A <i>Streptococcus pneumoniae</i> Type 2 Oligosaccharide Glycoconjugate Elicits Opsonic Antibodies and Is Protective in an Animal Model of Invasive Pneumococcal Disease

Emmadi, Madhu; Khan, Naeem; Lykke, Lennart; Reppe, Katrin; Parameswarappa, Sharavathi G.; Lisboa, Marilda P.; Wienhold, Sandra-Maria; Witzenrath, Martin; Pereira, Claney L.; Seeberger, Peter H.

doi:10.1021/jacs.7b07836

Cited by 57 publications

(42 citation statements)

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“…Minimal protective glycan epitopes are identified using synthetic homogeneous oligosaccharides that constitute one or more repeating units of bacterial CPS. Glycoconjugates containing such synthetic antigens have been previously tested individually for their antigenicity, immunogenicity, and protective effects in animal challenge models of disease, and have been shown to be effective in some cases (9,10,(17)(18)(19). We aimed to expand S. pneumoniae vaccine coverage by including serotype antigen conjugates ( Fig.…”

Section: Resultsmentioning

confidence: 99%

“…The medicinal chemistry approach has identified di-to tetrasaccharides as potential vaccine candidates (11). The immunogenicity of the CPS depends among other factors on rare sugars and labile functional groups (9,17,19). Stable oligosaccharide analogs can fix production problems such as those encountered for ST5 CPS due to the labile ketone present in the repeating unit (9).…”

mentioning

confidence: 99%

“…Previously, we had demonstrated that single semisynthetic glycoconjugate vaccine candidates ST2, ST3, and ST8, in which the synthetic antigen is conjugated to carrier protein CRM197, induce opsonic antibodies, kill bacteria in vitro (OPKA), and can protect against lethal infection in an in vivo S. pneumoniae challenge model (17)(18)(19). This study was designed to address the question of whether it is possible to improve the licensed polysaccharide-based vaccines Prevnar13 and Synflorix by adding antigens of nonvaccine serotypes, and to formulate a semisynthetic pentavalent glycoconjugate vaccine consisting exclusively of synthetic antigens.…”

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confidence: 99%

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Improving vaccines against Streptococcus pneumoniae using synthetic glycans

Kapłonek

Khan

Reppe

et al. 2018

Proc. Natl. Acad. Sci. U.S.A.

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Streptococcus pneumoniae remains a deadly disease in small children and the elderly even though conjugate and polysaccharide vaccines based on isolated capsular polysaccharides (CPS) are successful. The most common serotypes that cause infection are used in vaccines around the world, but differences in geographic and demographic serotype distribution compromises protection by leading vaccines. The medicinal chemistry approach to glycoconjugate vaccine development has helped to improve the stability and immunogenicity of synthetic vaccine candidates for several serotypes leading to the induction of higher levels of specific protective antibodies. Here, we show that marketed CPS-based glycoconjugate vaccines can be improved by adding synthetic glycoconjugates representing serotypes that are not covered by existing vaccines. Combination (coformulation) of synthetic glycoconjugates with the licensed vaccines Prevnar13 (13-valent) and Synflorix (10-valent) yields improved 15-and 13-valent conjugate vaccines, respectively, in rabbits. A pentavalent semisynthetic glycoconjugate vaccine containing five serotype antigens (sPCV5) elicits antibodies with strong in vitro opsonophagocytic activity. This study illustrates that synthetic oligosaccharides can be used in coformulation with both isolated polysaccharide glycoconjugates to expand protection from existing vaccines and each other to produce precisely defined multivalent conjugated vaccines. synthetic glycans | vaccine | Streptococcus pneumoniae C apsular polysaccharides (CPS) surround many deadly human pathogens. Polysaccharide-conjugated vaccines, based on isolated CPS antigens attached to carrier proteins, protect young children and the elderly from deadly bacterial pathogens including Haemophilus influenzae type b (Hib), Neisseria meningitides, and the encapsulated gram-positive bacterium Streptococcus pneumoniae. S. pneumoniae is the leading cause of life-endangering diseases such as pneumonia, septicemia, and meningitis (1), and a major cause of death in children under five in developing countries (2-4). More than 90 S. pneumoniae serotypes can be distinguished based on their CPS (5, 6). Currently available CPS-based pneumococcal vaccines contain the serotypes most frequently associated with invasive pneumococcal diseases (IPDs). Although the licensed 23-valent polysaccharide vaccine (Pneumovax 23) is not effective in younger children (3, 7), the conjugate vaccines Prevnar13 and Synflorix cover 13 and 10 serotypes, respectively, and are highly successful in all age groups (8). Nevertheless, serotype replacement due to vaccination and regional differences in dominant serotypes necessitate the expansion of existing vaccines to include additional serotypes. An additional weak point is that some serotype antigens, such as ST5 and ST1, that are present in existing vaccines undergo undesired chemical modification during production (9, 10); others have limited immunogenicity and lead to protective levels well below those required for herd immunity, such as SP3 (6).The p...

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Section: Resultsmentioning

confidence: 99%

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confidence: 99%

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confidence: 99%

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Improving vaccines against Streptococcus pneumoniae using synthetic glycans

Kapłonek

Khan

Reppe

et al. 2018

Proc. Natl. Acad. Sci. U.S.A.

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“…Clearly distinct determinants were identified in each case. Thus, in serotype 2 the GlcAα(1-6)Glcα(1-2) branch (GlcA being glucuronic acid) was found to be an important substructure of the hexasaccharide repeating unit (Emmadi et al, 2017), while in serotype 7F the two side chains that decorate the linear tetrasaccharide backbone, i.e., Galβ(1-and GlcNAcα(1-2)Rhaα(1-, played a key role (Menova et al, 2018). Gal modification with a pyruvate ketal in the linear tetrasaccharide unit of serotype 4 was observed to be an important determinant, although pyruvate-independent epitopes were also unveiled (Geissner et al, 2016), whereas in the serotype 5 pentasaccharide unit the rare aminosugar N-acetyl-L-pneumosamine (PneuNAc, Figure 2) together with branched N-acetyl-L-fucosamine (FucNAc) were essential for antibody recognition and avidity (Lisboa et al, 2017).…”

Section: Bacterial Glycan Arrays For Identification Of Novel Vaccine mentioning

confidence: 97%

Microarray Strategies for Exploring Bacterial Surface Glycans and Their Interactions With Glycan-Binding Proteins

et al. 2020

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Bacterial surfaces are decorated with distinct carbohydrate structures that may substantially differ among species and strains. These structures can be recognized by a variety of glycan-binding proteins, playing an important role in the bacteria cross-talk with the host and invading bacteriophages, and also in the formation of bacterial microcolonies and biofilms. In recent years, different microarray approaches for exploring bacterial surface glycans and their recognition by proteins have been developed. A main advantage of the microarray format is the inherent miniaturization of the method, which allows sensitive and high-throughput analyses with very small amounts of sample. Antibody and lectin microarrays have been used for examining bacterial glycosignatures, enabling bacteria identification and differentiation among strains. In addition, microarrays incorporating bacterial carbohydrate structures have served to evaluate their recognition by diverse host/phage/bacterial glycan-binding proteins, such as lectins, effectors of the immune system, or bacterial and phagic cell wall lysins, and to identify antigenic determinants for vaccine development. The list of samples printed in the arrays includes polysaccharides, lipopoly/lipooligosaccharides, (lipo)teichoic acids, and peptidoglycans, as well as sequence-defined oligosaccharide fragments. Moreover, microarrays of cell wall fragments and entire bacterial cells have been developed, which also allow to study bacterial glycosylation patterns. In this review, examples of the different microarray platforms and applications are presented with a view to give the current state-of-the-art and future prospects in this field.

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“…Emmadi et al [ 76 ] reported the synthesis of the repeating unit of ST2 CPS and of series of synthetic glycans containing portions of the ST2 CPS (compounds 87a – 93a ), in order to identify the protective oligosaccharide epitope. Hexasaccharide 89a (one repeating unit) was synthesized from disaccharides 94 , 95 , 96 via a [2+2+2] glycosylation strategy ( Figure 11 ).…”

Section: Streptococcus Pneumoniaementioning

confidence: 99%

Recent Advances in the Synthesis of Glycoconjugates for Vaccine Development

2018

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During the last decade there has been a growing interest in glycoimmunology, a relatively new research field dealing with the specific interactions of carbohydrates with the immune system. Pathogens’ cell surfaces are covered by a thick layer of oligo- and polysaccharides that are crucial virulence factors, as they mediate receptors binding on host cells for initial adhesion and organism invasion. Since in most cases these saccharide structures are uniquely exposed on the pathogen surface, they represent attractive targets for vaccine design. Polysaccharides isolated from cell walls of microorganisms and chemically conjugated to immunogenic proteins have been used as antigens for vaccine development for a range of infectious diseases. However, several challenges are associated with carbohydrate antigens purified from natural sources, such as their difficult characterization and heterogeneous composition. Consequently, glycoconjugates with chemically well-defined structures, that are able to confer highly reproducible biological properties and a better safety profile, are at the forefront of vaccine development. Following on from our previous review on the subject, in the present account we specifically focus on the most recent advances in the synthesis and preliminary immunological evaluation of next generation glycoconjugate vaccines designed to target bacterial and fungal infections that have been reported in the literature since 2011.

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A Streptococcus pneumoniae Type 2 Oligosaccharide Glycoconjugate Elicits Opsonic Antibodies and Is Protective in an Animal Model of Invasive Pneumococcal Disease

Cited by 57 publications

References 54 publications

Improving vaccines against Streptococcus pneumoniae using synthetic glycans

Improving vaccines against Streptococcus pneumoniae using synthetic glycans

Microarray Strategies for Exploring Bacterial Surface Glycans and Their Interactions With Glycan-Binding Proteins

Recent Advances in the Synthesis of Glycoconjugates for Vaccine Development

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