A Synthetic Carbohydrate-Protein Conjugate Vaccine Candidate against <i>Shigella flexneri</i> 2a Infection

Phalipon, Armelle; Tanguy, Myriam; Grandjean, Cyrille; Guerreiro, Catherine; Bélot, Frédéric; Cohen, Dani; Sansonetti, Philippe J.; Mulard, Laurence A.

doi:10.4049/jimmunol.0803141

Cited by 123 publications

(111 citation statements)

References 52 publications

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“…To design glycoconjugates with the potential of being effective vaccines, several biochemical factors need to be evaluated that can affect the immunogenicity and tolerability of the final product. Among the most important parameters are the carrier protein (9,40,41) and the conjugation chemistry chosen (9,12,42), but additional factors, including the molecular weight (MW) of the polysaccharide (43)(44)(45), saccharide modifications (such as O-acetylation and glucosylation) (12,43), and the sugar/carrier ratio (25,44,46), need to be explored (47).…”

Section: Discussionmentioning

confidence: 99%

Design of Glycoconjugate Vaccines against Invasive African Salmonella enterica Serovar Typhimurium

et al. 2015

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dNontyphoidal salmonellae, particularly Salmonella enterica serovar Typhimurium, are a major cause of invasive disease in Africa, affecting mainly young children and HIV-infected individuals. Glycoconjugate vaccines provide a safe and reliable strategy against invasive polysaccharide-encapsulated pathogens, and lipopolysaccharide (LPS) is a target of protective immune responses. With the aim of designing an effective vaccine against S. Typhimurium, we have synthesized different glycoconjugates, by linking O-antigen and core sugars (OAg) of LPS to the nontoxic mutant of diphtheria toxin (CRM 197 ). The OAg-CRM 197 conjugates varied in (i) OAg source, with three S. Typhimurium strains used for OAg extraction, producing OAg with differences in structural specificities, (ii) OAg chain length, and (iii) OAg/CRM 197 ratio. All glycoconjugates were compared for immunogenicity and ability to induce serum bactericidal activity in mice. In vivo enhancement of bacterial clearance was assessed for a selected S. Typhimurium glycoconjugate by challenge with live Salmonella. We found that the largest anti-OAg antibody responses were elicited by (i) vaccines synthesized from OAg with the highest glucosylation levels, (ii) OAg composed of mixed-or medium-molecular-weight populations, and (iii) a lower OAg/CRM 197 ratio. In addition, we found that bactericidal activity can be influenced by S. Typhimurium OAg strain, most likely as a result of differences in OAg O-acetylation and glucosylation. Finally, we confirmed that mice immunized with the selected OAg-conjugate were protected against S. Typhimurium colonization of the spleen and liver. In conclusion, our findings indicate that differences in the design of OAg-based glycoconjugate vaccines against invasive African S. Typhimurium can have profound effects on immunogenicity and therefore optimal vaccine design requires careful consideration.

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Section: Discussionmentioning

confidence: 99%

Design of Glycoconjugate Vaccines against Invasive African Salmonella enterica Serovar Typhimurium

et al. 2015

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“…Synthetic carbohydrate vaccines are rarely studied due to the complexity of production, but conjugate vaccines containing synthetic poly(ribosyl-ribitol phosphate) provide protective immunity against H. influenzae type b infections and are licensed for human use (41 (31). Other synthetic oligosaccharide vaccines for a variety of pathogens are currently in various stages of development (32), indicating that more success with this technology is likely to come.…”

Section: Discussionmentioning

confidence: 99%

Synthetic β-(1→6)-Linked N-Acetylated and Nonacetylated Oligoglucosamines Used To Produce Conjugate Vaccines for Bacterial Pathogens

et al. 2010

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Vaccines for pathogens usually target strain-specific surface antigens or toxins, and rarely is there broad antigenic specificity extending across multiple species. Protective antibodies for bacteria are usually specific for surface or capsular antigens. ␤-(136)-Poly-N-acetyl-D-glucosamine (PNAG) is a surface polysaccharide produced by many pathogens, including Staphylococcus aureus, Escherichia coli, Yersinia pestis, Bordetella pertussis, Acinetobacter baumannii, and others. Protective antibodies to PNAG are elicited when a deacetylated glycoform (deacetylated PNAG [dPNAG]; <30% acetate) is used in conjugate vaccines, whereas highly acetylated PNAG does not induce such antibodies. Chemical derivation of dPNAG from native PNAG is imprecise, so we synthesized both ␤-(136)-D-glucosamine (GlcNH 2 ) and ␤-(136)-D-N-acetylglucosamine (GlcNAc) oligosaccharides with linkers on the reducing termini that could be activated to produce sulfhydryl groups for conjugation to bromoacetyl groups introduced onto carrier proteins. Synthetic 5-mer GlcNH 2 (5GlcNH 2 ) or 9GlcNH 2 conjugated to tetanus toxoid (TT) elicited mouse antibodies that mediated opsonic killing of multiple S. aureus strains, while the antibodies that were produced in response to 5GlcNAc-or 9GlcNAc-TT did not mediate opsonic killing. Rabbit antibodies to 9GlcNH 2 -TT bound to PNAG and dPNAG antigens, mediated killing of S. aureus and E. coli, and protected against S. aureus skin abscesses and lethal E. coli peritonitis.

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“…In studies performed with these molecules at NIH and Institute Pasteur in France, vaccinated animals produced antibodies against the corresponding bacterial LPS. [36][37][38][39] However, these vaccine candidates have a narrow spectrum of protection, producing an immune response only directed at the bacterial strain from which the synthetic conjugate was obtained, it is for this reason that they remain in the development stage. The most advanced conjugate vaccine candidates, S. flexneri O-SP-rEPA and S. sonnei O-SPrEPA, were discussed above.…”

Section: Shigella Dysenteriae O-sp-tt and Other Conjugate Vaccinesmentioning

confidence: 99%

Vaccines for viral and bacterial pathogens causing acute gastroenteritis: Part II: Vaccines forShigella,Salmonella,enterotoxigenicE. coli(ETEC) enterohemorragicE. coli(EHEC) andCampylobacter jejuni

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et al. 2015

Human Vaccines & Immunotherapeutics

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A Synthetic Carbohydrate-Protein Conjugate Vaccine Candidate against Shigella flexneri 2a Infection

Cited by 123 publications

References 52 publications

Design of Glycoconjugate Vaccines against Invasive African Salmonella enterica Serovar Typhimurium

Design of Glycoconjugate Vaccines against Invasive African Salmonella enterica Serovar Typhimurium

Synthetic β-(1→6)-Linked N-Acetylated and Nonacetylated Oligoglucosamines Used To Produce Conjugate Vaccines for Bacterial Pathogens

Vaccines for viral and bacterial pathogens causing acute gastroenteritis: Part II: Vaccines forShigella,Salmonella,enterotoxigenicE. coli(ETEC) enterohemorragicE. coli(EHEC) andCampylobacter jejuni

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