Jean-Claude Mazie

Mapping of a dengue virus neutralizing epitope critical for the infectivity of all serotypes: insight into the neutralization mechanism

Dengue virus infections are a growing public health concern and strategies to control the spread of the virus are urgently needed. The murine monoclonal antibody 4E11 might be of interest, since it neutralizes dengue viruses of all serotypes by binding to the 296-400 segment of the major dengue virus envelope glycoprotein (DE). When phage-displayed peptide libraries were screened by affinity for 4E11, phage clone C1 was selected with a 50% frequency. C1 shared three of nine residues with DE(306-314) and showed significant reactivity to 4E11 in ELISA. C1-induced antibodies cross-reacted with DE(296-400) in mice, suggesting that it was a structural equivalent of the native epitope of 4E11 on DE. Accordingly, 4E11 bound to the DE(306-314) synthetic peptide and this reaction was inhibited by DE(296-400). Moreover, DE(306-314) could block dengue virus infection of target cells in an in vitro assay. A three-dimensional model of DE revealed that the three amino acids shared by DE(296-400) and C1 were exposed to the solvent and suggested that most of the amino acids comprising the 4E11 epitope were located in the DE(306-314) region. Since 4E11 blocked the binding of DE(296-400) to heparin, which is a highly sulfated heparan sulfate (HSHS) molecule, 4E11 may act by neutralizing the interaction of DE(306-314) with target cell-displayed HSHS. Our data suggest that the DE(306-314) segment is critical for the infectivity of all dengue virus serotypes and that molecules that block the binding of DE(306-314) to HSHS may be antiviral reagents of therapeutic interest.

The 213‐amino‐acid leucine‐rich repeat region of the Listeria monocytogenes InlB protein is sufficient for entry into mammalian cells, stimulation of PI 3‐kinase and membrane ruffling

The Listeria monocytogenes InlB protein is a 630‐amino‐acid surface protein that mediates entry of the bacterium into a wide variety of cell types, including hepatocytes, fibroblasts and epithelial cells such as Vero, HEp‐2 and HeLa cells. Invasion stimulates host proteins tyrosine phosphorylation, PI 3‐kinase activity and rearrangements in the actin cytoskeleton. We previously showed that InlB is sufficient for entry of InlB‐coated latex beads into cells and recent results indicate that purified InlB can stimulate PI 3‐kinase activity and is thus the first bacterial agonist of this lipid kinase. In this study, we identified the region of InlB responsible for entry and stimulation of signal transduction events. Eight monoclonal antibodies directed against InlB were raised and, of those, five inhibited bacterial entry. These five antibodies recognized epitopes within the leucine‐rich repeat (LRR) region and/or the inter‐repeat (IR) region. InlB‐staphylococcal protein A (SPA) fusion proteins and recombinant InlB derivatives were generated and tested for their capacity to mediate entry into cultured mammalian cells. All the InlB derivatives that carried the amino‐terminal 213‐amino‐acid LRR region conferred invasiveness to the normally non‐invasive bacterium L. innocua or to inert latex beads and the corresponding purified polypeptides inhibited bacterial entry. In addition, the 213‐amino‐acid LRR region was able to stimulate PI 3‐kinase activity and changes in the actin cytoskeleton (membrane ruffling). These properties were not detected with purified internalin, another invasion protein of L. monocytogenes that displays LRRs similar to those of InlB. Taken together, these results show that the first 213 amino acids of InlB are critical for its specific properties.

The 7α-hydroxysteroids produced in human tonsils enhance the immune response to tetanus toxoid and Bordetella pertussis antigens

Human tonsils were assessed for their ability to 7alpha-hydroxylate pregnenolone (PREG), dehydroepiandrosterone (DHEA) and 3-epiandrosterone (EPIA). Both 7alpha-hydroxy-DHEA and 7alpha-hydroxy-EPIA were produced by homogenates of either whole tonsils or of lymphocyte-depleted tonsil fractions. In contrast, isolated lymphocytes were found to be unable to carry out 7alpha-hydroxylation. When co-cultures of tonsil-derived T and B lymphocytes were set up under stimulatory conditions, IgGs were released in the supernatants and could be quantitated, and immunomodulating properties of different steroids were monitored. When PREG was added to a mixture of tonsil-derived B and T lymphocytes, a decrease of non-specific and specific IgG was observed. An increase in specific anti-tetanus toxoid and anti-Bordetella pertussis antigen IgGs was obtained with either 1 microM 7alpha-hydroxy-DHEA or 1 microM 7alpha-hydroxy-EPIA. In contrast, DHEA and EPIA were unable to trigger such an effect. When cultures of isolated tonsillar B cells were used, none of the steroids tested showed significant effects on specific IgG productions. These data led to the conclusion that human tonsillar cells transform DHEA and EPIA, but not PREG, into 7alpha-hydroxylated metabolites. These metabolites could act on target tonsillar T lymphocytes which in turn act upon B lymphocytes for increasing specific IgG production.

A recombinant Fab neutralizes dengue virus in vitro

Abstract A recombinant Fab that recognizes a neutralizing epitope located in the (296–400) region of protein E of dengue virus was obtained from cloned hybridoma cells secreting the mouse monoclonal antibody (mAb) 4E11. The Fd and light chain antibody genes were amplified by polymerase chain reaction, cloned into the phagemid vector pMad, expressed in bacteria to produce Fab fragments and sequenced. The mAb 4E11, in particular its light chain complementary-determining regions, shared homologies with two other anti-viral mAbs. The affinity of the parental mAb and the cloned Fab to the MalE-E(296–400) fusion protein were shown to be of the same magnitude, i.e. nanomolar. Fab 4E11 neutralization capacity was found between 8 and 4-times or less lower than that of mAb 4E11, depending on serotypes, thus the Fab could have a smaller antiviral activity than the mAb in vitro.

Reproducing the immune response against the Plasmodium vivax merozoite surface protein 1 with mimotopes selected from a phage-displayed peptide library

We have used phage display technology to identify peptides binding D14-3, a monoclonal antibody raised against the M(r) 42,000 C-terminal fragment of Plasmodium vivax merozoite surface protein 1 (PvMSP1). By screening a constrained hexapeptide library, seven independent clones binding D14-3 were isolated. The reactivity of D14-3 for these peptides was lower than for the natural antigen and the antibody binding was strictly associated with the viral context and the peptide conformation. Sequence analysis showed that five of them shared homology with the M(r) 42,000 C-terminal fragment (Pv42) and therefore appears to identify the D14-3 epitope. However, the other two peptides, while related to each other, did not correspond to any sequence in the Pv42 molecules. To evaluate their immunological interest, these phagotopes were injected into mice belonging to Balb/c, IC57BI/6 and Biozzi strains. All animals developed a strong immune response against phage particles but only Biozzi mice produced antibodies cross-reacting with Pv42. All phagotopes in Biozzi mice elicited a specific response against Pv42, even those sharing no sequence similarity with the antigen. Moreover, the avidities of these immune sera and the polyclonal response against Pv42 were comparable, suggesting phagotopes could be used as components of a subunit vaccine based on the C-terminal fragment of MSP1.

Monoclonal anti-histamine antibody: Preparation, characterization and application to enzyme immunoassay of histamine

An enzyme immunoassay to measure histamine has been developed. A histamine-bovine serum albumin conjugate was prepared using 1,4-benzoquinone as the coupling agent and was employed to immunize mice for the preparation of monoclonal antibodies against histamine. After an initial screening to identify antigen-binding monoclonal antibodies the clones were isolated by limiting dilution cloning, grown in ascites and antibodies which had been secreted into the ascitic fluid were precipitated by ammonium sulphate at 50% saturation. A systematic approach for the determination of epitope specificities of monoclonal antibodies was performed. It was found that for the most specific antibody the main epitope encompassed the 2-histaminyl-1,4-benzoquinone moiety and that the KD value determined by indirect ELISA was 1.5 X 10(-8) M for the hapten part of the immunogen and 4.6 X 10(-10) M for a histamine-Bq-ovalbumin conjugate. The selected monoclonal antibody could not recognize histidine or methyl-histamine. Using this antibody, we developed an enzyme immunoassay for histamine and pg amounts could be detected. The same assay was used to quantify the allergic release of histamine from guinea pig lung mast cells. Results obtained either by the present enzyme immunoassay or by a fluorometric assay were closely correlated (correlation coefficient r = 0.9702, n = 37).

Enzyme immunoassay for the measurement of histamine

This paper reports a competitive solid-phase enzyme immunoassay for measuring histamine in various biological samples. In this assay, the histamine to be quantified is chemically modified by 1,4-benzoquinone treatment and allowed to compete with a histamine-peroxidase conjugate for binding to a limited amount of an anti-histamine monoclonal antibody which was used to coat the wells of a microtitration plate. After incubation and washing, peroxidase activity associated with the solid phase is measured. With this method the histamine concentration in blood or various tissues may be determined easily, safely and reproducibly. Histamine concentrations from 0.3 to 20 ng/ml may be measured with the procedure reported here.

Monoclonal anti-gat antibodies with different fine specificities express the same public idiotype☆

We have studied the idiotypic specificities expressed by 22 anti-GAT hybridoma products (HP). These antibodies, although derived from cells of mice with three distinct heavy-chain linkage groups (BALB/c, Igh-1a, DBA/2, Igh-1c and C57BL/6, Igh-1b) all express the same public idiotypic specificity, p. GAT, defined by the heterologous binding of anti-idiotypic serum 715 to C57BL/6 anti-GAT antibodies. None of these antibodies expressed the strain-restricted idiotypic specificity, s.r. GAT-1, defined by the binding of anti-idiotypic serum JL 122 to BALB/c anti-GAT antibodies. BALB/c anti-GAT HP could be shown to fall into three subsets with respect to their fine antigenic specificity for GAT, GT and GA. An individual idiotypic specificity, i1-GAT (defined by syngeneic anti-idiotypic sera raised against one of the BALB/c HP), was also found on a group of BALB/c HP which all shared a similar fine antigenic specificity pattern. Taken together, these observations suggest that the expressed mouse anti-GAT repertoire derives from a very few V-germ-line genes (VH-GAT and VK-GAT) which are highly conserved in the species, and which determine the structure resulting in the p. GAT idiotypic specificity. The variations in fine specificity and individual idiotype are likely therefore to reflect somatic variations affecting these germ-line genes.

Study of the antigenic structure of human serum albumin with monoclonal antibodies

Analysis of the antigenic structure of human serum albumin was undertaken using monoclonal antibodies. Nineteen antibodies were prepared and their specificities were studied using fragments which encompass the whole sequence of the albumin molecule. These antibodies recognized 13 different epitopes which are different from the one previously identified with two other monoclonal antibodies [Doyen et al., Immun. Lett. 3, 365-370 (1981)]. Among those 13 different epitopes, six were overlapping. Four epitopes were located on the N-terminal half of the albumin molecule. One of these required integrity of methionine 87 and the other three were overlapping and located around methionine 123. Eight epitopes were located on the C-terminal half of the albumin. Two of them were within the sequence, 330-422 and 299-496 respectively; the other six appeared to be topographic determinants which were altered or lost in the albumin fragments. A last epitope could not be located on any region of albumin. Four monoclonal antibodies directed against a given portion of the albumin molecule reacted slightly with another part of albumin, thus confirming the existence of an intramolecular cross-reactivity between the different domains of human albumin.

Contribution of the H- and L-chains and of the binding site to the idiotypic specificities of mouse anti-GAT antibodies

The contribution of the H- and L-chains to the structure of the main idiotype of anti-poly (Glu60-Ala30-Tyr10) (GAT) antibodies has been studied. This idiotype has been previously divided into four types of specificity: (1) the highly conserved idiotypic specificity (h.c. GAT) is expressed by anti-GAT antibodies from the guinea-pig, rat and mice; (2) the public specificity (p. GAT) is expressed in an identical form by all anti-GAT antibodies from all strains of mice tested and by all hybridoma products (HP) with anti-GAT activity; (3) the strain-restricted specificity (s.r. GAT-1) is only expressed by anti-GAT antibodies from strains with Ig-1a, Ig-1c and Ig-1c allotypic markers; and finally (4) the individual specificity i1-GAT defined on HP G5 is also expressed by most of the hybridoma protein with anti-poly (Glu50-Tyr50) (GT) activity. In this paper we show that h.c.GAT, p.GAT and i1-GAT require the interaction of H- and L-chains to be expressed: (1) isolated H- and L-chains from HP G5 did not express these specificities; and (2) recombinant molecules composed of H- and L-chains from HP with anti-GAT activity and an irrelevant myeloma protein (MOPC21) never expressed h.c.GAT, p.GAT and i1-GAT. We next investigated the relationship between the GAT binding site and the p.GAT, h.c.GAT and s.r.GAT-1 idiotypic specificities. GAT and GT were not able to inhibit the binding to s.r.GAT-1 while they inhibit the idiotypic binding to p.GAT and h.c.GAT. A GAT fragment of mol. wt 3000 was also shown to inhibit the binding of p.GAT and h.c.GAT to the appropriate sera. Thus p.GAT and h.c.GAT are very close to the GAT combining site while s.r.GAT-1 represents an idiotypic specificity located outside the GAT binding site.