of simian herpesvirus SA 8 and bovine herpesvirus type 2

Summary Some major structural components of simian herpesvirus SA 8 were analyzed and the relationship of SA 8 with HSV-1 and especially with BHV-2 was further characterized using a panel of SA 8- and BHV-2-specific monoclonal antibodies directed against gB, gD, gE, and ICP 8.It could be shown that SA 8 and BHV-2 expressed gB-1 equivalents, which differ in electrophoretic mobility, but share common epitopes with HSV-1. The antigenic determinants were detectable in the cytoplasm, on the surface of infected cells and on the virus envelope. Monoclonal antibodies reactive with epitopes of gB-SA 8 and gB-BHV-2 neutralized the homologous virus and cross-neutralized only HSV-1 and HSV-2, suggesting differences in accessability of the corresponding epitope on SA 8 and BHV-2, respectively. A second protein with conserved epitopes on SA 8, BHV-2, and HSV-1 was identified as ICP 8. This nucleus associated protein was additionally detected on the envelope of SA 8 and HSV-1. The results imply that ICP 8 might have a function not only in virus replication, but also in virus assembly.We could furthermore define type-specific epitopes on two SA 8 envelope proteins which are analogous to gD-1 and gE-1, respectively. The gD-specific epitope induced a type-specific neutralizing antibody, making it interesting for differentiation of closely related herpesviruses.     

Development of a competitive ELISA for detection of primates infected with monkey B virus (Herpesvirus simiae)

Two competitive ELISAs (C-ELISAs) are described that allow detection of antibodies against monkey B virus (BV, Cercopithecine herpesvirus 1). The assays utilize monoclonal antibodies (MABs) directed against the BV glycoprotein B (gB). Two of these MABs specifically recognize BV gB while a third MAB also reacts with the gB homologues of other primate alpha-herpesviruses (herpes simplexvirus-1, HSV-1: HSV-2; simian agent-8, SA8; and Herpesvirus papio-2, HVP2). A C-ELISA using the single cross-reactive MAB 3E8 allowed detection of host antibodies against HSV-1, HSV-2, SA8, HVP2 or BV, thus proving to be a sensitive assay for the detection of infection by any of these primate alpha-herpesviruses. The C-ELISA using BV-specific MABs was less sensitive but did allow some discrimination between infection by BV versus other alpha-herpesviruses. It was also shown that a C-ELISA using HVP2 as antigen and the cross-reactive MAB 3E8 was as sensitive for detection of BV antibody in macaque sera as an assay employing BV antigen. This test format allows detection of BV-infected primates without the biohazards associated with preparation and use of BV antigen.     

Enveloped Virus-Like Particle Expression of Human Cytomegalovirus Glycoprotein B Antigen Induces Antibodies with Potent and Broad Neutralizing Activity

A prophylactic vaccine to prevent the congenital transmission of human cytomegalovirus (HCMV) in newborns and to reduce life-threatening disease in immunosuppressed recipients of HCMV-infected solid organ transplants is highly desirable. Neutralizing antibodies against HCMV confer significant protection against infection, and glycoprotein B (gB) is a major target of such neutralizing antibodies. However, one shortcoming of past HCMV vaccines may have been their failure to induce high-titer persistent neutralizing antibody responses that prevent the infection of epithelial cells. We used enveloped virus-like particles (eVLPs), in which particles were produced in cells after the expression of murine leukemia virus (MLV) viral matrix protein Gag, to express either full-length CMV gB (gB eVLPs) or the full extracellular domain of CMV gB fused with the transmembrane and cytoplasmic domains from vesicular stomatitis virus (VSV)-G protein (gB-G eVLPs). gB-G-expressing eVLPs induced potent neutralizing antibodies in mice with a much greater propensity toward epithelial cell-neutralizing activity than that induced with soluble recombinant gB protein. An analysis of gB antibody binding titers and T-helper cell responses demonstrated that high neutralizing antibody titers were not simply due to enhanced immunogenicity of the gB-G eVLPs. The cells transiently transfected with gB-G but not gB plasmid formed syncytia, consistent with a prefusion gB conformation like those of infected cells and viral particles. Two of the five gB-G eVLP-induced monoclonal antibodies we examined in detail had neutralizing activities, one of which possessed particularly potent epithelial cell-neutralizing activity. These data differentiate gB-G eVLPs from gB antigens used in the past and support their use in a CMV vaccine candidate with improved neutralizing activity against epithelial cell infection.     

肾综合征出血热病毒结构蛋白的纯化及免疫学特性分析

应用从肾综合征出血热（ＨＦＲＳ）患者血清中提取的ＩｇＧ与活化的Ｓｅｐｈａｒｏｓｅ４Ｂ偶联，制备亲和层析柱，用此亲和层析柱从ＨＦＲＳＶ感染的小白鼠乳鼠鼠脑中提取出２种分子量为６７０００和５５０００的病毒结构蛋白。经ＥＬＩＳＡ证明，此病毒结构蛋白能与ＨＦＲＳ患者血清ＩｇＧ及抗ＨＦＲＳ病毒的ＭｃＡｂ反应，效价为１６０。与６株抗ＨＦＲＳＶＭｃＡｈ试验表明，此病毒结构蛋白能与Ｈ７株反应。血凝试验证明，此病毒蛋白不能凝集鹅红细胞、鸽血球和人＂Ｏ＂型血红细胞。将纯化的病毒结构蛋白免疫家兔，证明其有较强的免疫原性，可刺激家兔产生特异性抗体；微量中和试验及乳鼠中和试验证明，中和效价为２５６，说明纯化的病毒结构蛋白具有中和抗原位点；免疫血清对感染乳鼠有一定保护作用。     

Antibody activity to herpes simplex virus in mouse Ig classes and IgG subclasses

Summary Recent studies indicate that Ig class and IgG subclass induction varies for different proteins and further that some Ig subclasses, like IgG2a, are more efficient in important biologic processes such as antibody-dependant cell-mediated cytotoxicity (ADCC). Many proteins of herpes simplex virus type 1 (HSV-1) are immunogenic and induce immunoglobulin responses. To determine the distribution of immunoglobulins induced by HSV-1 proteins, we studied immune mouse serum using an Ig isotype specific Elisa assay for antiviral activity. We found by endpoint analysis that the antiviral titer was 1:12,903 for IgG1, 1:5141 for IgG2a, 1:2140 for IgG2b and 1:229 for IgG3. To identify which isotypes were induced by individual glycoproteins and other viral proteins, Western blots containing HSV-1 proteins were probed with immune serum and isotype specific second antibodies. gB, gC, gD and the 42/44KDa nucleocapsid complex induced strong IgG1, IgG2a, IgG2b responses. IgG3 reactivity with viral proteins appeared weaker. Among the IgG3 reactivities detected on immunoblots, gB and gC were the most intense. Other proteins which elicited IgG1, IgG2a and IgG2b responses were 170KDa, 154KDa and gE. IgA responses were induced by 154KDa, gC, gB, gE and gD. Prominent IgM responses included gB, gC, gD and the 42KDa protein. These results indicate that HSV-1 glycoproteins induce prominent responses in all IgG isotypes except IgG3. The biologic implications of the data are discussed.     

Domain structure of herpes simplex virus 1 glycoprotein B: neutralizing epitopes map in regions of continuous and discontinuous residues

Herpes simplex virus 1 (HSV-1) glycoprotein B (gB) is a multifunctional glycoprotein required for infectivity; it is thought to promote fusion of the viral envelope with the cell membrane and entry of virions into cells. To map the antigenic and functional domains on gB, we constructed amino terminal derivatives lacking the entire carboxyl terminus and internal deletion mutants lacking defined regions of the extracellular and transmembrane domains. Transient expression of the mutants in COS-1 cells revealed that the amino terminal derivatives were released into the medium whereas those with deletions in the extracellular domain were mostly retained within the transfected cells. Analysis of intact gB and the amino terminal derivatives showed that the intact molecule formed dimers whereas the mutant derivatives did not. Reactions of the derivatives with a panel of well-characterized monoclonal antibodies to gB showed that the neutralizing epitopes cluster in two domains. The first maps in the amino terminal 190 residues and contains seven continuous epitopes, five of which are HSV-1-specific. Reactions of antibodies with a set of oligopeptides fine-mapped the epitopes between residues 1 and 47. The second domain is composed of discontinuous epitopes and was expressed by amino terminal derivatives that were at least 457 residues in length or longer. Eleven epitopes map in this region, including those of four potent neutralizing antibodies whose cognitive sites mapped between residues 273 and 298 in mapping studies using antibody-resistant mutants. Results of the present study indicate that the cognitive sites of these antibodies are assembled into the discontinuous domain by juxtaposing residues from the amino-terminal half of gB monomers.     

Possible relationship between antigenic properties and isolation history of HSV-1 strains

29 monoclonal anti-herpes simplex virus (HSV)-1 antibodies were produced and characterized with regard to virus neutralizing activity, intracellular or cell-surface location of viral antigens and, where possible, molecular weight of the viral protein recognized. 13 antibodies recognized viral antigens expressed on the surface of infected cells and 16 were directed to intracellular viral components. Only two antibodies exhibited virus neutralizing activity. Application of these antibodies to an antigenic comparison of standard laboratory HSV-1 strains F, HFEM, mP, Glasgow-17 and MAC revealed unique antigenic differences among these strains. The antibodies were further used in an antigenic comparison of 45 human HSV-1 isolates with defined isolation history. Except for two paired isolates from left and right trigeminal ganglia of two human cadavers, the antibody panel revealed antigenic differences among all isolates, including paired isolates from three additional cadavers. Overall, isolates from different human donors showed greater antigenic dissimilarity from each other in cell-surface associated than in intracellular antigens. The data suggest the possibility of a correlation between antigenic and biologic properties of HSV-1.     

Neutralizing antibody responses induced by varicella-zoster virus gE and gB glycoproteins following infection,reactivation or immunization

The purpose of this study was to compare the antibody responses to varicella-zoster virus (VZV) gE and gB after natural VZV infection and after vaccination with live attenuated OKA vaccine in order to determine the relative importance of these proteins as components of a subunit vaccine. Anti-VZV antibody titers determined by IFA were of the same order of magnitude in sera from individuals with a history of varicella and in vaccinated children but higher in individuals given booster vaccination. The titers of anti-gE and anti-gB antibodies were measured by ELISA using recombinant gE or gB as capture antigen. From these experiments, it appears that the ratio of anti-gE to anti-gB antibody is highly variable from one individual to another but relatively stable over a long period of time for a particular individual, even after a zoster episode. Neutralizing antibodies directed against gE or gB were also measured by subtracting the neutralization titers obtained before and after depletion of the specific antibodies on immobilized recombinant gE, gB, or both. This showed that, with respect to neutralization, anti-gE and anti-gB are equally prevalent in vaccinated children and that anti-gE is generally, but not always, predominant over anti-gB in VZV-infected individuals. Finally, antibodies to these two glycoproteins appear to be predominant among the neutralizing antibodies directed to other VZV antigens. J. Med. Virol. 53:63–68, 1997. © 1997 Wiley-Liss, Inc.     

Immunological study of the nef protein from HIV-1 by polyclonal and monoclonal antibodies

Summary We constructed and expressed different overlapping fusion proteins with the nef gene of HIV-1 and generated specific polyclonal rabbit and monoclonal mouse antibodies against these recombinant proteins. The rabbit antisera, one of the monoclonal antibodies as well as a serum from a HIV-1 infected patient recognized the nef protein with M_r 27 kDa in latently HIV-1 infected glioma cells in the immunoblot. In contrast, these antibodies could not detect nef in productively HIV-1 infected Molt-3 cells neither in immunoblot nor in indirect immunofluorescence assays. These results indicate the possible participation of nef in viral latency.The recombinant nef proteins were used as probes for anti-nef antibodies in human sera. We observed in 17 of 57 sera tested specific anti-nef antibodies. All of these anti-nef positive sera also contained antibodies directed against viral structural proteins. The NH₂-terminal region of the recombinant nef was shown to be the major immunodominant antigenic site in the immunoblot assay.     

Comparative studies of HSV-1 antigens solubilised from infected cells by using non-ionic or zwitterionic detergents

HSV-1 antigen preparations solubilised from Vero cells by using either the non-ionic detergent Nonidet P40 or the zwitterionic detergent Empigen BB, and purified on sucrose density gradients or over a sucrose cushion, were tested by ELISA with anti-HSV-1 glycoprotein monoclonal antibodies and by radioimmunoprecipitation (RIP) with polyclonal HSV-1 antiserum. Amongst several proteins detected in these preparations, the four major HSV-1 glycoproteins, gB, gC, gD, and gE, were found to be present. Differences between NP40 or Empigen-solubilised HSV-1 antigen preparations with respect to two of these glycoproteins, gB and gE, were detected by using a small panel of monoclonal antibodies. Comparative studies in mice showed the Empigen-solubilised HSV-1 antigen preparations elicited greater antibody responses and greater protection against lethal HSV-1 challenge infection than the NP40-solubilised preparation.     

Response of mice to rotaviruses of bovine or primate origin assessed by radioimmunoassay, radioimmunoprecipitation, and plaque reduction neutralization.

Sera from (i) gnotobiotic BALB/c, CD-1, and CFW mice and (ii) conventional BALB/c mice were evaluated by radioimmunoassay, radioimmunoprecipitation, and plaque reduction neutralization, using the Wa, SA-11, and WC-3 (bovine) strains of rotavirus as the detecting antigens. The gnotobiotic mice had no antirotavirus antibody detectable by radioimmunoprecipitation and no neutralizing antibody at a dilution of 1:50 by plaque reduction neutralization. All sera from the conventional mice had rotavirus-specific antibodies detected by radioimmunoassay and by radioimmunoprecipitation at serum dilutions of 1:50 and 1:10,000, respectively. The antibodies were directed against viral proteins p116, p94, p88, and p84 of all three viruses, but had no neutralizing activity against heterologous rotaviruses at a dilution of 1:50. Conventional seropositive mice were parenterally immunized with the Wa, SA-11, or WC-3 strain of rotavirus. An approximate 100-fold increase in rotavirus-specific antibodies was detected by radioimmunoassay, and greater than 20-fold selective neutralization of the immunizing strain of virus was observed. Sera from the mice immunized with Wa virus had antibodies directed against inner and outer capsid proteins of all three rotaviruses. The mouse can be a useful model for studying the immune response to heterologous rotavirus infection; preexisting antibodies presumably directed towards murine rotavirus do not prevent the development of a type-specific immune response to a nonmurine rotavirus.     

Domains of herpes simplex virus I glycoprotein B that function in virus penetration, cell-to-cell spread, and cell fusion.

Herpes simplex virus 1 glycoprotein B (gB) is one of 10 glycoproteins in the virion envelope and in the membranes of infected cells. It is required for infection of cells in culture and functions in penetration of the cell by fusing the virion envelope with the plasma membrane. In studies to map the functional domains on HSV-1 gB, we reported that epitopes of potent neutralizing antibodies cluster in three major antigenic domains, D1, D2, and D5a. D1 contains continuous epitopes in the very amino terminus of gB. D2 comprises discontinuous epitopes that are assembled on gB derivatives 457 amino acids in length. D5a contains discontinuous epitopes that map between amino acids 600 and 690. We have now analyzed the function of these domains in virion infectivity by a detailed examination of the effects of 16 neutralizing antibodies on virion adsorption, penetration, plaque development, and cell fusion. Our results are as follows. (i) Ten antibodies with complement-independent neutralizing activity blocked penetration of virions into cells but not their adsorption to the cell surface. Treating cell-bound, neutralized virus with the fusogenic agent polyethylene glycol promoted their entry into cells. (ii) Ten antibodies with complement-dependent and -independent neutralizing activity interfered with plaque development by preventing spread of virus from infected to neighboring uninfected cells. (iii) Nine neutralizing antibodies, all complement-independent, prevented cell fusion induced by strain HFEM syn. We conclude that domains mapping in three regions of gB function in penetration of virions into cells, and that most neutralizing antibodies to these domains also block cell-to-cell spread of virus and cell fusion. The findings that three complement-independent neutralizing antibodies that blocked penetration did not inhibit plaque development, and that only one of these blocked cell fusion, indicate that the cell-to-cell spread of virus and cell fusion are related processes, but not identical to the penetration function.     

Novel antiviral activity of chemokines

Antimicrobial peptides are a diverse family of small, mostly cationic polypeptides that kill bacteria, fungi and even some enveloped viruses, while chemokines are a group of mostly cationic small proteins that induce directed migration of leukocytes through interactions with a group of seven transmembrane G protein-coupled receptors. Recent studies have shown that antimicrobial peptides and chemokines have substantially overlapping functions. Thus, while some antimicrobial peptides are chemotactic for leukocytes, some chemokines can kill a wide range of bacteria and fungi. Here, we examined a possible direct antiviral activity of chemokines against an enveloped virus HSV-1. Among 22 human chemokines examined, chemokines such as MIP-1 alpha/CCL3, MIP-1 beta/CCL4 and RANTES/CCL5 showed a significant direct antiviral activity against HSV-1. It is intriguing that these chemokines are mostly known to be highly expressed by effector CD8+ T cells. The chemokines with a significant anti-HSV-1 activity commonly bound to HSV-1 virions via envelope glycoprotein gB. Electron microscopy revealed that the chemokines with a significant anti-HSV-1 activity were commonly capable of generating pores in the envelope of HSV-1. Thus, some chemokines have a significant direct antiviral activity against HSV-1 in vitro and may have a potential role in host defense against HSV-1 as a direct antiviral agent.     

Detection of human serum antibodies against type-specifically reactive peptides from the N-terminus of glycoprotein B of herpes simplex virus type 1 and type 2 by surface plasmon resonance

A single-step surface plasmon resonance protocol for the detection of antibodies against herpes simplex virus type 1 and type 2 (HSV-1, HSV-2) in human sera was established using the BIAcore system. Two peptides from corresponding segments of the N-terminus of HSV-1 and HSV-2 glycoprotein B (gB), i.e. peptide gB-1 (60-73) (GAAPTGDPKPKKNK) and peptide gB-2 (55-68) (SPATTKARKRKTKK), were identified as immunogenic. Employing both peptides as diagnostic antigens in the surface plasmon resonance assay, a sensitivity for the detection of HSV-1 and HSV-2 type-specific antibodies of 83 and 86%, respectively, was achieved as compared with immunoblotting as a reference method. Peptide gB-1 (60-73) allowed the discrimination between HSV-1 and HSV-2 type-specific antibodies with a specificity of 67%, whereas peptide gB-2 (55-68) reacted in a strictly HSV-2 type-specific manner. It is concluded that peptides from the N-terminus of gB-1 and gB-2 are recognized predominantly by human sera in an HSV-specific manner. Peptide gB-2 (55-68) can be employed successfully for the determination of type-specific antibodies against HSV-2.