Davide Oldrini scite author profile

Despite substantial progress in the prevention of group B Streptococcus (GBS) disease with the introduction of intrapartum antibiotic prophylaxis, this pathogen remains a leading cause of neonatal infection. Capsular polysaccharide conjugate vaccines have been tested in phase I/II clinical studies, showing promise for further development. Mapping of epitopes recognized by protective antibodies is crucial for understanding the mechanism of action of vaccines and for enabling antigen design. In this study, we report the structure of the epitope recognized by a monoclonal antibody with opsonophagocytic activity and representative of the protective response against type III GBS polysaccharide. The structure and the atomic-level interactions were determined by saturation transfer difference (STD)-NMR and X-ray crystallography using oligosaccharides obtained by synthetic and depolymerization procedures. The GBS PSIII epitope is made by six sugars. Four of them derive from two adjacent repeating units of the PSIII backbone and two of them from the branched galactose–sialic acid disaccharide contained in this sequence. The sialic acid residue establishes direct binding interactions with the functional antibody. The crystal structure provides insight into the molecular basis of antibody–carbohydrate interactions and confirms that the conformational epitope is not required for antigen recognition. Understanding the structural basis of immune recognition of capsular polysaccharide epitopes can aid in the design of novel glycoconjugate vaccines.

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Combined Chemical Synthesis and Tailored Enzymatic Elongation Provide Fully Synthetic and Conjugation-Ready Neisseria meningitidis Serogroup X Vaccine Antigens

Oldrini

Fiebig

Romano

et al. 2018

ACS Chem. Biol.

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Studies on the polymerization mode of Neisseria meningitidis serogroup X capsular polymerase CsxA recently identified a truncated construct that can be immobilized and used for length controlled on-column production of oligosaccharides. Here, we combined the use of a synthetic acceptor bearing an appendix for carrier protein conjugation and the on-column process to a novel chemo-enzymatic strategy. After protein coupling of the size optimized oligosaccharide produced by the one-pot elongation procedure, we obtained a more homogeneous glycoconjugate compared to the one previously described starting from the natural polysaccharide. Mice immunized with the conjugated fully synthetic oligomer elicited functional antibodies comparable to controls immunized with the current benchmark MenX glycoconjugates prepared from the natural capsule polymer or from fragments of it enzymatically elongated. This pathogen-free technology allows the fast total in vitro construction of predefined bacterial polysaccharide fragments. Compared to conventional synthetic protocols, the procedure is more expeditious and drastically reduces the number of purification steps to achieve the oligomers. Furthermore, the presence of a linker for conjugation in the synthetic acceptor minimizes manipulations on the enzymatically produced glycan prior to protein conjugation. This approach enriches the methods for fast construction of complex bacterial carbohydrates.

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Oxetane Grafts Installed Site‐Selectively on Native Disulfides to Enhance Protein Stability and Activity In Vivo

et al. 2017

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A four‐membered oxygen ring (oxetane) can be readily grafted into native peptides and proteins through site‐selective bis‐alkylation of cysteine residues present as disulfides under mild and biocompatible conditions. The selective installation of the oxetane graft enhances stability and activity, as demonstrated for a range of biologically relevant cyclic peptides, including somatostatin, proteins, and antibodies, such as a Fab arm of the antibody Herceptin and a designed antibody DesAb‐Aβ against the human Amyloid‐β peptide. Oxetane grafting of the genetically detoxified diphtheria toxin CRM197 improves significantly the immunogenicity of this protein in mice, which illustrates the general utility of this strategy to modulate the stability and biological activity of therapeutic proteins containing disulfides in their structures.

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An efficient cell free enzyme-based total synthesis of a meningococcal vaccine candidate

Fiebig

Romano²,

Oldrini³

et al. 2016

npj Vaccines

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Invasive meningococcal disease (IMD) is a global health problem and vaccination has proven the most effective way of disease control. Neisseria meningitidis serogroup X (NmX) is an emerging threat in the African sub-Saharan meningitis belt, but no vaccine is available today. Leading vaccines against Nm are glycoconjugates, in which capsular polysaccharides isolated from large-scale pathogen cultures are conjugated to adjuvant proteins. Though safe and efficacious even in infants, high costs and biohazard associated with the production limit abundant application of glycoconjugate vaccines particularly in the most afflicted nations. An existing NmX vaccine candidate (CPSXn-CRM197) produced by established protocols from NmX capsule polysaccharide (CPSX) has been shown to elicit high bactericidal immunoglobulin G titres in mice. Here we describe the scalable in vitro synthesis of CPSXiv from chemically pure precursors by the use of recombinant NmX capsule polymerase. Application of the described coupling chemistry gives CPSXiv-CRM197, which in mouse vaccination experiments behaves identical to the benchmark CPSXn-CRM197. Excluding any biohazards, this novel process represents a paradigm shift in vaccine production and a premise towards vaccine manufacturing in emerging economies.

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Synthesis of Group B Streptococcus type III polysaccharide fragments for evaluation of their interactions with monoclonal antibodies

Cattaneo

Carboni

Oldrini

et al. 2016

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Group B Streptococcus type III (GBSIII) is the most relevant serotype among GBS strains causing infections and the potential of its capsular polysaccharide conjugated to a protein carrier as vaccine is well documented. Polysaccharide from GBSIII (PSIII) can form helical structures in solution where negatively charged sialic acid residues would be disposed externally providing stabilization to the helix. A peculiar high affinity to specific monoclonal antibodies (mAbs) has been reported for PSIII, and fragments of diverse size bind to mAbs in a length dependent manner. These data have been rationalized in terms of conformational epitopes that would be formed by fragments with >4 saccharidic repeating units. Saturation Transfer Difference NMR experiments have demonstrated that the sialic acid residue is not involved in antibody recognition. However the molecular basis of the interaction between PSIII and mAbs has not been fully elucidated. An important prerequisite to achieve this would be the availability of the three possible sugar sequences representing the pentasaccharide PSIII repeating unit. Herein we established a [2+3] convergent approach leading to these three pentasaccharides (1–3) with the end terminal sugar bearing a linker for possible conjugation. The PSIII fragments were coupled to the genetically detoxified diphtheria toxin CRM197 to prove by ELISA that the three pentasaccharides are recognized by polyclonal anti-PSIII serum. The presence of the branching formed by a Glc residue β-(1→6) linked to GlcNAc was proven an important motif for antibody recognition.

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Davide Oldrini

Structure of a protective epitope of group BStreptococcustype III capsular polysaccharide

Combined Chemical Synthesis and Tailored Enzymatic Elongation Provide Fully Synthetic and Conjugation-Ready Neisseria meningitidis Serogroup X Vaccine Antigens

Oxetane Grafts Installed Site‐Selectively on Native Disulfides to Enhance Protein Stability and Activity In Vivo

An efficient cell free enzyme-based total synthesis of a meningococcal vaccine candidate

Synthesis of Group B Streptococcus type III polysaccharide fragments for evaluation of their interactions with monoclonal antibodies

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