A Similar Pattern of Interaction for Different Antibodies with a Major Antigenic Site of Foot-and-Mouth Disease Virus: Implications for Intratypic Antigenic Variation

Verdaguer, N.; Sevilla, Noemı́; Valero, M. Luz; Stuart, D.I.; Brocchi, Emiliana; Andreu, David; Giralt, Ernest; Domingo, Esteban; Mateu, Mauricio G.; Fita, Ignacio

doi:10.1128/jvi.72.1.739-748.1998

Cited by 69 publications

(46 citation statements)

References 51 publications

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“…The involvement of Ala 138 in peptide-SD6 complexes (22) and the important role of the RGD triplet are both in agreement with previous observations (21,22,32,33). However, all mAbs were fully reactive with Thr 137 R Ile and Thr 148 R Ile replacements, which is consistent with the minimal participation of these residues in mAb-peptide interaction, as seen by X-ray diffraction studies (16,21; Ochoa et al, manuscript in preparation).…”

Section: Solution Affinity Spr Analysissupporting

confidence: 90%

“…In contrast, five single point substitutions (Thr 137 → Ile, Ala 138 → Phe, Ala 140 → Pro, Gly 142 → Ser and Thr 148 → Ile) were found to preserve antigenicity towards several anti‐GH loop mAbs. Although the first and last replacements are located at each end of the loop, not in close contact with the antibody (22), the other three are at positions known to be directly involved in antibody recognition. Each of these three replacements is also remarkable because of its nonconservative character: Phe is much larger than Ala; Pro is a known disrupter of secondary structure, which Ala is not; finally, the Gly 142 → Ser mutation affects the highly conserved RGD motif.…”

Section: General Data On the Synthetic Peptides Under Studymentioning

confidence: 99%

“…These peptides were based on the main antigenic site of FMDV, termed site A, located on the highly flexible GH loop defined by residues 136-150 of the capsid protein VP1 in FMDV isolate C-S8c1 (19). This loop is effectively mimicked by peptide A15 (YTASARGDLAHLTTT), which has been used in several studies on antigenic structure of this viral site (13,(20)(21)(22). Site A combines hypervariable segments (137-140 148-150) with highly conserved residues such as Leu 144 and Leu 147 and, especially, the integrin-binding motif RGD, used as FMDV cell attachment site (20,21,23 Although the first and last replacements are located at each end of the loop, not in close contact with the antibody (22), the other three are at positions known to be directly involved in antibody recognition.…”

mentioning

confidence: 99%

“…This loop is effectively mimicked by peptide A15 (YTASARGDLAHLTTT), which has been used in several studies on antigenic structure of this viral site (13,(20)(21)(22). Site A combines hypervariable segments (137-140 148-150) with highly conserved residues such as Leu 144 and Leu 147 and, especially, the integrin-binding motif RGD, used as FMDV cell attachment site (20,21,23 Although the first and last replacements are located at each end of the loop, not in close contact with the antibody (22), the other three are at positions known to be directly involved in antibody recognition. Each of these three replacements is also remarkable because of its nonconservative character: Phe is much larger than Ala; Pro is a known disrupter of secondary structure, which Ala is not; finally, the Gly 142 R Ser mutation affects the highly conserved RGD motif.…”

mentioning

confidence: 99%

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Probing degeneracy in antigen–antibody recognition at the immunodominant site of foot‐and‐mouth disease virus

Gomes

Giralt

Ochoa

et al. 2002

The Journal of Peptide Research

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Antigen-antibody binding is regarded as one of the most representative examples of specific molecular recognition in nature. The simplistic view of antigenic recognition in terms of a lock-and-key mechanism is obsolete, as it is evident that both antigens and antibodies are flexible and can undergo substantial mutual adaptation. This flexibility is the source of complexities such as degeneracy and nonadditivity in antigenic recognition. We have used surface plasmon resonance to study the effects of combining multiple amino acid replacements within the sequence of the antigenic GH loop of foot-andmouth disease virus. Our aim was 2-fold: to explore the extent to which antigenic degeneracy can be extended in this particular case, and to search for potential nonadditive effects in introducing multiple amino acid replacements. Combined analysis of one such multiply substituted peptide by SPR, solution NMR and X-ray diffraction shows that antigenic degeneracy can be expected as long as residues directly interacting with the paratope are conserved and the peptide bioactive folding is unaltered. replacements is also remarkable because of its nonconservative character: Phe is much larger than Ala; Pro is a known disrupter of secondary structure, which Ala is not; finally, the Gly 142 R Ser mutation affects the highly conserved RGD motif. Studying the effect that every possible combination of these five mutations has on antigenicity provides a feasible way to explore the relative limits of antigenic degeneracy at this particular site. In addition, previous evidence of positive nonadditivity in multiple substitutions within the GH loop (10,13,16-18) encouraged us to look for possible synergistic effects in the simultaneous combination of these amino acid replacements. Therefore, we analyzed the 31 peptides (Table 1) corresponding to the combination of the five mutations by surface plasmon resonance (SPR) (25,26) against three anti-GH loop mAbs with epitope specificities outlined in Results PeptidesThirty-three 15-residue peptides (Table 1) were synthesized, one representing site A of FMDV C-S8c1 (A15), another as Solution affinity SPR analysisThe viability of direct kinetic biosensor analysis of the interactions between immobilized anti-FMDV mAbs and soluble 15-residue peptides has been previously demonstrated (14,15,17,18,28). In this study, however, most interactions could not be described kinetically, because of high association rates, extremely slow dissociation rates or incomplete surface regeneration (not shown). Deviations from the ideal behavior (29) Table 2 and confirm the high peptideantibody affinities expected in view of the avidity effects observed in the kinetic SPR analyses. These high peptide antigenicities were in agreement with a competition ELISA screening of these peptides using the same anti-GH loop mAbs (Gomes et al., unpublished data) and with the avidity effects observed in the initial kinetic approach.The multiply substituted peptides displayed antigenicities that generally correlat...

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Section: Solution Affinity Spr Analysissupporting

confidence: 90%

Section: General Data On the Synthetic Peptides Under Studymentioning

confidence: 99%

mentioning

confidence: 99%

mentioning

confidence: 99%

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Probing degeneracy in antigen–antibody recognition at the immunodominant site of foot‐and‐mouth disease virus

Gomes

Giralt

Ochoa

et al. 2002

The Journal of Peptide Research

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“…On the other hand, it has been shown in a number of cases that antigenic recognition can be significantly improved by restricting peptide mobility through cyclization (6)(7)(8)(9). In our work with foot-and-mouth disease virus-related peptides, we have shown recently that a linear 15-residue sequence representing antigenic site A (A15, YTASmG-DLAHLTTT, residues 136-150 of viral protein VPi) is folded into a quasi-cyclical arrangement when it binds to the Fab fragments of neutralizing monoclonal antibodies raised against the virus (10,11). From these results it was reasonable to propose that appropriate conformational restriction of the linear pentadecapeptide might result in improved antigenic recognition.…”

mentioning

confidence: 98%

A comparative study of cyclization strategies applied to the synthesis of head‐to‐tail cyclic analogs of a viral epitope

Valero

Giralt

Andreu

1999

The Journal of Peptide Research

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A family of head-to-tail cyclic peptide models of the antigenic site A (G-H loop of viral protein 1) of foot-and-mouth disease virus has been designed on the basis of the three-dimensional structure adopted by the linear peptide YTASARGDLAHLTTT upon binding to neutralizing monoclonal antibodies. Three different methods of cyclization have been examined to access the peptides. Solution cyclization of a minimally protected linear precursor provided the expected products but required several purification steps that lowered the yields to approximately 10%. The two other approaches relied on side-chain anchoring of the peptide through the Asp residue and cyclization on the solid phase. A synthetic scheme combining Fmoc, tBu and OAI protections was practicable but inefficient when scaled-up. The combination of Boc, Bzl and OFm protections was more promising, but suffered from high epimerization during the initial esterification of Boc-Asp-OFm to benzyl alcohol-type resins. This problem was solved by performing the esterification via the cesium salt of Boc-Asp-OFm. With this improvement, the Boc/Bzl/OFm has become the method of choice for the preparation of cyclic head-to-tail peptides in satisfactory yields and with minimal purification.

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Native-like cyclic peptide models of a viral antigenic site: finding a balance between rigidity and flexibility

et al. 2000

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Antigenic site A of foot-and-mouth disease virus (serotype C) has been reproduced by means of cyclic versions of peptide A15, YTASARGDLAHLTTT, corresponding to residues 136-150 of envelope protein VP1. A structural basis for the design of the cyclic peptides is provided by crystallographic data from complexes between the Fab fragments of anti-site A monoclonal antibodies and A15, in which the bound peptide is folded into a quasi-cyclic pattern. Head-to-tail cyclizations of A15 do not provide peptides of superior antigenicity. Internal disulfide cyclization, however, leads to analogs which are recognized as one to two orders of magnitude better than linear A15 in both ELISA and biosensor experiments. CD and NMR studies show that the best antigen, CTASARGDLAHLTT-Ahx-C (disulfide), is very insensitive to environment-induced conformational change, suggesting that cyclization helps to stabilize a bioactive-like structure.

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A Similar Pattern of Interaction for Different Antibodies with a Major Antigenic Site of Foot-and-Mouth Disease Virus: Implications for Intratypic Antigenic Variation

Cited by 69 publications

References 51 publications

Probing degeneracy in antigen–antibody recognition at the immunodominant site of foot‐and‐mouth disease virus

Probing degeneracy in antigen–antibody recognition at the immunodominant site of foot‐and‐mouth disease virus

A comparative study of cyclization strategies applied to the synthesis of head‐to‐tail cyclic analogs of a viral epitope

Native-like cyclic peptide models of a viral antigenic site: finding a balance between rigidity and flexibility

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