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• Journal article
  Pratap CB, Scanu T, Spaapen RM, Bakker JM, Wu L-E, Hofland I, Broeks A, Shukla VK, Kumar M, Janssen H, Song J-Y, Riele HT, Holden DW, Nath G, Neefjes Jet al., 2016,

  Salmonella manipulation of host signalling pathways promotes cellular transformation and cancer of infected tissues

  , International Journal of Infectious Diseases, Vol: 45, Pages: 145-145, ISSN: 1201-9712
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• Journal article
  Larrouy-Maumus GJ, Leonardo B Marino, Ashoka V R Madduri, T J Ragan, Debbie M Hunt, Lucrezia Bassano, Maximiliano G Gutierrez, D Branch Moody, Fernando R Pavan, Luiz Pedro S de Carvalhoet al., 2016,

  Cell-Envelope Remodeling as a Determinant of Phenotypic Antibacterial Tolerance in Mycobacterium tuberculosis

  , ACS Infectious Diseases, Vol: 2, Pages: 352-360, ISSN: 2373-8227

  The mechanisms that lead to phenotypic antibacterial tolerance in bacteria remain poorly understood. We investigate whether changes in NaCl concentration toward physiologically higher values affect antibacterial efficacy against Mycobacterium tuberculosis (Mtb), the causal agent of human tuberculosis. Indeed, multiclass phenotypic antibacterial tolerance is observed during Mtb growth in physiologic saline. This includes changes in sensitivity to ethionamide, ethambutol, d-cycloserine, several aminoglycosides, and quinolones. By employing organism-wide metabolomic and lipidomic approaches combined with phenotypic tests, we identified a time-dependent biphasic adaptive response after exposure of Mtb to physiological levels of NaCl. A first rapid, extensive, and reversible phase was associated with changes in core and amino acid metabolism. In a second phase, Mtb responded with a substantial remodelling of plasma membrane and outer lipid membrane composition. We demonstrate that phenotypic tolerance at physiological concentrations of NaCl is the result of changes in plasma and outer membrane lipid remodeling and not changes in core metabolism. Altogether, these results indicate that physiologic saline-induced antibacterial tolerance is kinetically coupled to cell envelope changes and demonstrate that metabolic changes and growth arrest are not the cause of phenotypic tolerance observed in Mtb exposed to physiologic concentrations of NaCl. Importantly, this work uncovers a role for bacterial cell envelope remodeling in antibacterial tolerance, alongside well-documented allterations in respiration, metabolism, and growth rate.

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• Journal article
  Buckley AM, Jukes C, Candlish D, Irvine JJ, Spencer J, Fagan RP, Roe AJ, Christie JM, Fairweather NF, Douce GRet al., 2016,

  Lighting Up Clostridium Difficile: Reporting Gene Expression Using Fluorescent Lov Domains

  , Scientific Reports, Vol: 6, ISSN: 2045-2322

  The uses of fluorescent reporters derived from green fluorescent protein have proved invaluable for the visualisation of biological processes in bacteria grown under aerobic conditions. However, their requirement for oxygen has limited their application in obligate anaerobes such as Clostridium difficile. Fluorescent proteins derived from Light, Oxygen or Voltage sensing (LOV) domains have been shown to bridge this limitation, but their utility as translational fusions to monitor protein expression and localisation in a strict anaerobic bacterium has not been reported. Here we demonstrate the utility of phiLOV in three species of Clostridium and its application as a marker of real-time protein translation and dynamics through genetic fusion with the cell division protein, FtsZ. Time lapse microscopy of dividing cells suggests that Z ring assembly arises through the extension of the FtsZ arc starting from one point on the circumference. Furthermore, through incorporation of phiLOV into the flagella subunit, FliC, we show the potential of bacterial LOV-based fusion proteins to be successfully exported to the extracellular environment.

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• Journal article
  So EC, Schroeder GN, Carson D, Mattheis C, Mousnier A, Broncel M, Tate EW, Frankel GMet al., 2016,

  The Rab-binding profiles of bacterial virulence factors during infection

  , Journal of Biological Chemistry, Vol: 291, Pages: 5832-5843, ISSN: 1083-351X

  Legionella pneumophila, the causativeagent of Legionnaire’s disease, uses its typeIV secretion system to translocate over 300effector proteins into host cells. Theseeffectors subvert host cell signalingpathways to ensure bacterial proliferation.Despite their importance for pathogenesis,the roles of most of the effectors are yet tobe characterized. Key to understanding thefunction of effectors is the identification ofhost proteins they bind during infection. Wepreviously developed a novel tandemaffinitypurification (TAP) approach usinghexahistidine and BirA-specificbiotinylation tags for isolating translocatedeffector complexes from infected cellswhose composition were subsequentlydeciphered by mass spectrometry. Here wefurther advanced the workflow for the TAPapproach and determined the infectiondependentinteractomes of the effectorsSidM and LidA, which were previouslyreported to promiscuously bind multiple RabGTPases in vitro. In this study we defined astringent subset of Rab GTPases targeted bySidM and LidA during infection, comprisingof Rab1A, 1B, 6 and 10; in addition, LidAtargets Rab14 and 18. Taken together, thisstudy illustrates the power of this approachto profile the intracellular interactomes ofbacterial effectors during infection

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• Journal article
  Domingues L, Ismail A, Charro N, Rodriguez-Escudero I, Holden DW, Molina M, Cid VJ, Mota LJet al., 2016,

  The Salmonella effector SteA binds phosphatidylinositol 4-phosphate for subcellular targeting within host cells

  , Cellular Microbiology, Vol: 18, Pages: 949-969, ISSN: 1462-5822

  Many bacterial pathogens use specialized secretion systems to deliver virulence effector proteins into eukaryotic host cells. The function of these effectors depends on their localization within infected cells, but the mechanisms determining subcellular targeting of each effector are mostly elusive. Here, we show that the Salmonella type III secretion effector SteA binds specifically to phosphatidylinositol 4-phosphate [PI(4)P]. Ectopically expressed SteA localized at the plasma membrane (PM) of eukaryotic cells. However, SteA was displaced from the PM of Saccharomyces cerevisiae in mutants unable to synthesize the local pool of PI(4)P and from the PM of HeLa cells after localized depletion of PI(4)P. Moreover, in infected cells, bacterially translocated or ectopically expressed SteA localized at the membrane of the Salmonella-containing vacuole (SCV) and to Salmonella-induced tubules; using the PI(4)P-binding domain of the Legionella type IV secretion effector SidC as probe, we found PI(4)P at the SCV membrane and associated tubules throughout Salmonella infection of HeLa cells. Both binding of SteA to PI(4)P and the subcellular localization of ectopically expressed or bacterially translocated SteA were dependent on a lysine residue near the N-terminus of the protein. Overall, this indicates that binding of SteA to PI(4)P is necessary for its localization within host cells.

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• Journal article
  Corrigan RM, Bellows LE, Wood A, Grundling Aet al., 2016,

  ppGpp negatively impacts ribosome assembly affecting growth and antimicrobial tolerance in Gram-positive bacteria

  , Proceedings of the National Academy of Sciences of the United States of America, Vol: 113, Pages: E1710-E1719, ISSN: 1091-6490

  The stringent response is a survival mechanism used by bacteria to deal with stress. It is coordinated by the nucleotides guanosine tetraphosphate and pentaphosphate [(p)ppGpp], which interact with target proteins to promote bacterial survival. Although this response has been well characterized in proteobacteria, very little is known about the effectors of this signaling system in Gram-positive species. Here, we report on the identification of seven target proteins for the stringent response nucleotides in the Gram-positive bacterium Staphylococcus aureus. We demonstrate that the GTP synthesis enzymes HprT and Gmk bind with a high affinity, leading to an inhibition of GTP production. In addition, we identified five putative GTPases—RsgA, RbgA, Era, HflX, and ObgE—as (p)ppGpp target proteins. We show that RsgA, RbgA, Era, and HflX are functional GTPases and that their activity is promoted in the presence of ribosomes but strongly inhibited by the stringent response nucleotides. By characterizing the function of RsgA in vivo, we ascertain that this protein is involved in ribosome assembly, with an rsgA deletion strain, or a strain inactivated for GTPase activity, displaying decreased growth, a decrease in the amount of mature 70S ribosomes, and an increased level of tolerance to antimicrobials. We additionally demonstrate that the interaction of ppGpp with cellular GTPases is not unique to the staphylococci, as homologs from Bacillus subtilis and Enterococcus faecalis retain this ability. Taken together, this study reveals ribosome inactivation as a previously unidentified mechanism through which the stringent response functions in Gram-positive bacteria.

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• Journal article
  Filloux A, Whitfield C, 2016,

  Editorial: The many wonders of the bacterial cell surface

  , FEMS MICROBIOLOGY REVIEWS, Vol: 40, Pages: 161-163, ISSN: 0168-6445
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  • Citations: 9
• Journal article
  Serrano M, Crawshaw AD, Dembek M, Monteiro JM, Pereira FC, Pinho MG, Fairweather NF, Salgado PS, Henriques AOet al., 2016,

  The SpoIIQ-SpoIIIAH complex of Clostridium difficile controls forespore engulfment and late stages of gene expression and spore morphogenesis

  , Molecular Microbiology, Vol: 100, Pages: 204-228, ISSN: 1365-2958

  Engulfment of the forespore by the mother cell is a universal feature of endosporulation. In Bacillus subtilis, the forespore protein SpoIIQ and the mother cell protein SpoIIIAH form a channel, essential for endosporulation, through which the developing spore is nurtured. The two proteins also form a backup system for engulfment. Unlike in B. subtilis, SpoIIQ of Clostridium difficile has intact LytM zinc-binding motifs. We show that spoIIQ or spoIIIAH deletion mutants of C. difficile result in anomalous engulfment, and that disruption of the SpoIIQ LytM domain via a single amino acid substitution (H120S) impairs engulfment differently. SpoIIQ and SpoIIQH120S interact with SpoIIIAH throughout engulfment. SpoIIQ, but not SpoIIQH120S, binds Zn2+, and metal absence alters the SpoIIQ-SpoIIIAH complex in vitro. Possibly, SpoIIQH120S supports normal engulfment in some cells but not a second function of the complex, required following engulfment completion. We show that cells of the spoIIQ or spoIIIAH mutants that complete engulfment are impaired in post-engulfment, forespore and mother cell-specific gene expression, suggesting a channel-like function. Both engulfment and a channel-like function may be ancestral functions of SpoIIQ-SpoIIIAH while the requirement for engulfment was alleviated through the emergence of redundant mechanisms in B. subtilis and related organisms.

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• Journal article
  Fisher RA, Cheverton AM, Helaine S, 2016,

  Analysis of Macrophage-Induced Salmonella Persisters.

  , Methods in Molecular Biology, Vol: 1333, Pages: 177-187, ISSN: 1940-6029

  A small subpopulation of non-replicating, multidrug-tolerant bacteria is present within clonal populations of many bacterial species. Known as persisters, these bacteria are probably the cause of relapsing infections such as typhoid fever. Formation of non-growing Salmonella persisters is stimulated by macrophage phagocytosis. This chapter outlines methods to identify and study persisters resulting from interactions between bacterial pathogens and their hosts. We use their antibiotic tolerance for isolation and enumeration and developed a method to study the heterogeneity of growth within clonal populations through single-cell analysis.

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• Journal article
  Taylor J, Taylor G, Hare S, Matthews SJet al., 2016,

  Structures of the DfsB protein family suggest a cationic, helical sibling-lethal factor peptide

  , Journal of Molecular Biology, Vol: 428, Pages: 554-560, ISSN: 1089-8638

  Bacteria have developed a variety of mechanisms for survivingharsh environmental conditions, nutrient stress and overpopulation.Paenibacillus dendritiformis produces a lethal protein (Slf) that is ableto induce cell death in neighboring colonies and a phenotypic switch inmore distant ones. Slf is derived from the secreted precursor protein,DfsB, after proteolytic processing. Here, we present new crystalstructures of DfsB homologues from a variety of bacterial species and asurprising version present in the yeast Saccharomyces cerevisiae.Adopting a four-helix bundle decorated with a further three short heliceswithin intervening loops, DfsB belongs to a non-enzymatic class of theDinB fold. The structure suggests that the biologically-active Slffragment may possess a C-terminal helix rich in basic and aromaticresidues that suggest a functional mechanism akin to that for cationicantimicrobial peptides.

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