Development of an innovative adenovirus-inspired self-assembling vaccine platform rapidly adaptable to coronaviruses and other emergent viruses

The COVID-19 pandemic clearly shows how emergent diseases can cause severe global health and economic problems. We must be prepared to react swiftly against new pathogenic agents and this requires the development of vaccines that are safe, efficient in the long-term and easily adaptable with a short revision time. To this end, the COVID-19 mRNA and adenoviral vector vaccines have been spectacular successes, permitting rapid vaccination across the world in an unprecedented manner. Here we report the design of a new adenovirus-derived vaccine technology based on non-infectious pseudo-viral nanoparticles from the serotype 3 human adenovirus. Each nanoparticle comprises sixty identical proteins that assemble to form a 30 nm diameter spherical particle. A sequence has been engineered into the surface of this protein that enables the display of a covalently-bound target antigens. To demonstrate the efficiency of this approach, we added the SARS-CoV 2 spike protein receptor binding domain (RBD), that interacts with host cell ACE2 receptors, to the surface of the nanoparticles. We first showed that the glycosylated RBD retained its ACE2-binding function when displayed on nanoparticles. We then measured the in vivo humoral response of our vaccine candidate in mice and observed a strong antibody response after the prime injection; further levels were achieved following a second booster injection. In mice preimmunized with underivatized adenoviral nanoparticles, we tested if adenovirus seroprevalence, as frequently observed in humans, was detrimental to the RBD-mediated protection provided by our vaccine candidate. Interestingly, a strong anti-coronaviral response was still observed suggesting that existing circulating anti-adenovirus antibodies are not deleterious to our vaccine platform. We then performed pseudo-CoV 2 neutralization assays and obtained higher ID50 values than observed with COVID-19 convalescent sera, thus showing the high potential efficacy of our vaccine platform. This new vaccine technology is a tool that is easily adaptable to future SARS-CoV 2 variants and, more generally, to future emergent viruses and pathogens

M-ficolin and leukosialin (CD43): new partners in neutrophil adhesion

M-ficolin specificity for sialylated ligands prompted us to investigate its interactions with the main membrane sialoprotein of human neutrophils, CD43. rM-ficolin bound CD43 and prevented the access of anti-CD43 mAb. Moreover, rM-ficolin reacted exclusively with CD43 on Western blots of neutrophil lysate. We confirmed that M-ficolin is secreted by fMLP-activated neutrophils, and this endogenous M-ficolin also binds to CD43 and competes with anti-CD43 mAb. Anti-CD43 antibody cross-linking or fMLP resulted in M-ficolin and CD43 colocalization on polarized neutrophils. The binding of rM-ficolin to resting neutrophils induced cell polarization, adhesion, and homotypic aggregation as anti-CD43 mAb. The M-ficolin Y271F mutant, unable to bind sialic acid, neither reacted with neutrophils nor modulated their functions. Finally, rM-ficolin activated the lectin complement pathway on neutrophils. These results emphasize a new function of M-ficolin, different from ficolin pathogen recognition, i.e., a participation to neutrophil adhesion potentially important in early inflammation, as nanomolar agonist concentrations are sufficient to mobilize M-ficolin to the neutrophil surface. This multivalent lectin could then endow the antiadhesive CD43, essentially designed to prevent leukocyte aggregation in the blood flow, with new adhesive properties and explain, at least in part, dual-adhesive/antiadhesive roles of CD43 in neutrophil recruitment. J. Leukoc. Biol. 91: 469-474; 2012.Coordenacao de Aperfeicoamentoe Pessoal de Nivel Superior/Comite Francais dEvaluation de la Cooperation Universitaire et Scientifique avec le Bresil (CAPES/COFECUB)Coordenacao de Aperfeicoamentoe Pessoal de Nivel Superior/Comite Francais d'Evaluation de la Cooperation Universitaire et Scientifique avec le Bresil (CAPES/COFECUB) [597/08]BaxterBaxterAmgenAmge

DMTs and Covid-19 severity in MS: a pooled analysis from Italy and France

We evaluated the effect of DMTs on Covid-19 severity in patients with MS, with a pooled-analysis of two large cohorts from Italy and France. The association of baseline characteristics and DMTs with Covid-19 severity was assessed by multivariate ordinal-logistic models and pooled by a fixed-effect meta-analysis. 1066 patients with MS from Italy and 721 from France were included. In the multivariate model, anti-CD20 therapies were significantly associated (OR = 2.05, 95%CI = 1.39–3.02, p < 0.001) with Covid-19 severity, whereas interferon indicated a decreased risk (OR = 0.42, 95%CI = 0.18–0.99, p = 0.047). This pooled-analysis confirms an increased risk of severe Covid-19 in patients on anti-CD20 therapies and supports the protective role of interferon

HS and Inflammation: A Potential Playground for the Sulfs?

International audienceHeparan sulfate (HS) is a complex polysaccharide abundantly found in extracellular matrices and cell surfaces. HS participates in major cellular processes, through its ability to bind and modulate a wide array of signaling proteins. HS/ligand interactions involve saccharide domains of specific sulfation pattern. Assembly of such domains is orchestrated by a complex biosynthesis machinery and their structure is further regulated at the cell surface by post-synthetic modifying enzymes. Amongst them, extracellular sulfatases of the Sulf family catalyze the selective removal of 6-O-sulfate groups, which participate in the binding of many proteins. As such, increasing interest arose on the regulation of HS biological properties by the Sulfs. However, studies of the Sulfs have so far been essentially restricted to the fields of development and tumor progression. The aim of this review is to survey recent data of the literature on the still poorly documented role of the Sulfs during inflammation, and to widen the perspectives for the study of this intriguing regulatory mechanism toward new physiopathological processes

Adenovirus protein involved in virus internalization recruits ubiquitin-protein ligases.

International audienceAdenovirus penton base protein is involved in virus internalization. Searching for the cellular partners of this protein, we used dodecahedra, adenovirus subviral particles composed of 12 bases, for screening a human lung expression library. This screen yielded three ubiquitin-protein ligases, WWP1, WWP2, and AIP4, all of which belong to the HECT family and contain multiple WW domains. The xPPxY motif, known to interact with WW domains in partner proteins occurs twice in the N-terminal part of the base polypeptide chain. The recruitment of three ubiquitin-protein ligases was shown for two distinct virus serotypes, Ad2 and Ad3. The first N-terminal xPPxY motif in the base protein sequence is indispensable for the interaction. The association in vitro was shown by the protein overlay technique and in vivo by cotransfection followed by immunoprecipitation. The binding parameters studied by surface plasmon resonance confirmed the interaction of base protein with three ubiquitin-protein ligases. In case of WWP1 when the saturation of binding was achieved, the apparent dissociation constant of 65nM was calculated. This is the first demonstration of the interaction of nonenveloped viruses with ubiquitin-protein ligases of host cells

Preparation and Characterization of Heparan Sulfate-Derived Oligosaccharides to Investigate Protein–GAG Interaction and HS Biosynthesis Enzyme Activity

International audienceHeparan sulfate chains are complex and structurally diverse polysaccharides that interact with a large number of proteins, thereby regulating a vast array of biological functions. Understanding this activity requires obtaining oligosaccharides of defined structures. Here we describe methods for isolating, engineering, and characterizing heparan sulfate-derived oligosaccharides and approaches based on high-performance liquid chromatography (HPLC), nuclear magnetic resonance (NMR), and bio-layer interferometry (BLI) to study their structures, modifications, and interactions

Analysis of the Ligand Recognition Specificities of Human Ficolins Using Surface Plasmon Resonance

International audienceFicolins are innate immune recognition proteins involved in activation of the lectin complement pathway. These oligomeric lectin-like proteins are assembled from subunits consisting of a collagen-like triple helix and a trimeric fibrinogen-like recognition domain. In humans, three ficolins coexist: they differ in their ligand binding specificities, but share the capacity to associate with proteases through their collagen-like stalks and trigger complement activation. We describe methods to decipher the recognition specificities of ficolins, based on surface plasmon resonance, an optical technique allowing real-time and label-free monitoring of biomolecular interactions. This technique was mainly used to characterize and compare binding of the three recombinant full-length ficolins and of their isolated recognition domains to various immobilized BSA-glycoconjugates, acetylated BSA or biotinylated heparin. The avidity phenomenon that enhances the apparent affinity of interactions between oligomeric lectin-like proteins and the multivalent ligands is also discussed

Adenovirus protein involved in virus internalization recruits ubiquitin-protein ligases.

International audienceAdenovirus penton base protein is involved in virus internalization. Searching for the cellular partners of this protein, we used dodecahedra, adenovirus subviral particles composed of 12 bases, for screening a human lung expression library. This screen yielded three ubiquitin-protein ligases, WWP1, WWP2, and AIP4, all of which belong to the HECT family and contain multiple WW domains. The xPPxY motif, known to interact with WW domains in partner proteins occurs twice in the N-terminal part of the base polypeptide chain. The recruitment of three ubiquitin-protein ligases was shown for two distinct virus serotypes, Ad2 and Ad3. The first N-terminal xPPxY motif in the base protein sequence is indispensable for the interaction. The association in vitro was shown by the protein overlay technique and in vivo by cotransfection followed by immunoprecipitation. The binding parameters studied by surface plasmon resonance confirmed the interaction of base protein with three ubiquitin-protein ligases. In case of WWP1 when the saturation of binding was achieved, the apparent dissociation constant of 65nM was calculated. This is the first demonstration of the interaction of nonenveloped viruses with ubiquitin-protein ligases of host cells