Your search keyword '"Lesne, Elodie"' showing total 6 results

1. 84 Inhibition of SARS-CoV-2 spike interaction with angiotensin converting enzyme-2 (ACE2) by specific antibodies is enhanced by complement, determined with a novel flow cytometry assay.

Author

McStraw, Nikki, Lesne, Elodie, Cavell, Breeze, Leung, Stephaine, Taylor, Stephen, and Gorringe, Andrew

Subjects

*FLOW cytometry, *ANGIOTENSINS, *SARS-CoV-2, *IMMUNOGLOBULINS, *COMPLEMENT receptors, *ANGIOTENSIN converting enzyme

Published

2023

2. Distinct virulence ranges for infection of mice by Bordetella pertussis revealed by engineering of the sensor-kinase BvgS.

Author

Lesne, Elodie, Coutte, Loic, Solans, Luis, Slupek, Stephanie, Debrie, Anne-Sophie, Dhennin, Véronique, Froguel, Philippe, Hot, David, Locht, Camille, Antoine, Rudy, and Jacob-Dubuisson, Françoise

Subjects

*MICROBIAL virulence, *BORDETELLA pertussis, *PHENOTYPES, *GENE expression in viruses, *THERAPEUTICS

Abstract

The whooping cough agent Bordetella pertussis coordinately regulates the expression of its virulence factors with the two-component system BvgAS. In laboratory conditions, specific chemical modulators are used to trigger phenotypic modulation of B. pertussis from its default virulent Bvg+ phase to avirulent Bvg- or intermediate Bvgi phases, in which no virulence factors or only a subset of them are produced, respectively. Whether phenotypic modulation occurs in the host remains unknown. In this work, recombinant B. pertussis strains harboring BvgS variants were tested in a mouse model of infection and analyzed using transcriptomic approaches. Recombinant BP-BvgΔ65, which is in the Bvgi phase by default and can be up-modulated to the Bvg+ phase in vitro, could colonize the mouse nose but was rapidly cleared from the lungs, while Bvg+-phase strains colonized both organs for up to four weeks. These results indicated that phenotypic modulation, which might have restored the full virulence capability of BP-BvgΔ65, does not occur in mice or is temporally or spatially restricted and has no effect in those conditions. Transcriptomic analyses of this and other recombinant Bvgi and Bvg+-phase strains revealed that two distinct ranges of virulence gene expression allow colonization of the mouse nose and lungs, respectively. We also showed that a recombinant strain expressing moderately lower levels of the virulence genes than its wild type parent was as efficient at colonizing both organs. Altogether, genetic modifications of BvgS generate a range of phenotypic phases, which are useful tools to decipher host-pathogen interactions. [ABSTRACT FROM AUTHOR]

Published

2018

3. Characterization of a Bvg-regulated fatty acid methyl-transferase in Bordetella pertussis.

Author

Rivera-Millot, Alex, Lesne, Elodie, Solans, Luis, Coutte, Loic, Bertrand-Michel, Justine, Froguel, Philippe, Dhennin, Véronique, Hot, David, Locht, Camille, Antoine, Rudy, and Jacob-Dubuisson, Françoise

Subjects

*BORDETELLA pertussis, *METHYLTRANSFERASES, *WHOOPING cough, *FATTY acids, *MICROBIAL virulence, *CELLULAR signal transduction

Abstract

The whooping cough agent Bordetella pertussis controls the expression of its large virulence regulon in a coordinated manner through the two-component signal transduction system BvgAS. In addition to the genes coding for bona fide virulence factors, the Bvg regulon comprises genes of unknown function. In this work, we characterized a new Bvg-activated gene called BP2936. Homologs of BP2936 are found in other pathogenic Bordetellae and in several other species, including plant pathogens and environmental bacteria. We showed that the gene product of BP2936 is a membrane-associated methyl-transferase of free fatty acids. We thus propose to name it FmtB, for atty acid ethyl-ransferase of ordetella. The role of this protein was tested in cellular and animal models of infection, but the loss of BP2936 did not appear to affect host-pathogen interactions in those assays. The high level of conservation of BP2936 among B. pertussis isolates nevertheless argues that it probably plays a role in the life cycle of this pathogen. [ABSTRACT FROM AUTHOR]

Published

2017

4. Signal Transduction by BvgS Sensor Kinase BINDING OF MODULATOR NICOTINATE AFFECTS THE CONFORMATION AND DYNAMICS OF THE ENTIRE PERIPLASMIC MOIETY.

Author

Dupré, Elian, Lesne, Elodie, Guérin, Jérémy, Lensink, Marc F., Verger, Alexis, de Ruyck, Jérôme, Brysbaert, Guillaume, Vezin, Hervé, Locht, Camille, Antoine, Rudy, and Jacob-Dubuisson, Françoise

Subjects

*CELLULAR signal transduction, *KINASE genetics, *KINASE regulation, *VENUS'S flytrap, *WHOOPING cough, *PHYSIOLOGY, *THERAPEUTICS

Abstract

The two-component sensory transduction system BvgAS controls the virulence regulon of the whooping-cough agent Bordetella pertussis. The periplasmic moiety of the homodimeric sensor kinase BvgS is composed of four bilobed Venus flytrap (VFT) perception domains followed by α helices that extend into the cytoplasmic membrane. In the virulent phase, the default state of B. pertussis, the cytoplasmic enzymatic moiety of BvgS acts as kinase by autophosphorylating and transferring the phosphoryl group to the response regulator BvgA. Under laboratory conditions, BvgS shifts to phosphatase activity in response to modulators, notably nicotinate ions. Here we characterized the effects of nicotinate and related modulators on the BvgS periplasmic moiety by using site-directed mutagenesis and in silico and biophysical approaches. Modulators bind with low affinity to BvgS in the VFT2 cavity. Electron paramagnetic resonance shows that their binding globally affects the conformation and dynamics of the periplasmic moiety. Specific amino acid substitutions designed to slacken interactions within and between the VFT lobes prevent BvgS from responding to nicotinate, showing that BvgS shifts from kinase to phosphatase activity in response to this modulator via a tense transition state that involves a large periplasmic structural block. We propose that this transition enables the transmembrane helices to adopt a distinct conformation that sets the cytoplasmic enzymatic moiety in the phosphatase mode. The bona fide, in vivo VFT ligands that remain to be identified are likely to trigger similar effects on the transmembrane and cytoplasmic moieties. This mechanism may be relevant to the other VFT-containing sensor kinases homologous to BvgS. [ABSTRACT FROM AUTHOR]

Published

2015

5. Conformational Changes of an Interdomain Linker Mediate Mechanical Signal Transmission in Sensor Kinase BvgS.

Author

Lesne, Elodie, Dupré, Elian, Locht, Camille, Antoine, Rudy, and Jacob-Dubuisson, Françoise

Abstract

The whooping cough agent, Bordetella pertussis, controls the expression of its large virulence regulon in a coordinated manner through the two-component system BvgAS. BvgS is a dimeric, multidomain sensor kinase. Each monomer comprises, in succession, tandem periplasmic Venus flytrap (VFT) domains, a transmembrane segment, a cytoplasmic Per-Arnt-Sim (PAS) domain, a kinase module, and additional phosphorelay domains. BvgS shifts between kinase and phosphatase modes of activity in response to chemical modulators that modify the clamshell motions of the VFT domains. We have shown previously that this regulation involves a shift between distinct states of conformation and dynamics of the two-helix coiled-coil linker preceding the enzymatic module. In this work, we determined the mechanism of signal transduction across the membrane via a first linker, which connects the VFT and PAS domains of BvgS, using extensive cysteine cross-linking analyses and other approaches. Modulator perception by the periplasmic domains appears to trigger a small, symmetrical motion of the transmembrane segments toward the periplasm, causing rearrangements of the noncanonical cytoplasmic coiled coil that follows. As a consequence, the interface of the PAS domains is modified, which affects the second linker and eventually causes the shift of enzymatic activity. The major features of this first linker are well conserved among BvgS homologs, indicating that the mechanism of signal transduction unveiled here is likely to be generally relevant for this family of sensor kinases. [ABSTRACT FROM AUTHOR]

Published

2017

6. Structural Insight into the Role of the PAS Domain for Signal Transduction in Sensor Kinase BvgS.

Author

Dupré, Elian, Clantin, Bernard, Youhua Yuan, Lecher, Sophie, Lesne, Elodie, Antoine, Rudy, Villeret, Vincent, and Jacob-Dubuisson, Françoise

Abstract

The two-component system BvgAS controls the virulence regulon in Bordetella pertussis. BvgS is the prototype of a family of sensor histidine kinases harboring periplasmic Venus flytrap (VFT) domains. The VFT domains are connected to the cytoplasmic kinase moiety by helical linkers separated by a Per-ARNT-Sim (PAS) domain. Antagonism between the two linkers, as one forms a coiled coil when the other is dynamic and vice versa, regulates BvgS activity. Here, we solved the structure of the intervening PAS domain by X-ray crystallography. Two forms were obtained that notably differ by the connections between the PAS core domain and the flanking helical linkers. Structure-guided mutagenesis indicated that those connections participate in the regulation of BvgS activity. Thus, the PAS domain appears to function as a switch facilitator module whose conformation determines the output of the system. As many BvgS homologs have similar architectures, the mechanisms unveiled here are likely to generally apply to the regulation of sensor histidine kinases of that family. [ABSTRACT FROM AUTHOR]

Published

2021