Immunogenicity of IpaC-hybrid proteins expressed in the Shigella flexneri 2a vaccine candidate SC602.

We have investigated the capacity of live attenuated Shigella flexneri strains to act as vectors for the induction of local and systemic antibody responses against heterologous epitopes. The S. flexneri IpaC antigen was selected as a carrier protein into which the C3 neutralizing epitope of the poliovirus VP1 protein was inserted in eight sites distributed along IpaC. The resulting IpaC-C3 hybrid proteins were expressed from recombinant plasmids in the S. flexneri 2a vaccine candidate, SC602. Their production was similar to that of wild-type IpaC. All of the hybrid proteins but one were secreted as efficiently as wild-type IpaC. Immunization of mice with each of the recombinant SC602 derivatives reveals that one construct is able to induce serum and local anti-C3 antibodies, showing that at least one permissive site of insertion within IpaC can be defined. Furthermore, mouse-to-mouse variability in the anti-C3 response indicates that the amount of hybrid proteins produced in the host by SC602 should be improved for optimal use of S. flexneri live attenuated strains as mucosal vectors for foreign epitopes.

Functional analysis of the Shigella flexneri IpaC invasin by insertional mutagenesis.

The ability of Shigella to enter epithelial cells, to escape from the phagocytic vacuole, and to induce apoptosis in macrophages requires the IpaB, IpaC, and IpaD proteins. An extracellular complex containing IpaB and IpaC can promote the uptake of inert particles by epithelial cells. To determine whether the function of IpaC is to act as an extracellular chaperone for IpaB in the Ipa complex or as an effector of entry involved in a direct interaction with the cell surface, we have constructed eight IpaC recombinant proteins by inserting the coding sequence for a 12- to 14-amino-acid fragment into restriction sites scattered within the ipaC gene. We have investigated the ability of recombinant proteins to bind IpgC in the bacterial cytoplasm and IpaB in the extracellular medium and to complement an ipaC null mutant for entry into HeLa cells, lysis of erythrocytes, and escape from the phagocytic vacuole in infected macrophages. Most recombinant proteins were produced and secreted at a level similar to that of wild-type IpaC and did not exhibit altered susceptibility to proteolysis by trypsin, and all were able to bind IpgC and IpaB. Some recombinant proteins did not complement the ipaC mutant for entry into HeLa cells, lysis of erythrocytes, or escape from the phagocytic vacuole, which indicates that IpaC plays an active role in these processes and does not act solely as a chaperone for IpaB. In addition, some insertions which were located outside of the hydrophobic region of IpaC differentially affected the abilities of Shigella to enter epithelial cells and to lyse cell membranes.

Induction of a local anti-IpaC antibody response in mice by use of a Shigella flexneri 2a vaccine candidate: implications for use of IpaC as a protein carrier.

The capacity of Shigella flexneri to act as a delivery system for stimulation of local immunity was investigated by use of an S. Flexneri 2a vaccine candidate (SC602). This vaccine strain was constructed by deletion of virulence genes responsible for dissemination (icsA) and survival (iuc:iut) of bacteria within the colonic mucosa. Among the most immunogenic S. flexneri 2a proteins inducing a local immunoglobulin A antibody response, the IpaC invasion was selected as a potential protein carrier. Overexpression of IpaC from a plasmid in trans within SC602 (SC602/pIpaC) was shown to be required for the induction of optimal anti-IpaC antibody response in the murine pulmonary infection model. A weak anti-IpaC antibody response was obtained after intranasal inoculations with SC602/pIpaC live bacteria. This response was enhanced by combining systemic priming with SC602/pIpaC killed bacteria and local boosting with SC602/pIpaC live bacteria. These results suggest that naive B cells primed systemically could account for local antibody production. This immunization protocol will allow further evaluation of the immunogenicity of IpaC hybrid proteins expresses in SC602.

MxiG, a membrane protein required for secretion of Shigella spp. Ipa invasins: involvement in entry into epithelial cells and in intercellular dissemination.

Entry of Shigella flexneri into epithelial cells involves secretory proteins, the Ipa proteins, and their dedicated secretion apparatus, the Mxi-Spa translocon, which is encoded by the mxi and spa operons. We have characterized the mxiG gene that is located at the proximal part of the mxi operon. Inactivation of mxiG abolished lpa secretion, which indicates that MxiG is an essential component of the Mxi-Spa translocon. Immunoblotting analysis of membrane fractions suggests that the 42 kDa MxiG protein is associated with both the inner and outer membranes. Taking advantage of the complementation of the mxiG mutant by a plasmid carrying a wild-type copy of mxiG (which restored Ipa secretion, entry into HeLa cells, and cell-to-cell spread) we mutagenized the mxiG gene carried by the complementing plasmid to replace the RGD motif of MxiG by RAD. This mutation (mxiG*), which had no effect on the stability of the protein, did not affect Ipa secretion in vitro or entry into HeLa cells, but impaired intercellular dissemination. Therefore, MxiG and possibly proteins secreted by the Mxi-Spa translocation are involved not only in entry but also in spread of Shigella between epithelial cells.

Characterization of B-cell epitopes on IpaB, an invasion-associated antigen of Shigella flexneri: identification of an immunodominant domain recognized during natural infection.

The invasion plasmid antigen B (IpaB), a 62-kDa plasmid-encoded protein associated with the ability of shigellae to invade epithelial cells, is the bacterial antigen most strongly and consistently recognized by the host during infection. The strong systemic and mucosal immune responses observed against this invasin prompted us to map its B-cell epitopes. For this purpose, IpaB was first overexpressed in Shigella flexneri and used to raise rabbit polyclonal antiserum and murine monoclonal antibodies, which were subsequently used to screen a lambda gt11 ipaB library. Inserts of recombinant DNA clones that were specifically recognized by the antisera and antibodies were sequenced, and three distinct determinants were identified. Further characterization of these determinants showed that they were recognized by sera from patients convalescent from shigellosis, suggesting that they are relevant to the humoral response during natural infection. Moreover, the IpaB region comprising the three determinants was systematically recognized by all sera from infected patients that we tested, whereas other regions of the protein were not. These data suggest that this region, located between amino acid residues 147 and 258, is the major immunogenic domain of the invasin in the course of natural infection.

Some peculiarities of osteomedullary interrelations at the level of the lateral wall of the maxillary sinus.

Several structural aspects in the lateral wall of the maxillary sinus are shown, revealing the existence of some peculiarities of the osteomedullary relationships at this level, as for instance: a) a great density of vascular canals, b) a marked collagen density and a high degree of polymerization of the ground substance pleading for a great stability of the osseous structure, and c) a relative cellular scarcity inside the marrow-like spaces as an expression of a reduced reactive ability of bone marrow. It is considered that these peculiarities are not merely determined by specific functional needs of the bone as a tissue, but mainly by subordination of the latter to the requirements of the higher-ordered structural and functional levels served by a certain osseous zone.