Julie Lopes scite author profile

Julie Lopes

2Publications

71Citation Statements Received

97Citation Statements Given

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Institut de Biologie Structurale, Grenoble Alpes University

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Providencia stuartii form biofilms and floating communities of cells that display high resistance to environmental insults

Khatib¹,

Tran²,

Nasrallah³

et al. 2017

PLoS ONE

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Biofilms are organized communities of bacterial cells that are responsible for the majority of human chronic bacterial infections. Providencia stuartii is a Gram-negative biofilm-forming bacterium involved in high incidence of urinary tract infections in catheterized patients. Yet, the structuration of these biofilms, and their resistance to environmental insults remain poorly understood. Here, we report on planktonic cell growth and biofilm formation by P. stuartii, in conditions that mimic its most common pathophysiological habitat in humans, i.e. the urinary tract. We observed that, in the planktonic state, P. stuartii forms floating communities of cells, prior to attachment to a surface and subsequent adoption of the biofilm phenotype. P. stuartii planktonic and biofilm cells are remarkably resistant to calcium, magnesium and to high concentrations of urea, and show the ability to grow over a wide range of pHs. Experiments conducted on a P. stuartii strain knocked-out for the Omp-Pst2 porin sheds light on the role it plays in the early stages of growth, as well as in the adaptation to high concentration of urea and to varying pH.

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Porin self-association enables cell-to-cell contact in Providencia stuartii floating communities

El-Khatib

Nasrallah

Lopes

et al. 2018

Proc. Natl. Acad. Sci. U.S.A.

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The gram-negative pathogen forms floating communities within which adjacent cells are in apparent contact, before depositing as canonical surface-attached biofilms. Because porins are the most abundant proteins in the outer membrane of gram-negative bacteria, we hypothesized that they could be involved in cell-to-cell contact and undertook a structure-function relationship study on the two porins of, Omp-Pst1 and Omp-Pst2. Our crystal structures reveal that these porins can self-associate through their extracellular loops, forming dimers of trimers (DOTs) that could enable cell-to-cell contact within floating communities. Support for this hypothesis was obtained by studying the porin-dependent aggregation of liposomes and model cells. The observation that facing channels are open in the two porin structures suggests that DOTs could not only promote cell-to-cell contact but also contribute to intercellular communication.

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Julie Lopes

Providencia stuartii form biofilms and floating communities of cells that display high resistance to environmental insults

Porin self-association enables cell-to-cell contact in Providencia stuartii floating communities

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