Identification of epitopes on the envelope (E) protein of dengue 2 and dengue 3 viruses using monoclonal antibodies

Summary.  Of a panel of forty-six anti-dengue 3 monoclonal antibodies (MAbs) only three neutralised infection of BHK cells by dengue 3 virus. Attempts to select neutralisation escape mutants (n.e.m.) with two of these antibodies failed. The n.e.m. population selected in the presence of the third neutralising antibody, 1H9, had a nucleotide change at position 1157 of the E protein gene resulting in a non-conservative amino acid change at E386 for a Lys to an Asn. A dengue 2 n.e.m. was selected with the flavivirus crossreactive IgG monoclonal antibody 4G2, had deduced amino acid changes at E169 (Ser to Pro) and E275 (Gly to Arg). This dengue 2 n.e.m. population produced smaller plaques in BHK cells than the parental virus, decreased fusion activity (FFWI) and had lost the ability to agglutinate gander erythrocyes at pH 6.0 to 6.7. Received February 28, 2001 Accepted July 6, 2001     

Epitopes on the dengue 1 virus envelope protein recognized by neutralizing IgM monoclonal antibodies

Three of 41 IgM monoclonal antibodies derived from dengue 1 virus immunized mice neutralized dengue 1 infection in vitro. All three neutralizing monoclonal antibodies reacted with spatially related epitopes on the E protein of dengue 1 which were also recognized by antibodies in sera from dengue patients. Two neutralization-resistant populations of dengue 1 virus, D1-M10 and D1-M17, were selected by sequential passage of virus in C6/36 cells in the presence of neutralizing IgM monoclonal antibodies M10 and M17, respectively. Single nucleotide changes occurred in the E protein gene of each of these virus populations resulting in single amino acid substitutions at E279 (Phe-Ser) in D1-M10 and at E293 (Thr-Ile) in D1-M17. Both neutralization-resistant populations of virus were more sensitive to elevated temperature than was the wild-type dengue 1 virus and the infectivity and haemagglutinating ability of the neutralization-resistant populations decreased more slowly than that of wild-type virus when exposed to pH in the range 5.8 to 7.0. These are the first epitopes involved in neutralization to have been identified in dengue 1 virus and the first outside domain III of the E protein on any dengue virus.     

Analysis of epitopes in the capsid protein of avian hepatitis E virus by using monoclonal antibodies

Avian hepatitis E virus (HEV) is related genetically and antigenically to human and swine HEVs and capsid protein of avian HEV shares approximately 48-49% amino acid sequence identities with those of human and swine HEVs. Six monoclonal antibodies (MAbs) were produced and used to locate different epitopes in the ORF2 region of aa 339-570 of avian HEV Chinese isolate. The results showed that five epitopes were located in the aa 339-414 region and one in the aa 510-515 region. Two epitopes located in aa 339-355 and aa 384-414 regions are the immunodominant epitopes on the surface of the avian HEV particles as demonstrated by immune capture of viral particles and immunohistochemical detection of the ORF2 antigens with two MAbs.     

Serologically defined linear epitopes in the envelope protein of dengue 2 (Jamaica strain 1409)

Summary Antisera from dengue patients and dengue virus infected rabbits recognized octapeptides corresponding to linear amino acid sequences in the envelope protein of dengue 2 (Jamaica 1409). Although no peptide was recognized by sera from all dengue infected hosts, two peptides (²¹⁶LPLPWLPG²²³ and⁴⁴⁸FSGVSWTM⁴⁵⁵) were recognized by sera from all dengue 2 infected rabbits. One of these⁴⁴⁸FSGVSWTM⁴⁵⁵ was also recognized by sera from both the dengue 2 patients tested. No peptides were identified which reacted exclusively with all dengue 2 infected animals. Use of a mouse monoclonal antibody (1B7) enabled identification of two regions (⁵⁰AKQPATLR⁵⁷ and¹²⁷GKVVLPEN¹³⁴) and possibly a third (³⁴⁹GRLITVNP³⁵⁶) in the envelope protein of dengue 2 likely to be involved in haemagglutination inhibition and virus neutralization in vitro.     

Characterization of dengue complex-reactive epitopes on dengue 3 virus envelope protein domain III

The disease dengue (DEN) is caused by four genetically and serologically related viruses termed DENV-1, -2, -3, and -4. The DENV envelope (E) protein ectodomain can be divided into three structural domains designated ED1, ED2, and ED3. The ED3 contains the DENV type-specific and DENV complex-reactive (epitopes shared by DENV 1-4) antigenic sites. In this study the epitopes recognized by four DENV complex-reactive monoclonal antibodies (MAbs) with neutralizing activity were mapped on the DENV-3 ED3 using a combination of physical and biological techniques. Amino acid residues L306, K308, G381, I387, and W389 were critical for all four MAbs, with residues V305, E309, V310, K325, D382, A384, K386, and R391 being critical for various subsets of the MAbs. A previous study by our group (Gromowski, G.D., Barrett, N.D., Barrett, A.D., 2008. Characterization of dengue complex-specific neutralizing epitopes on the envelope protein domain III of dengue 2 virus. J. Virol 82, 8828-8837) characterized the same panel of MAbs with DENV-2. The location of the DENV complex-reactive antigenic site on the DENV-2 and DENV-3 ED3s is similar; however, the critical residues for binding are not identical. Overall, this indicates that the DENV complex-reactive antigenic site on ED3 may be similar in location, but the surprising result is that DENV 2 and 3 exhibit unique sets of residues defining the energetics of interaction to the same panel of MAbs. These results imply that the amino acid sequences of DENV define a unique interaction network among these residues in spite of the fact that all flavivirus ED3s to date assume the same structural fold.     

Identification of individual antigenic epitopes of the envelope protein in the tick-borne encephalitis virus using monoclonal antibodies]

A variant analysis of virus antigens of tick-borne encephalitis complex was carried out by enzyme immunoassays and topographic mapping of this protein using a panel of monoclonal antibodies to the structural glycoprotein of tick-borne encephalitis (TBE) virus of the Far East subtype. The results of the study confirmed the existence on the structural protein of both identical determinants typical of all the antigens of the complex and of subgroup-specific determinants. The topological analysis of the epitopes binding monoclonal antibodies revealed 3 separate domains possessing different functional properties. The results of topological mapping and immune typing of TBE virus antigen were compared.     

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.     

Expression of myelin basic protein (MBP) epitopes in human non-neural cells revealed by two anti-MBP IgM monoclonal antibodies

Two monoclonal antibodies (1H6.2 and 45.30) were raised against MBP purified from human brain under experimental conditions that allowed MBP to retain binding to surrounding myelin lipids (human lipid-bound MBP (hLB-MBP)). 1H6.2 and 45.30 MoAbs were selected on the basis of their different binding properties to: hLB-MBP, human lipid-free-MBP (hLF-MBP) and bovine lipid-free-MBP (bLF-MBP). Although the isotype of both MoAbs was IgM, their specificity, as tested in ELISA assays against chemical haptens and unrelated protein antigens, was restricted to MBP. 1H6.2 and 45.30 MoAbs stained MBP from human brain white matter tissue extracts, as well as bLF-MBP, in Western blot assays. Both MoAbs stained oligodendrocytes and myelin in immunohistochemical analysis of white matter from human brain. Tissue sections from human peripheral nerves were labelled by 1H6.2 only, however, demonstrating that the MoAbs recognize two different epitopes. Epitopes recognized by 1H6.2 and 45.30 MoAbs were also expressed by a wide array of human non-neural cells of either normal or pathological origin, as evidenced by cytofluorimetric assays. In particular, MBP epitopes (MEs) were expressed by lymphoid cells as well as by cells which play a pivotal role in immune homeostasis and in the immune response, such as thymic epithelial cells and professional antigen-presenting cells. Both MoAbs were efficiently internalized by cells from a human B cell line, suggesting trafficking of MEs along the endocytic pathways. These findings support hypotheses regarding the role of MEs expressed by non-neural cells in establishing self-tolerance and/or in triggering the immune response against MBP antigen.     

Mapping of epitopes of VP2 protein of chicken anemia virus using monoclonal antibodies

To map the epitopes of VP2 protein of chicken anemia virus (CAV), VP2 was expressed as a fusion protein in Escherichia coli BL21 (DE3). The Western blot demonstrated that recombinant VP2 protein could be recognized by sera of chickens infected with CAV. Female BALB/c mice were immunized with purified recombinant VP2 produced in E. coli BL21 (DE3) and seven VP2-specific monoclonal antibodies (MAbs) were developed. The results of Western blot showed that all the seven MAbs recognized the recombinant VP2 protein expressed in the baculovirus and reacted with MDCC-MSB1 cells infected with CAV by indirect immunofluorescence assay. The VP2 protein was dissected into 21 overlapping fragments, expressed as fusion peptides in E. coli and used for epitope mapping by pepscan analysis. ELISA and Western blot assays indicated that most of MAbs reacted with the 12th and 13th fragments (amino acids 111-136) and one of them reacted with the 3rd fragment (amino acids 21-36). The linear immunodominant epitope of VP2 was located mainly in amino acid residues 111-126 and 121-136.     

Mapping epitopes on the insulin molecule using monoclonal antibodies

A panel of 18 monoclonal antibodies (mAb) delta to insulin have been prepared and used to begin to map antigenic determinants on the insulin molecule. All 18 mAb were of the IgG class, with 14 IgG1, 2 IgG2a and 2 IgG2b. The affinities of these mAb for their immunizing insulin ranged from 1 X 10(6) to 3 X 10(8) 1/M. The epitope recognized by three of the mAb, 1, 7 and 16 involves the three residues of the A chain, A 8-10, the so called A chain-loop determinant. This A chain loop is one of the most evolutionarily diverse regions of insulins from different species. Another mAb, 10, has been hypothesized to recognize a nearby epitope composed of the A chain residues, A4 and A8 and a B chain residue, B29, that are adjacent on the surface of the insulin molecule. Four of the mAb bind to synthetic B chain. The epitopes recognized by these 4 mAb and the last 10 mAb are unknown but the mAb are grouped according to their ability to bind to different species of insulin or proinsulin. The results of an 18 X 18 matrix analysis of pairs of mAb binding simultaneously to insulin indicate that, despite the finding that some mAb see similar antigenic sites on the insulin molecule, each of the mAb recognizes a unique site on the insulin molecule. Finally, a lower estimate of the number of possible antibodies made to insulin has been calculated to be greater than or equal to 115, a number only 10-fold lower than the lower limit of antibodies made to dinitrophenyl (DNP) or (4-hydroxy-5-iodo-3-nitrophenyl)acetyl (NIP), following hapten protein immunization.     

Quantitative measurement of human immunoglobulin E using monoclonal antibodies to distinct epitopes

Monoclonal antibodies (MAb) which recognize distinct epitopes on human immunoglobulin E have been used to develop two-site sandwich radio- and enzyme-linked immunoassays for the quantitation of human IgE. In the first step, a purified anti-IgE MAb coated to polyvinyl or polystyrene microtiter plates specifically bound the IgE contained in the samples. In the second step, another anti-IgE MAb (either iodinated or conjugated to beta-galactosidase) directed to a different antigenic determinant was used to estimate the amount of bound IgE. This simple method permitted the determination of IgE concentrations of 10 ng/ml and greater in about 3 h. Coefficients of variation on a single day did not exceed 7.5% for IgE levels, covering a wide range of the standard curve. The values obtained on serum samples showed a good correlation with those obtained using the paper radioimmunosorbent test (PRIST).     

Study of the distribution of antibody-dependent enhancement determinants on dengue 2 isolates using dengue 2-derived monoclonal antibodies

Dengue 2 (DEN-2) strains isolated from children during the 1980 metropolitan Bangkok epidemic were shown to possess antigenic homogeneity when studied for determinants mediating antibody-dependent infection enhancement using DEN-2 monoclonal antibodies. All isolates possessed multiple enhancing determinants, but those associated with mild and severe dengue syndromes could not be distinguished. Either the basis of disease severity in dengue is more complex than the mere presence or absence of virus epitopes involved in enhanced infection or enhancing epitopes have differences not detected in this system with monoclonal antibodies raised to the same serotype.     

Characterization of two epitopes on insulin using monoclonal antibodies

Three monoclonal antibodies (MAb), 21 (IgG1), I10 (IgG1) and H38 (IgG2b), to insulin have been tested for cross-reactivity with 11 species variants of insulin and three of proinsulin. Correlations of differences of reactivities between the MAb and the species variants of insulin with the respective amino acid sequences of the latter have permitted the identification of two epitopes recognized by the MAb which encompass the regions in the A- and B-chains of insulin subject to frequent evolutionary amino acid substitutions. MAb 21 and H38 are directed to an epitope which includes residues B27-30 and A1 or A4 and can discriminate between human and pig insulins which differ only at B30. MAb 21 reacts with human (B30 thr) but not with pig (B30 ala) insulins, whereas MAb H38 exhibits a reciprocal specificity. Neither MAb 21 nor MAb H38 react with human or pig proinsulins respectively indicating that the presence of the C-peptide joining A1 to B30 masks the epitope. MAb 21 reacts with human insulin 125I-labeled at tyr A14 but not B26 suggesting that incorporation of the I atom at B26 also masks the epitope. MAb I10 is directed to an epitope which includes A8-10 and A4 or B3 with a specificity for the human A8-10 sequence. MAb I10 reacts with human proinsulin and human insulin 125I-labeled at either tyr A14 or B26.     

Characterization of epitopes for virus-neutralizing monoclonal antibodies to Ross River virus E2 using phage-displayed random peptide libraries

Ross River virus (RRV) is the predominant cause of epidemic polyarthritis in Australia, yet the antigenic determinants are not well defined. We aimed to characterize epitope(s) on RRV-E2 for a panel of monoclonal antibodies (MAbs) that recognize overlapping conformational epitopes on the E2 envelope protein of RRV and that neutralize virus infection of cells in vitro. Phage-displayed random peptide libraries were probed with the MAbs T1E7, NB3C4, and T10C9 using solution-phase and solid-phase biopanning methods. The peptides VSIFPPA and KTAISPT were selected 15 and 6 times, respectively, by all three of the MAbs using solution-phase biopanning. The peptide LRLPPAP was selected 8 times by NB3C4 using solid-phase biopanning; this peptide shares a trio of amino acids with the peptide VSIFPPA. Phage that expressed the peptides VSIFPPA and LRLPPAP were reactive with T1E7 and/or NB3C4, and phage that expressed the peptides VSIFPPA, LRLPPAP, and KTAISPT partially inhibited the reactivity of T1E7 with RRV. The selected peptides resemble regions of RRV-E2 adjacent to sites mutated in neutralization escape variants of RRV derived by culture in the presence of these MAbs (E2 210-219 and 238-245) and an additional region of E2 172-182. Together these sites represent a conformational epitope of E2 that is informative of cellular contact sites on RRV.     

Production and characterization of mouse monoclonal antibodies reactive to Chikungunya envelope E2 glycoprotein

Chikungunya fever is an arbovirosis of major impact in public health in Asia and Africa. Chikungunya (CHIK) virus is member of the genus Alphavirus and belongs to the Semliki Forest (SF) antigenic complex. We describe for the first time a panel of monoclonal antibodies (MAbs) reactive to CHIK envelope E2 glycoprotein. For the screening of E2-specific MAbs, we expressed a recombinant soluble CHIK E2 protein in Drosophila S2 cells. Analyzed by immunological methods, MAbs 3C3, 3E4, and 8A4 were selected on the basis of their reactivity. Their epitopes are located to the outer surface of CHIK virion. These MAbs have no cross reactivity with related members of SF antigenic complex with the notable exception of Igbo-Ora virus. Anti-CHIK E2 MAbs 3C3, 3E4, and 8A4 should be helpful for studying the biology of CHIK virus and pathogenesis of disease. The combination of 8A4 and 3E4 is suitable for developing a specific antigen-capture ELISA.     

我国登革2型病毒43株包膜E蛋白MBP-B165抗原性的研究

目的 通过对我国登革2型病毒株包膜E蛋白包括B区在内的第267－432氨基酸编码基因片段的表达,研究MBP－B165蛋白的抗原性。方法 首先采用PCR方法扩增了编码B165蛋白的基因片段,并将其插入到pMal－C2核载体进行融合表达。采用蛋白印迹和ELISA法对表达产物进行特异性鉴定。用表达的融合蛋白MBP－B165免疫大白兔,产通过ELISA法检测兔免疫血清中登革2型病毒特异的抗体。结果 表达的融合蛋白MBP－B165可与我国登革2型病毒株抗体特异结合,而且与登革1、3和4型病毒参考株的多克隆抗体均具有较高的反应性。用表达蛋白免疫大白兔可产生针对我国登革2型病毒株E蛋白的特异抗体,并且该抗体与基他3个型病毒参考株有交叉反应。结论 我国登革2型病毒43株E蛋白包括B区在内的第267－432氨基酸序列具有一定的抗原性,而且具有黄病毒亚组特异的反应性表位,即4个型登革病毒的结构保守性表位。     

Differentiation of hepatitis B virus genotypes D and E by ELISA using monoclonal antibodies to epitopes on the preS2-region product

An enzyme-linked immunosorbent assay (ELISA) has been described for serological determination of hepatitis B virus genotypes, using monoclonal antibodies (mAb) against seven distinct epitopes (b, m, k, s, u, f and g) on the preS2-region products of hepatitis B surface antigen (HBsAg). The usefulness of this method for serological detection of genotype E, however, was theoretical, because no HBsAg samples of this genotype were included in the original test panel. Moreover, the predicted serotype of genotype E (bksufg) closely resembled that of genotype D (bksu, bksuf or bksug). Four HBsAg samples of genotype E were tested by the original described ELISA. The epitope g, predicted to be present in these samples by amino acid sequences, was not detected when HBsAg of genotype E was captured on a solid phase by mAb to the common determinant 'a' of HBsAg and then reacted with mAb to g (5156) labeled with horseradish peroxidase. However, the four examples of HBsAg of genotype E were captured by mAb 5156 to g on a solid phase; they were then detected by labeled mAb to the common determinant 'a'. Since epitopes f and g co-occurred on HBsAg of genotype E, HBsAg samples of this genotype were also detected, by 'sandwiching' them between immobilized mAb to g and labeled mAb to f. By contrast, HBsAg of genotype D in 90 sera was not reactive when sandwiched between mAb to f and g. Thus, this modified ELISA enables the serological determination of all six genotypes of HBsAg and, by inference, of hepatitis B virus.     

Identification of an epitope on the dengue virus membrane (M) protein defined by cross-protective monoclonal antibodies: design of an improved epitope sequence based on common determinants present in both envelope (E and M) proteins

Summary.  The protective capacity of monoclonal antibodies (MAbs) generated to the dengue-2 virus envelope (E) and premembrane (prM) proteins was tested in vivo. Two anti-E MAbs, 2C5.1 and 4G2 and two anti-prM MAbs, 2A4.1 and 2H2 provided cross-protection against all four dengue virus serotypes. Overlapping sets of synthetic peptides spanning amino-acid sequence 301–401 (domain III) of the E protein and the entire prM protein were then used to locate their epitopes. The anti-E MAbs strongly reacted with the peptide sequence 349-GRLITVNPIVT-359 (E349–359) from domain III and the immunodominant epitope, 274-SGNLLFTGHL-283 (E274–283) from the hinge region between domains I and II. The anti-prM MAbs strongly reacted with the sequence, 40-PGFTVMAAIL-49 (M40–49) from the first membrane-spanning domain of the M protein. These anti-prM MAbs also reacted with peptides E274–283 and E349–359, while the anti-E MAbs reacted with a peptide sequence, 1-FHLTTRNGEP-10 from the prM protein and these cross-reactions with both proteins were confirmed using immunoblot assays. MAbs 2C5.1, 4G2 and 2H2 more strongly reacted with an MEH1 peptide GLFTPNLITI, which was designed as an antigenic hybrid between these E and prM peptide sequences, than with any of these natural peptide sequences. These peptide sequence will now be tested for their ability to generate cross-protective antibodies against each dengue virus serotype when delivered with appropriate T-helper epitopes. Accepted August 13, 1999     

Production of human monoclonal IgG and IgM antibodies with anti-D (rhesus) specificity using heterohybridomas

Heterohybridomas secreting human IgM and IgG anti-D antibodies of the rhesus blood group system have been established by fusion of EBV-transformed anti-D secreting cells with the mouse myeloma cells X63-Ag8.653. Both classes of antibody reacted with all Rh-positive cells, some Du cells but not with Rh-negative or DB cells. Concentrations of both antibodies reached between 25 micrograms/ml and 50 micrograms/ml in the culture supernatants. The cell lines have been maintained in culture for 14 months and have been shown to be suitable for large-scale production of antibody.     

A two-site sandwich immunoradiometric assay of squirrel monkey (Saimiri sciureus) IgM using monoclonal antibodies

Nine hybrid clones secreting antibodies to squirrel monkey (Saimiri sciureus) IgM were produced and two of these (1F1G5 and 5H11B3) were selected for further studies. These non-precipitating monoclonal antibodies reacted with two distinct repetitive antigenic determinants, probably of the conformational type, only present on the native or SDS-denatured IgM molecule. Reduction of the pentamer with 2-mercaptoethanol led to complete destruction of the corresponding epitopes. 1F1G5 antibodies from ascitic fluids were used in the purification of monkey IgM by affinity chromatography. The characteristics of 1F1G5 and 5H11B3 MAbs permitted the development of a solid-phase two-site immunoradiometric assay for the measurement of IgM levels in serum specimens taken from healthy animal donors of both sexes.