In the last years, outer membrane
vesicles have attracted a lot
of attention for the development of vaccines against bacterial pathogens.
Extracellular vesicles can be obtained in high yields by genetic mutations,
resulting in generalized modules for membrane antigens (GMMA). Methods
to check the quality, consistency of production, and stability of
GMMA vaccines are of fundamental importance. In this context, analytical
methods for size distribution determination and verifying the integrity
and possible aggregation of GMMA particles are strongly needed. Herein,
GMMA particle size distribution has been evaluated by means of three
different techniques. Dynamic light scattering (DLS), multiangle light
scattering (MALS) coupled with high-performance liquid chromatography–size
exclusion chromatography (SEC), and nanoparticle tracking analysis
(NTA) have been compared to characterize GMMA from different mutants
of Salmonella typhimurium and Salmonella enteritidis strains. We found that the
presence of O-antigen chains on GMMA determined higher Z-average diameters by DLS compared to size estimation by MALS and
that the hydrodynamic diameter increased with the number of O-antigen
chains per GMMA particle. In the case of SEC-MALS, the size of the
whole population better reflects the size of the most abundant particles,
whereas DLS diameter is more influenced by the presence of larger
particles in the sample. SEC-MALS and NTA are preferable to DLS for
the analysis of bimodal samples, as they better distinguish populations
of different size. MALS coupled to a size exclusion chromatography
module also allows checking the purity of GMMA preparations, allowing
determination of generally occurring contaminants such as soluble
proteins and DNA. NTA permits real-time visualization with simultaneous
tracking and counting of individual particles, but it is deeply dependent
on the choice of data analysis parameters. All of the three techniques
have provided complementary information leading to a more complete
characterization of GMMA particles.
Extraintestinal pathogenic Escherichia coli (ExPEC) cause a wide range of clinical diseases such as bacteremia and urinary tract infections. The increase of multidrug resistant ExPEC strains is becoming a major concern for the treatment of these infections and E. coli has been identified as a critical priority pathogen by the WHO. Therefore, the development of vaccines has become increasingly important, with the surface lipopolysaccharide constituting a promising vaccine target. This study presents genetic and structural analysis of clinical urine isolates from Switzerland belonging to the serotype O25. Approximately 75% of these isolates were shown to correspond to the substructure O25B only recently described in an emerging clone of E. coli sequence type 131. To address the high occurrence of O25B in clinical isolates, an O25B glycoconjugate vaccine was prepared using an E. coli glycosylation system. The O antigen cluster was integrated into the genome of E. coli W3110, thereby generating an E. coli strain able to synthesize the O25B polysaccharide on a carrier lipid. The polysaccharide was enzymatically conjugated to specific asparagine side chains of the carrier protein exotoxin A (EPA) of Pseudomonas aeruginosa by the PglB oligosaccharyltransferase from Campylobacter jejuni. Detailed characterization of the O25B-EPA conjugate by use of physicochemical methods including NMR and GC-MS confirmed the O25B polysaccharide structure in the conjugate, opening up the possibility to develop a multivalent E. coli conjugate vaccine containing O25B-EPA.
Abstract. In this paper, all the light-curves obtained during the PHEMU91 campaign of observations of the mutual phenomena of the Galilean satellites are presented. These observations give accurate astrometric positions of major interest for dynamical studies of the motion of the Galilean satellites. The aim of this work is to give observational data directly usable for theoretical studies. We made 374 observations of 111 mutual events from 56 sites. The corresponding data are given in this paper 1 . The accuracy of each observation has been deduced from a comparison with the theoretical predictions. For each observation, information is given about the telescope, the receptor, the site and the observational conditions.Send offprint requests to: J.-E. Arlot
Invasive nontyphoidal Salmonella disease, for which licensed vaccines are not available, is a leading cause of bloodstream infections in Africa. The O-antigen portion of lipopolysaccharide is a good target for protective immunity. Covalent conjugation of the O-antigen to a carrier protein increases its immunogenicity and O-antigen based glycoconjugate vaccines are currently under investigation at the preclinical stage. We developed a conjugation chemistry for linking O-antigen to CRM carrier protein, through sequential insertion of adipic acid dihydrazide (ADH) and adipic acid bis( N-hydroxysuccinimide) ester (SIDEA) as linkers, without impacting O-antigen chain epitopes. Here the resulting sugar-protein connectivity has been investigated in detail. The core portion of the lipopolysaccharide was used as a model molecule to prepare CRM conjugates, making structural investigations easier. The first step of reductive amination with ADH involves the terminal 3-deoxy-d- manno-oct-2-ulosonic acid (KDO) residue of the core region. The second reaction step resulted not to be selective, as SIDEA reacted with both ADH and pyrophosphorylethanolamine (PPEtN) of the core region, independently from the pH at which the reaction was performed. Peptide mapping analysis of the deglycosylated core-CRM conjugates confirmed that lysine residues of CRM were linked to SIDEA not only through KDO-ADH but also through PPEtN. This analysis also confirmed that the conjugation chemistry is random on the protein, involving a large number of lysine residues, particularly the surface exposed ones. The method for core-CRM characterization was successfully extended to O-antigen-CRM conjugate, confirming the results obtained with the core. This study not only allowed full characterization of OAg-CRM conjugates, but can be applied to optimize synthesis and characterization of other OAg-based glycoconjugate vaccines. Analytical methods to investigate saccharide-protein connectivity are also of fundamental importance to study the relationship between glycoconjugate structure and immune response induced.
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