71 research outputs found

    Combined regulation of pro-inflammatory cytokines production by STAT3 and STAT5 in a model of B. pertussis infection of alveolar macrophages

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    Bordetella pertussis is a highly contagious respiratory pathogen responsible for whooping-cough or pertussis. Despite high vaccination coverage worldwide, this gram-negative bacterium continues to spread among the population. B. pertussis is transmitted by aerosol droplets from an infected individual to a new host and will colonize its upper respiratory tract. Alveolar macrophages (AMs) are effector cells of the innate immune system that phagocytose B. pertussis and secrete both pro-inflammatory and antimicrobial mediators in the lungs. However, understanding their role in B. pertussis pathogenesis at the molecular level is hampered by the limited number of primary AMs that can be collected in vivo. In order to decipher the regulation of innate response induced by B. pertussis infection, we used for the first time self-renewing, non-transformed cells, called Max Planck Institute (MPI) cells, which are phenotypically and functionally very close to pulmonary AMs. Using optimized infection conditions, we characterized the entry and the clearance of B. pertussis within MPI macrophages. We showed that under these conditions, MPI cells exhibit a pro-inflammatory phenotype with the production of TNF, IL-1β, IL-6 and MIP-2α, similarly to primary AMs purified from broncho-alveolar fluids of mice. In addition, we explored the yet uncharacterized role of the signal transduction activator of transcription (STAT) proteins family in the innate immune response to B. pertussis infection and showed for the first time the parallel regulation of pro-inflammatory cytokines by STAT3 and STAT5 in MPI macrophages infected by B. pertussis. Altogether, this work highlights the interest of using MPI cells for experiments optimization and preliminary data acquisition to understand B. pertussis interaction with AMs, and thus significantly reduce the number of animals to be sacrificed

    Live Attenuated B. pertussis as a Single-Dose Nasal Vaccine against Whooping Cough

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    Pertussis is still among the principal causes of death worldwide, and its incidence is increasing even in countries with high vaccine coverage. Although all age groups are susceptible, it is most severe in infants too young to be protected by currently available vaccines. To induce strong protective immunity in neonates, we have developed BPZE1, a live attenuated Bordetella pertussis strain to be given as a single-dose nasal vaccine in early life. BPZE1 was developed by the genetic inactivation or removal of three major toxins. In mice, BPZE1 was highly attenuated, yet able to colonize the respiratory tract and to induce strong protective immunity after a single nasal administration. Protection against B. pertussis was comparable to that induced by two injections of acellular vaccine (aPV) in adult mice, but was significantly better than two administrations of aPV in infant mice. Moreover, BPZE1 protected against Bordetella parapertussis infection, whereas aPV did not. BPZE1 is thus an attractive vaccine candidate to protect against whooping cough by nasal, needle-free administration early in life, possibly at birth

    Diversité des rongeurs et des leptospiroses en Asie du Sud-Est

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    L Asie est reconnue comme étant un hotspot pour l émergence de maladies infectieuses, dont de nombreuses zoonoses comme la leptospirose. En Asie du Sud-Est, cette maladie est un problème majeur de santé publique mais reste pourtant peu étudiée, en particulier dans la faune sauvage. Les rongeurs en sont le principal réservoir et l homme s infecte au contact de l eau contaminée ou d urine de rongeurs infectés. L incidence de la leptospirose est saisonnière et l infection est plus fréquente en zones rurales. Grâce au projet CERoPath (Ecologie des Communautés de Rongeurs et de leurs Pathogènes en Asie du Sud-Est), 940 rongeurs issus de sept localités ont été testés pour la leptospirose grâce à la méthode de PCR quantitative que nous avons développée. Celle-ci cible le gène codant pour l ARNr 16S et celui codant pour la lipoprotéine LipL32. Ensuite, nous avons mis en évidence des facteurs déterminants de l infection chez les rongeurs parmi les variables environnementales et individuelles, l abondance, la richesse spécifique et la diversité de rongeurs de chaque localité. Nous avons montré que la prévalence du portage des leptospires chez les rongeurs est très variable selon la localité. En revanche, toutes les espèces de rongeurs qui ont été suffisamment échantillonnées se sont avérées être porteuses de leptospirose, la plupart du temps de souches pathogènes. Les facteurs influençant la probabilité d infection chez les rongeurs sont l abondance et la richesse spécifique, le sexe des rongeurs, les précipitations de la session de capture et la latitude. Ces résultats sont cohérents avec les données humaines et permettront d établir des cartes de risque de transmission des leptospires des rongeurs à l homme.NANTES-Ecole Nat.Vétérinaire (441092302) / SudocTOULOUSE-EN Vétérinaire (315552301) / SudocSudocFranceF

    Dose Response of Attenuated Bordetella pertussis BPZE1-Induced Protection in Mice▿

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    Despite the availability of efficacious vaccines, the incidence of whooping cough is still high in many countries and is even increasing in countries with high vaccine coverage. Most severe and life-threatening pertussis cases occur in infants who are too young to be sufficiently protected by current vaccine regimens. As a potential solution to this problem, we have developed an attenuated live Bordetella pertussis vaccine strain, named BPZE1. Here, we show that after a single administration, BPZE1 induces dose-dependent protection against challenge with virulent B. pertussis in low-dose and in high-dose intranasal mouse lung colonization models. In addition, we observed BPZE1 dose-dependent antibody titers to B. pertussis antigens, as well as cell-mediated immunity, evidenced by the amounts of gamma interferon (IFN-γ) released from spleen cells upon stimulation with B. pertussis antigens. These two parameters may perhaps be used as readouts in clinical trials in humans that are currently being planned

    Early Protection against Pertussis Induced by Live Attenuated Bordetella pertussis BPZE1 Depends on TLR4

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    International audiencePertussis is a severe respiratory disease mainly caused by Bordetella pertussis Despite wide global vaccination coverage with efficacious pertussis vaccines, it remains one of the least well-controlled vaccine-preventable diseases, illustrating the shortcomings of the current vaccines. We have developed the live attenuated nasal pertussis vaccine BPZE1, currently undergoing clinical evaluation in human phase 2 trials. We have previously shown that in mice, BPZE1 provides strong and long-lasting protection against B. pertussis challenge by inducing potent Ab and T cell responses as well as secretory IgA and IL-17-producing resident memory T lymphocytes in the nasal cavity. In this study, we show that BPZE1 induces protection in mice against B. pertussis within days after vaccination, at a time when Ab and T cell responses were not detectable. Early protection was independent of T and B cell responses, as demonstrated by the use of SCID mice. Instead, it was due to TLR4-dependent signaling through the MyD88-dependent pathway of the innate immune response, as demonstrated in experiments with TLR4-deficient and MyD88-knockout mice. TLR2-dependent signaling did not play a major role in early protection. In addition, this study also shows that even at high doses, BPZE1 is safe in the severely immunocompromised MyD88-deficient mice, whereas virulent B. pertussis caused a severe pathological condition and death in these mice, even at a low dose. Finally, coadministration of virulent B. pertussis with BPZE1 did not cause exacerbated outgrowth of the virulent strain, thereby adding to the safety profile of this live vaccine candidate

    Bordetella pertussis from functional genomics to intranasal vaccination.

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    Whooping cough still represents a major health problem, despite the use of effective vaccines for several decades. Being classically a typical childhood disease, whooping cough in young adults is now more common than it used to be, suggesting that protection after vaccination wanes during adolescence. As an alternative to the current vaccines, we wish to develop live attenuated vaccines to be delivered by the nasal route, such as to mimic the natural route of infection and to induce long lasting immunity. Bordetella pertussis, the etiological agent of whooping cough, produces a number of virulence factors, including toxins. Its recently determined genome sequence makes it now possible to apply functional genomics, such as transcriptomics and systematic knock-out mutagenesis. The expression of most known B. pertussis virulence genes is controlled by the two-component system BvgA/S. DNA microarray analyses have led to the identification of novel genes in the BvgA/S regulon, some of which are activated by BvgA/S and others are repressed by BvgA/S. In addition, some genes appear to be differentially modulated by nicotinic acid and MgSO4, both known to modulate the expression of BvgA/S-regulated genes. Among others, the functional genomics approach has uncovered two strongly BvgA/S-activated genes, named hotA and hotB (for 'homolog of toxin'), the products of which show high sequence similarities to pertussis toxin subunits. The identification of the full array of virulence factors, as well as an integrated understanding of the bacterial physiology should allow us to design attenuated B. pertussis strains useful for intranasal vaccination. A first generation of attenuated strains has already shown full protection in mice after a single intranasal administration. Such strains may also serve as vaccine carriers for heterologous antigens, in order to vaccinate against several different pathogens simultaneously.Journal ArticleResearch Support, Non-U.S. Gov'tReviewinfo:eu-repo/semantics/publishe

    Glutathione S-Transferases of 28kDa as Major Vaccine Candidates against Schistosomiasis

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    For the development of vaccine strategies to generate efficient protection against chronic infections such as parasitic diseases, and more precisely schistosomiasis, controlling pathology could be more relevant than controlling the infection itself. Such strategies, motivated by the need for a cost-effective complement to existing control measures, should focus on parasite molecules involved in fecundity, because in metazoan parasite infections pathology is usually linked to the output of viable eggs. In numerous animal models, vaccination with glutathione S-transferases of 28kDa has been shown to generate an immune response strongly limiting the worm fecundity, in addition to the reduction of the parasite burden. Recent data on acquired immunity directed to 28GST in infected human populations, and new development to draw adapted vaccine formulations, are presented
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