Spectrum of monoclonal antibodies to coxsackievirus B-3 includes type- and group-specific antibodies.

Fifteen monoclonal antibodies (MAbs) made to coxsackievirus B-3 were tested against a panel of enteroviruses by indirect immunofluorescence. The MAbs included seven which reacted with coxsackievirus B-3 only, five which reacted with more than one enterovirus included in the panel, one which reacted with broad enteroviral specificity and did not react with any heterologous virus (group specific), and two which reacted with all enteroviruses tested and at least one heterologous virus. The group-specific MAb identified 44 of 45 clinical isolates as enteroviruses, while the two broadly reactive MAbs reacted with all 45 of the clinical isolates. These MAbs are potentially important diagnostic reagents for grouping and typing enteroviruses by indirect immunofluorescence.     

Production and partial characterization of monoclonal antibodies to four Chlamydia psittaci isolates.

Monoclonal antibodies (MAbs) were produced to four Chlamydia psittaci isolates: NJ1 and TT3 from turkeys, VS1 from a parakeet, and B577 from an ovine abortion. MAbs were tested for reactivity with each isolate by the indirect immunofluorescent antibody technique and for neutralization by an inclusion reduction neutralization technique in tissue culture. Two genus-specific and 14 serovar-specific MAbs were produced. Genus-specific MAbs reacted with all avian and mammalian isolates; however, each failed to neutralize its homologous chlamydial isolate. Turkey isolates NJ1 and TT3 were antigenically similar; serovar-specific MAbs produced to each reacted equally with both isolates yet showed little or no reaction with other serovars. Serovar-specific MAbs to the parakeet and abortion isolates were distinct; no cross-reactions were seen with other serovars. None of the serovar-specific MAbs reacted with an ovine arthritis isolate. Of the 14 serovar-specific MAbs, 13 partially neutralized homologous strains with or without the addition of complement. Because of the high specificity, the serovar-specific MAbs used with the immunofluorescence technique provided a rapid and precise method to identify three serovars of C. psittaci.     

Occurrence of respiratory syncytial virus subgroup A and B strains in Japan, 1980 to 1987.

The subgroup characteristics of 71 strains of respiratory syncytial virus (RSV) isolated in Sapporo, Japan, during 5 epidemic years from 1980 to 1987 were determined by the use of 17 monoclonal antibodies (MAbs) raised against the RSV Long strain, which is now recognized as the prototype subgroup A strain. Nine of these MAbs immunoprecipitated the fusion protein (F), five immunoprecipitated the large glycoprotein (G), two immunoprecipitated the nucleoprotein (NP), and one immunoprecipitated the phosphoprotein (P). Based on the pattern of reaction of these MAbs to RSV isolates in an indirect immunofluorescence assay, we were able to distinguish two different subgroups. Subgroup A strains reacted to all 17 MAbs. Subgroup B strains reacted to none of the anti-G MAbs, eight of the nine anti-F MAbs, and all anti-NP and anti-P MAbs. Subgroup A included 38 (53.5%) isolates from every epidemic year. Subgroup B included 32 (45.1%) strains isolated in the last 4 epidemic years. One virus strain with an intermediate character of reactivity was isolated in 1983. From the first epidemic year, six subgroup A strains and no B strains were isolated. During the next three annual epidemics, subgroup B strains were predominantly isolated, i.e., 8 of 13, 10 of 13, and 13 of 17 strains. However, in the last epidemic year only one strain of 22 isolates belonged to subgroup B, and the remainder belonged to subgroup A. This variability of dominance in the occurrence of different RSV subgroup strains may suggest a possible role of the subgroup-specific immune response in RSV epidemics.     

Novel monoclonal antibodies that bind to wild and fixed rabies virus strains

Ten monoclonal antibodies (MAbs) against rabies virus, including IgG3κ, IgG2aκ, IgMκ, and an IgG2bκ isotype, were produced and characterized using neutralization, ELISA, immunodot-blot, and immunofluorescence assays. MAb 8D11, which recognized rabies virus glycoprotein, was found to neutralize rabies virus in vitro. When submitted to an immunofluorescence assay, seven MAbs showed different reactivity against 35 Brazilian rabies virus isolates. Three MAbs (LIA 02, 3E6, and 9C7) only failed to recognize one or two virus isolates, whereas MAb 6H8 was found to be reactive against all virus isolates tested. MAbs were also evaluated for their immunoreactivity against fixed rabies virus strains present in human and veterinary commercial vaccines. MAbs LIA 02, 6H8, and 9C7 reacted against all vaccine strains, while the remaining MAbs recognized at least 76% of vaccine strains tested. This research provides a set of MAbs with potential application for improving existing or developing new diagnostic tests and immunoassays.     

Evaluation of monoclonal antibodies for subtyping of currently circulating human type A influenza viruses.

The hemagglutinin subtype specificities of six monoclonal antibodies (MAbs) to influenza type A viruses were evaluated in a rapid culture assay by immunoperoxidase staining. Confluent monolayers of MDCK cells in multiwell plates were inoculated with (i) 23 reference viruses, (ii) 200 isolates collected during the influenza season 1995 to 1996, and (iii) 28 clinical specimens previously found to be influenza virus positive. After overnight incubation, the cells were fixed and stained with MAbs IVA1/B10, IIF4/D3, 12L/5, 13L/6, 18L/1, or 18L/4. Type-specific MAbs were included as controls. All antibodies gave intensive cytoplasmic staining with infected cells in the absence of any reaction with uninfected cells. MAbs 12L/5, 13L/6, 18L/1, and 18L/4 exclusively reacted with viruses of the subtype H1, and the antibodies IVA1/B10 and IIF4/D3 exclusively reacted with viruses of the subtype H3. None of these MAbs reacted with viruses of the H2 subtype or with influenza type B viruses. Of the 200 recent isolates, 63 were identified as influenza virus type A, subtype H1, 95 were identified as type A, subtype H3, and 41 were identified as type B. One isolate contained a mixture of a type A (H3) and a type B influenza virus. Of the 28 previously positive clinical specimens, 15 contained an influenza virus A, subtype H3, 1 contained an influenza virus A, subtype H1, and 9 contained an influenza B virus. The subtype of a very weakly positive specimen could not be determined, and two specimens remained negative. The MAbs described here allow for a rapid typing and subtyping of influenza virus isolates and for the type- and subtype-specific detection of influenza viruses in clinical specimens.     

Antigenic differentiation of avian pneumovirus isolates using polyclonal antisera and mouse monoclonal antibodies

Avian pneumovirus (AVP) isolates F83, CC220 and 1260 from Great Britain and 1556, 657/4, 2119 and 872/S from France, Hungary, Italy and Spain, respectively, were compared in ELISA and virus neutralization (VN) tests for reactions with chicken polyclonal sera against each of the viruses and monoclonal antibodies (MAbs) against two British isolates. ELISA test results using the polyclonal antisera indicated that all seven viruses were antigenically related, but some variation between strains could be detected, especially when antigens were prepared from infected cells using Nonidet P40 (NP40) rather than freezing and thawing. In VN tests results also showed that all viruses tested were related but there was evidence that the three British isolates showed closer relationships with each other than with the viruses from Italy, Hungary and Spain. In ELJSA tests, isolates F83 and 1556 bound all 11 MAbs and 1260 reacted with 10/11 MAbs. Isolate CC220 showed reaction with all the MAbs but for 8/11 MAbs the optical density differences were low. Isolates 2119 and 872/S both reacted only with MAb 4 and none of the MAbs reacted with 657/4.     

云南省澜沧江下游地区虫媒病毒的调查研究

目的 了解云南澜沧江下游地区自然界虫媒病毒流行情况。方法 从云南澜沧江下游地区(澜沧县和思茅市)所属乡村采集蚊虫,分类后保存于液氮。经消毒、研磨、离心等处理后接种组织培养细胞分离病毒,并进行初步鉴定。结果从233份标本中,分离到22株致C6/36细胞病变的病毒,表现为细胞圆化、聚集、脱落。分离阳性率为9.4％(22/233)。经鉴定10株对乙醚和5’-磺脱氧尿苷抵抗,为无包膜双链RNA病毒,核酸电泳为12节段RNA病毒。9株对乙醚敏感,对5’-碘脱氧尿苷抵抗,为有膜RNA病毒,核酸电泳为10条带。Colti病毒95-75单克隆抗体与新分离的12节段RNA病毒的酶联免疫吸附试验(ELISA)和免疫荧光试验呈阳性反应,而与10节段病毒呈阴性反应。3株病毒为对乙醚敏感,其中1株被乙型脑炎病毒A2株免疫腹水中和,并与A2免疫腹水荧光试验呈阳性反应;1株(云南92-4)与布尼亚病毒组特异免疫腹水的荧光试验和ELISA试验均为强阳性,而与甲病毒组特异性免疫腹水及黄病毒组的乙型脑炎病毒免疫腹水均呈阴性反应;经负染在电镜下观察毒粒呈圆形,直径约为(87.00±0.05)nm。外层可见表面突起。结论 从云南澜沧江下游地区采集的蚊标本分离到10株Colti病毒,9株环状病毒,1株为乙脑病毒,1株为布尼亚病毒,1株尚在研究中。     

Epitope mosaic on the surface proteins of orthopoxviruses

Epitopes on the surface components of orthopoxviruses were analyzed with monoclonal antibodies (MAbs) against monkeypox and vaccinia viruses by enzyme-linked immunosorbent assay (ELISA), Western blotting (WB), radioimmunoprecipitation (RIP), and competitive binding inhibition assay (CBIA). When compared by ELISA, three vaccinia virus strains exhibited a similar reactivity to 99 tested MAbs despite their remote passage history. All five isolates of monkeypox virus closely resembled one another, irrespective of the host species (human, monkey, squirrel) from which they were isolated. Taterapox virus reacted similar to vaccinia virus against 97 of the 99 tested MAbs, and reacted with 2 MAbs which were cross-reactive with monkeypox and mousepox. Mousepox and cowpox viruses reacted with these MAbs in a species-specific manner: MAbs reactive to cowpox virus distinctly differ from those reactive to mousepox virus. Of the 99 tested MAbs, 32 reacted with all the 11 tested orthopoxviruses, indicating that the corresponding epitopes existed in all the viruses. Fifty-four MAbs reacted with two or more virus species and were classified as partially common MAbs. Eight MAbs were apparently type-specific for monkeypox, and five were specific for vaccinia and taterapox viruses. No strain-specific epitope was detected. Sera of monkeypox-infected patients, when analyzed by CBIA, interfered with the binding of monkeypox-specific MAb H12C1 but not of vaccinia-specific MAb G6C6. Sera of monkeypox-infected patients who had been vaccinated competed against both MAbs, demonstrating the original antigenic sin phenomenon. The two MAbs could distinguish between the sera of monkeypox patients and those of vaccinated persons. However, the serum of a smallpox patient was competitive against these apparently vaccinia- or monkeypox-specific MAbs. Three of the eight monkeypox-specific epitopes were recognized by the above CBIA test, which suggests that they also exist in smallpox virus. The mosaic-like combination of common epitopes and the small number of type-specific epitopes manifested the antigenic characteristics of orthopox viruses. The species boundary was obscured due to the partially common epitopes, but the total composition of epitopes was stable enough to maintain the antigenic species-specificity. The mutual relationship of the orthopoxviruses was visualized in a three-dimensional network.     

Antigenic variation of human RSV strains isolated in Japan

Antigenic variations of respiratory syncytial virus (RSV) strains were analyzed using a collection of nine, seven, two, and one monoclonal antibodies (MAbs), respectively, raised against the fusion protein (F), large glycoprotein (G), nucleoprotein (NP), and phosphoprotein (P) components of the Long strain of RSV. Competitive binding assay by these MAbs demonstrated eight, four, and two distinct epitopes on F, G, and NP components, respectively. Comparison of prototype Long with ten field strains isolated in Sapporo, Japan, during a 9-year period from 1980 to 1988 by radioimmunoprecipitation (RIP), immunofluorescence (IF), and enzyme-linked immunosorbent assay (ELISA) test revealed four different patterns of reaction to these MAbs. Thus, prototype Long reacted to all 19 MAbs. Six field strains have shown a different reactivity to one of nine anti-F and to one of seven anti-G antibodies (subgroup A). Three of the remaining isolates failed to react with three of nine anti-F and with all of seven anti-G antibodies (subgroup B). One strain (58-104) isolated in 1983 was similar to subgroup A except for a lack of reaction with two anti-G antibodies. All field strains reacted with two anti-NP and one anti-P antibodies. The numbers of altered epitopes in subgroup A were 1/8 and 1/4; in subgroup B, 3/8 and 4/4; and in 58-104, 1/8 and 2/4 on the F and G components, respectively. No other variations have been observed among field isolates tested.     

Characterization of monoclonal antibodies against feline infectious peritonitis virus type II and antigenic relationship between feline,porcine, and canine coronaviruses

Summary Seven monoclonal antibodies (MAbs) with neutralizing activity against feline infectious peritonitis virus (FIPV) strain 79-1149 (type II) were prepared. When the polypeptide specificity recognized by these monoclonal antibodies (MAbs) was investigated by Western immunoblotting, all of the MAbs reacted with peplomer glycoprotein (S) of the virus. By competitive binding assay these MAbs were found to recognize at least 3 different epitopes. The reactivity of these MAbs with 6 viruses classified as FIPV type I (UCD-1, UCD-2, UCD-3, UCD-4, NW-1, and Black), feline enteric coronavirus (FECV) type II strain 79-1683, canine coronavirus (CCV) strain 1-71, and transmissible gastroenteritis virus (TGEV) strains TO-163 and SH was examined by neutralization tests. All MAbs neutralized FECV strain 79-1683, CCV strain 1-71, and TGEV strains TO-163 and SH, while they did not neutralize the 6 FIPV type I viruses. Moreover, the MAb against TGEV strain TO-163, which has strong neutralizing activity against 7 TGEV viruses, neutralized CCV strain 1-71, FECV strain 79-1683, and FIPV strain 79-1146, but did not neutralize the 6 FIPV type I viruses.These results demonstrated that there are at least 3 epitopes involved in the neutralization of FIPV type II strain 79-1146, and that these epitopes are not present in FIPV type I viruses but are present in FECV strain 79-1683 which does not induce feline infectious peritonitis, TGEV strains TO-163 and SH, and CCV strain 1-71. These results suggest the presence of 2 serotypes of FIPV which can be clearly distinguished by the neutralization test using MAbs.     

Neutralizing monoclonal antibody against enterovirus-70 reacts with viral proteins 1C and 1D.

A library of murine monoclonal antibodies against the prototype Enterovirus-70 (EV-70) strain, J670/71, was made for the purpose of studying the immunologically reactive determinants of the virus. Each of the monoclonal antibodies reacted with several other strains of Enterovirus-70 when tested by immunofluorescence. However, none of these monoclonal antibodies reacted with any other picornavirus tested. It was found that all of the monoclonal antibodies precipitated EV-70 viral proteins 1C and 1D in radio-immunoprecipitation assays. However, only one of these monoclonal antibodies, an IgG3 kappa, was capable of neutralizing the virus.     

A characterization of epitopes on potato leafroll virus coat protein

Summary A panel of ten stable hybridoma cell lines secreting monoclonal antibodies (MAbs) specific for potato leafroll virus (PLRV) antigen, was produced in two fusion experiments with murine splenic and myeloma cells. Using different ELISA procedures and Western blotting it was shown that one MAb detected a continuous epitope and nine MAbs reacted with conformation-dependent ones. The conformation-dependent epitopes could be separated into two groups after alkaline treatment of the virions. The MAbs were further differentiated in competitive binding assays. Within the group of MAbs reacting with epitopes not sensitive to alkaline degradation, only two MAbs were directed to the same epitope. The MAbs detecting epitopes formed by the quaternary protein structure or by a protein subunit configuration sensitive to alkaline degradation, displayed positive cooperative binding among each other. In total, a minimum number of nine different, but overlapping, epitopes on the PLRV coat protein could be revealed.The immune response to PLRV antigen in rabbit appeared to be directed mainly towards epitopes recognized by three MAbs.Most MAbs displayed heterologous reactivity to other luteoviruses, i.e., tomato yellow top virus (TYTV), beet western yellow virus (BWYV), beet mild yellowing virus (BMYV), bean leafroll virus (BLRV), and different strains of barley yellow dwarf virus. Three MAbs solely reacted with PLRV and TYTV. Six MAbs gave different reaction patterns in these tests; one of these MAbs differentiated BMYV from BWYV, and another detected a common epitope on PLRV and BLRV, a serological relationship not reported previously to our knowledge.     

Isolation of mutants of Aujeszky's disease virus with antigenically altered glycoprotein E by affinity chromatography using monoclonal antibodies

An efficient method for isolation of virus mutants with antigenically altered proteins is described. The method is based on the separation of viruses with wild-type and antigenically altered proteins by affinity chromatography using monoclonal antibodies (MAbs). A nonessential glycoprotein E (gE) of Aujeszky's disease virus (ADV) was chosen as a model for introducing the antigenic changes. The ADV strain Ka mutagenised with 5-bromo-2'-deoxyuridine was used for the selection of mutants that do not bind to gE-specific MAb conjugated to resin. After three rounds of isolation by affinity chromatography, the resulting viruses that escape the binding to MAb were plaque-purified by plating at limiting dilution, and virus isolates were tested by the gE-specific sandwich ELISA in which the selecting MAb was used as a capture antibody. About 70% of the ADV isolates tested were not recognised by the sandwich gE-ELISA. The analysis of some of virus isolates in indirect ELISA with a panel of 16 gE-specific MAbs revealed that at least several of the generated virus isolates were mutants expressing gE with alterations in the epitope of the selecting MAb 75/7, as well as in the majority of other conformation-dependent epitopes of gE. The method for the production of antigenically altered viruses by affinity chromatography using MAbs is simple and convenient, and can be utilised with MAbs irrespective of their virus-neutralising activity.     

Characterization of Finnish Borrelia burgdorferi sensu lato isolates by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and with monoclonal antibodies.

Thirty-seven Borrelia burgdorferi strains, isolated in 1992 from Ixodes ricinus in Finland, were investigated by sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) and by immunoblotting and indirect immunofluorescence assay (IFA) with five to nine monoclonal antibodies (MAbs). By SDS-PAGE results and reactivities to MAbs H3TS, J 8.3, I 17.3, and D6, the 37 isolates were assigned to the species B. burgdorferi sensu stricto (n = 7), Borrelia afzelii (n = 17), or Borrelia garinii (n = 13). Twenty more isolates examined only by IFA and with part of the MAbs were distributed as follows: 9 B. burgdorferi sensu stricto and 11 other species. Among 16 of 37 isolates displaying a SDS-PAGE patterns considered typical of that of B. garinii, 3 were negative by the test with MAb D6; the rest were positive. The three MAb D6-negative isolates reacted with MAb J 8.3 but not with MAb I 17.3. It is suggested that these isolates of a previously undescribed type represent atypical B. afzelii strains deficient in the expression of OspB proteins. The misleading species designation by the SDS-PAGE result is described. The IFA results were generally consistent with those obtained by immunoblotting. The exception was for 3 of 29 isolates that were positive with MAb H5332 by immunoblotting but that were IFA negative. In the present material of 57 strains, all 16 B. burgdorferi sensu stricto isolates originated from the Aland Islands. B. afzelii and B. garinii were isolated from all three regions where ticks were collected. The distributive difference seems to offer a basis for comparative clinico-epidemiological studies of Lyme borreliosis.     

Genetic Basis for Immunological Aberrations in Poliovirus Sabin Serotype 3 Strains Imported in The Netherlands

During the characterization of poliovirus type 3 strains imported in The Netherlands, Sabin serotype 3 strains that reacted with both specific antisera against Sabin-like (vaccine) and non-Sabin-like (wild-type) strains by the intratypic strain differentiation assay have been found. The present study was done to determine the pathogenic potential of these virus strains for humans. Characterization of these so-called double-reactive strains with neutralizing monoclonal antibodies (MAbs) against the major antigenic sites of serotype 3 Sabin virus led to the identification of two groups with different antigenic properties. Six of the seven strains were resistant to neutralization with MAbs against sites 2B and 3B and one strain was neutralized by all the MAbs in a manner similar to that for the Sabin serotype 3 virus. Partial sequencing of the coding regions confirmed the antigenic changes for all six antigenically distinct strains. By inoculation of these viruses into transgenic mice which express the human poliovirus receptor, one strain was identified as highly neurovirulent, three were identified as intermediate, and three were identified as attenuated. Sera from vaccinated persons efficiently neutralized the mutants. Our data suggest that some double-reactive strains are a potential risk to the unvaccinated community but not to the vaccinated population.     

Monoclonal antibodies to tick-borne encephalitis (TBE) virus: their use for differentiation of the TBE complex viruses.

Monoclonal antibodies (MoAbs) to Central European tick-borne encephalitis virus (strain Hypr) were used for differentiation of eight viruses of the TBE complex by indirect immunofluorescence. MoAb 11/B3 (in Western blot recognizing 52 and 70 kD polypeptides) reacted with five out of the eight TBE complex viruses, MoAb 13/E5 (anti-52 kD protein) reacted with the western or eastern subtype of TBE virus only, while MoAb 12/G4 (anti-70 kD protein) distinguished the western subtype of TBE virus from the rest of the TBE complex. These three MoAbs were able to differentiate the virulent strain Hypr from attenuated strains Skalica and Hy-HK-18-"3". MoAb 2/10C (anti-56 and 70 kD proteins) which reacted with all viruses of the TBE complex, recognized both virulent and attenuated strains of TBE virus.     

Antigenic variations in bovine viral diarrhea viruses detected by monoclonal antibodies.

Five murine monoclonal antibodies (MAbs) against the NADL strain of bovine viral diarrhea (BVD) virus were developed, identified, and characterized. Four of the MAbs were directed against a 53-kilodalton (kDa) viral protein, and one was specific to a 47-kDa polypeptide. Competitive radioimmunoassay showed that two MAbs were specific to related epitopes of the 53-kDa protein, and the other three MAbs were each specific to a different epitope. The MAbs were used to study heterogeneity among BVD virus strains. Various degrees of reactivity of cytopathic and noncytopathic virus isolates were detected by virus neutralization and immunofluorescence assays. The virus isolates were divided into six groups based on the neutralization test. The results indicated that the 53-kDa glycoprotein of BVD virus is the major protein involved in virus neutralization and that only a few epitopes of the protein contribute to the neutralization. None of the MAbs neutralized all the BVD virus isolates tested in this study, suggesting antigenic variations among BVD virus isolates.     

Cross-reactive and group-specific immune responses to a neutralizing epitope of the human respiratory syncytial virus fusion protein

Summary.  Immune responses to a synthetic peptide corresponding to amino-acids 205–225 of the fusion protein from group B respiratory syncytial (RS) virus, were studied in mice and rabbits, and compared to a similar peptide from group A RS virus. Peptide 205–225 (B) was recognized by monoclonal anti-body RS-348, and was immunogenic in both mice and rabbits, as was peptide 205–225 from the fusion protein of a group A strain. Peptide 205–225 (B) induced a proliferative T-cell response, demonstrating the existence of a T-cell epitope in this region of the fusion protein of group B viruses. Both peptides were able to induce a T-cell cross-reactive proliferation when mice were primed with either the homologous or the heterologous peptide. ELISA were performed using synthetic peptides or whole virus (from group A and B) as antigens. Mice anti-peptide sera recognized both homologous and heterologous peptides. A similar pattern was observed with RS virus strains. In indirect immunofluorescence assays, both anti-peptide rabbit sera recognized human nasal epithelial cells infected with A or B strains of RS virus. In contrast, while anti-peptide 205–225 rabbit serum from group A neutralized group A and B strains of RS virus, anti-peptide 205–225 rabbit serum from group B was unable to neutralize a group A virus, although it neutralized a group B strain. These results are similar to the immune response observed in children following primary RS virus infection. Accepted January 22, 1997 Received July 25, 1996     

Epitope analysis of capsid and matrix proteins of North American ovine lentivirus field isolates.

Monoclonal antibodies (MAbs) directed against two phenotypically distinct ovine lentivirus (OvLV) strains were generated by fusion of BALB/c SP2/0-Ag 14 myeloma cells with spleen cells from mice immunized with purified OvLV. Hybridomas were selected by indirect enzyme-linked immunosorbent assay (ELISA) and analysis of reactivity on immunoblots. The majority (17 of 21) of the MAbs recognized the gag-encoded capsid protein, CA p27, of both strains. Four other MAbs recognized a smaller structural protein, presumably a matrix protein, MA p17. Three distinct epitopes on CA p27 and one on MA p17 were distinguished by the MAbs with competition ELISA. MAbs from each epitope group were able to recognize 17 North American field isolates of OvLV and the closely related caprine arthritis-encephalitis virus (CAEV). Analysis of the data indicated that these epitopes were highly conserved among naturally occurring isolates. A representative MAb from each epitope group of anti-CA p27 MAbs reacted with four field strains of OvLV and CAEV on immunoblots. An anti-MA p17 MAb recognized the same OvLV strains on immunoblots but failed to recognize CAEV. MAbs which recognize conserved epitopes of gag-encoded lentivirus proteins (CA p27 and MA p17) are valuable tools. These MAbs can be used to develop sensitive diagnostic assays and to study the pathogenesis of lentivirus infections in sheep and goats.     

Epitope mapping of dengue 1 virus E glycoprotein using monoclonal antibodies

Summary Ten monoclonal antibodies (MAbs) were raised against dengue 1 (DEN 1, Hawaii) virus E glycoprotein. Specificity of the MAbs was tested by ELISA and immunofluoresence. Eight were DEN 1 type-specific, one was DEN group-reactive (DGR) and one was flavivirus cross-reactive (FCR). Two of these type specific MAbs exhibited haemagglutination-inhibition (HI) and neutralized (N) DEN 1 virus in vivo (HS). These two MAbs showed 100% protection against a challenge of 100 LD₅₀ of DEN 1 virus in adult Swiss albino mice. The remaining six MAbs were HI negative, N negative and non-protective against challenge (NHS). Of these only three were reactive in the CF test. The DGR, FCR and one of the NHS MAbs (NHS-3) did not react with DEN 1 virus grown in Vero cells, whereas they reacted with DEN 1 virus grown in LLC-MK2 and C6/36 cells in immunofluorescence, probably indicating a difference in the synthesis/processing of viral proteins in these different cell lines. An epitope map of the E gp was drawn using a computer programme based on the additivity index values. The epitope map delineated five domains, a) S-I representing type-specific, HI positive, N positive and protecting MAbs. b) S-II representing type-specific, HI negative, N negative MAbs. c) S-III representing type-specific HI/N negative MAb, but distinct from S-II. d) DGR representing HI/N negative DEN group reactive MAb. e) FCR representing HI/N negative flavivirus cross-reactive MAb. Epitope analysis of a number of different DEN 1 strains isolated in India over a period of 30 years showed that the domains S-II and S-III which react with HI negative, DEN-1 specific MAbs were variable. The DGR domain and the S-I domains were conserved.