Lamya Rhayat scite author profile

SummaryThe cell envelope of mycobacteria is a complex multilaminar structure that protects the cell from stresses encountered in the environment, and plays an important role against the bactericidal activity of immune system cells. The outermost layer of the mycobacterial envelope typically contains species-specific glycolipids. Depending on the mycobacterial species, the major glycolipid localized at the surface can be either a phenolglycolipid or a peptidoglycolipid (GPL). Currently, the mechanism of how these glycolipids are addressed to the cell surface is not understood. In this study, by using a transposon library of Mycobacterium smegmatis and a simple dye assay, six genes involved in GPLs synthesis have been characterized. All of these genes are clustered in a single genomic region of approximately 60 kb. We show by biochemical analyses that two non-ribosomal peptide synthetases, a polyketide synthase, a methyltransferase and a member of the MmpL family are required for the biosynthesis of the GPLs backbone. Furthermore, we demonstrate that a small integral membrane protein of 272 amino acids named Gap ( gap : GPL addressing protein) is specifically required for the transport of the GPLs to the cell surface. This protein is predicted to contain six transmembrane segments and possesses homologues across the mycobacterial genus, thus delineating a new protein family. This Gap family represents a new paradigm for the transport of small molecules across the mycobacterial envelope, a critical determinant of mycobacterial virulence.

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Effect of Bacillus subtilis Strains on Intestinal Barrier Function and Inflammatory Response

Rhayat

et al. 2019

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Strong tight junctions and curtailed inflammatory responses under stressful conditions are key for optimal digestive health. Bacillus -based probiotics are increasingly being used to maintain broilers' health, but their mode of action is often not well-defined. In the present study we used Caco-2 cells as a model for intestinal epithelia and assessed the effect of three Bacillus -based probiotics on intestinal barrier function and intestinal inflammation. Experimental results showed that one of the three tested strains, Bs 29784, significantly reinforced intestinal barrier integrity under basal conditions through an up-regulation of the expression of tight junction's proteins, whereas the others had no or detrimental effects. When Caco-2 cells were pre-treated with Bacillus subtilis strains, the subsequent IL-8 release to various pro-inflammatory signals (IL-1β, deoxynivalenol, or flagellin) was blunted compared to cells that had not been pretreated, but to a different extent depending on the strain of Bacillus used. Bs 29784, was able to significantly decrease IL-8 production in all stressed conditions tested. Mechanistically, Bs 29784 appeared to limit nuclear translocation of NF-κB during IL-1β exposure by preventing IκB degradation. The effects of Bs 29784 were observed independently with supernatant and cells but in a lesser extent than with the combination, indicating that they can thus likely be attributed to both secreted metabolites and cell-associated compounds. Moreover, under inflammatory conditions, Bs 29784 significantly reduced the upregulation of iNOS protein levels further underlining its intestinal anti-inflammatory potential. Our data show that Bacillus -based probiotics may indeed improve digestive health by strengthening intestinal barrier and limiting inflammatory responses and that these properties are strain-dependent.

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How the early sporulation sigma factor σ^F delays the switch to late development in Bacillus subtilis

Karmazyn-Campelli

Rhayat

Carballido-López

et al. 2008

Molecular Microbiology

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SummarySporulation in Bacillus subtilis is a primitive differentiation process involving two cell types, the forespore and the mother cell. Each cell implements two successive transcription programmes controlled by specific sigma factors. We report that activity of s G , the late forespore sigma factor, is kept in check by Gin, the product of csfB, a gene controlled by s F , the early forespore sigma factor. Gin abolishes s G transcriptional activity when s G is artificially synthesized during growth, but has no effect on s F . Gin interacts strongly with s G but not with s F in a yeast two-hybrid experiment. The absence of Gin allows s G to be active during sporulation independently of the mother-cell development to which it is normally coupled. Premature s G activity leads to the formation of slowgerminating spores, and complete deregulation of s G synthesis is lethal when combined with gin inactivation. Gin allows s F to delay the switch to the late forespore transcription programme by preventing s G to take over before the cell has reached a critical stage of development. A similar strategy, following a completely unrelated route, is used by the mother cell.

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Lamya Rhayat

Gap, a mycobacterial specific integral membrane protein, is required for glycolipid transport to the cell surface

Effect of Bacillus subtilis Strains on Intestinal Barrier Function and Inflammatory Response

How the early sporulation sigma factor σ^F delays the switch to late development in Bacillus subtilis

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Lamya Rhayat

Gap, a mycobacterial specific integral membrane protein, is required for glycolipid transport to the cell surface

Effect of Bacillus subtilis Strains on Intestinal Barrier Function and Inflammatory Response

How the early sporulation sigma factor σF delays the switch to late development in Bacillus subtilis

Contact Info

Product

Resources

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How the early sporulation sigma factor σ^F delays the switch to late development in Bacillus subtilis