Elizabeth Pradel scite author profile

The nematode Caenorhabditis elegans is present in soils and composts, where it can encounter a variety of microorganisms. Some bacteria in these rich environments are innocuous food sources for C. elegans, whereas others are pathogens. Under laboratory conditions, C. elegans will avoid certain pathogens, such as Serratia marcescens, by exiting a bacterial lawn a few hours after entering it. By combining bacterial genetics and nematode genetics, we show that C. elegans specifically avoids certain strains of Serratia based on their production of the cyclic lipodepsipentapeptide serrawettin W2. Lawn-avoidance behavior is chiefly mediated by the two AWB chemosensory neurons, probably through G protein-coupled chemoreceptors, and also involves the nematode Toll-like receptor gene tol-1. Purified serrawettin W2, added to an Escherichia coli lawn, can directly elicit lawn avoidance in an AWB-dependent fashion, as can another chemical detected by AWB. These findings represent an insight into chemical recognition between these two soil organisms and reveal sensory mechanisms for pathogen recognition in C. elegans.behavior ͉ biosurfactants ͉ host-pathogen interactions ͉ nonribosomal peptide synthetase ͉ olfaction

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A Model of Bacterial Intestinal Infections in Drosophila melanogaster

Nehme

et al. 2007

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Serratia marcescens is an entomopathogenic bacterium that opportunistically infects a wide range of hosts, including humans. In a model of septic injury, if directly introduced into the body cavity of Drosophila, this pathogen is insensitive to the host's systemic immune response and kills flies in a day. We find that S. marcescens resistance to the Drosophila immune deficiency (imd)-mediated humoral response requires the bacterial lipopolysaccharide O-antigen. If ingested by Drosophila, bacteria cross the gut and penetrate the body cavity. During this passage, the bacteria can be observed within the cells of the intestinal epithelium. In such an oral infection model, the flies succumb to infection only after 6 days. We demonstrate that two complementary host defense mechanisms act together against such food-borne infection: an antimicrobial response in the intestine that is regulated by the imd pathway and phagocytosis by hemocytes of bacteria that have escaped into the hemolymph. Interestingly, bacteria present in the hemolymph elicit a systemic immune response only when phagocytosis is blocked. Our observations support a model wherein peptidoglycan fragments released during bacterial growth activate the imd pathway and do not back a proposed role for phagocytosis in the immune activation of the fat body. Thanks to the genetic tools available in both host and pathogen, the molecular dissection of the interactions between S. marcescens and Drosophila will provide a useful paradigm for deciphering intestinal pathogenesis.

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Genome Evolution and Plasticity of Serratia marcescens, an Important Multidrug-Resistant Nosocomial Pathogen

et al. 2014

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Serratia marcescens is an important nosocomial pathogen that can cause an array of infections, most notably of the urinary tract and bloodstream. Naturally, it is found in many environmental niches, and is capable of infecting plants and animals. The emergence and spread of multidrug-resistant strains producing extended-spectrum or metallo beta-lactamases now pose a threat to public health worldwide. Here we report the complete genome sequences of two carefully selected S. marcescens strains, a multidrug-resistant clinical isolate (strain SM39) and an insect isolate (strain Db11). Our comparative analyses reveal the core genome of S. marcescens and define the potential metabolic capacity, virulence, and multidrug resistance of this species. We show a remarkable intraspecies genetic diversity, both at the sequence level and with regards genome flexibility, which may reflect the diversity of niches inhabited by members of this species. A broader analysis with other Serratia species identifies a set of approximately 3,000 genes that characterize the genus. Within this apparent genetic diversity, we identified many genes implicated in the high virulence potential and antibiotic resistance of SM39, including the metallo beta-lactamase and multiple other drug resistance determinants carried on plasmid pSMC1. We further show that pSMC1 is most closely related to plasmids circulating in Pseudomonas species. Our data will provide a valuable basis for future studies on S. marcescens and new insights into the genetic mechanisms that underlie the emergence of pathogens highly resistant to multiple antimicrobial agents.

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The AcrAB-TolC Efflux Pump Contributes to Multidrug Resistance in the Nosocomial Pathogen Enterobacter aerogenes

Pradel

Pagès

2002

Antimicrob Agents Chemother

139

121

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Structures of the rfaB, rfaI, rfaJ, and rfaS genes of Escherichia coli K-12 and their roles in assembly of the lipopolysaccharide core

1992

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Analysis of the sequence of a 4.1-kb rfa region downstream from rfaP revealed four genes. The first of these encodes a basic protein of 36,730 Da and does not correspond to any known rfa gene. It has been designated rfaS. The second gene was identified as rfaB on the basis of its ability to complement a Salmonella typhimurium rfaB mutant and encodes a 42,060-Da protein. The third and fourth genes encode proteins of 39,423 and 36,046 Da which are strongly homologous to the RfaI and RfaJ proteins of S. typhimurium. Escherichia coli K-12 restriction fragments carrying these genes complement an S. typhimurium rfaI mutant and, at lower efficiency, an rfaJ mutant. The difference in complementation efficiency suggests that the rfaI and rfaJ genes of E. coli K-12 have sugar and acceptor specificities different from those of S. typhimurium, as predicted from the different lipopolysaccharide (LPS) core structures of the two organisms. Defined mutations affecting all four genes were constructed in vitro and crossed onto the chromosome. The phenotypes of these mutations suggest that extension of the core may require protein-protein interactions between the enzymes involved in core completion as well as the interaction of these enzymes with their specific acceptor molecules. Mutants blocked at rfaI or genes encoding earlier steps in core biosynthesis exhibited a single predominant LPS band on gels while mutants blocked at rfaJ or genes encoding later steps produced multiple strong bands, indicating that one of the processes generating core heterogeneity requires a functional rfaI gene.

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Effect of rfaH (sfrB) and temperature on expression of rfa genes of Escherichia coli K-12

Pradel

Schnaitman

1991

J Bacteriol

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In order to study the regulation of a large block of contiguous genes at the rfa locus of Escherichia coli K-12 which are involved in synthesis and modification of the lipopolysaccharide core, the transposon TnlacZ was used to generate in-frame lacZ fusions to the coding regions of five genes (raQ, -G, -P, -B and -J) within this block. The P-galactosidase activity of strains in which these fusions had been crossed into the chromosomal rfa locus was'significantly decreased when the rfaHll (sfrBll) allele was introduced and was restored to wild-type levels when these strains were lysogenized with a A phage carrying wild-type rfaH. This indicates that the positive regulatory function encoded by rfaH is required throughout this block of genes. In addition, expression of the lacZ fusion to rfaJ was reduced by growth at 42°C, and this correlated with a temperature-induced change in the electrophoretic profile of the core lipopolysaccharide.The major rfa locus at 81 min of the Escherichia coli chromosome (3) is a cluster of 16 or 17 genes (19) involved in the synthesis of the lipopolysaccharide (LPS) core. This includes a series of 10 contiguous genes, beginning with rfaQ, which are transcribed in the leftward (counterclockwise) direction in reference to the linkage map of E. coli K-12 (3). Studies of insertion mutations indicate that many if not all of these 10 genes are organized into a complex operon which may also contain internal promoters or regulatory elements (1). This block of genes includes rfaG, -B, -I, and -J, which encode glycosyl transferases involved in synthesis of the hexose region of the core; rfaP and -K, which are involved in modification or decoration of the core; and at least four additional genes (rfaQ, -Y, -Z, and a 38-kDa open reading frame between rfaP and -B) whose functions are unknown (19). The order of these genes is rfaQGP(38 kDa)BIJYZK, and a portion of this region is shown in Fig. 1. Genes which are part of the rfa cluster but which lie outside of this block include genes rfaC, -D, and -F, which are involved in synthesis of the heptose region of the inner core; rfaL, which is required for attachment of 0 antigen; kdtA, which is involved in attachment of the first two 2-keto-3-deoxyoctulosonic acid residues to lipid A; and one or two genes of unknown function.The gene rfaH (formerly sfrB in E. coli), located at 87 min on the E. coli map outside of the major rfa locus (3), encodes a positive regulator of genes in this block. Beutin and Achtman (4) first described sfrB mutants of E. coli as being defective in the function of the tra genes of F and altered in sensitivity to LPS-specific phages. A subsequent study by Beutin et al. (5) indicated that the sfrB product functioned as an antiterminator in the tra operon. Salmonella typhimurium rfaH mutants were first detected as rough mutants producing a type Rc LPS core (lacking all hexoses except for the first glucose residue), although additional studies indicated the production of a more heterogeneous population of core structures (8). Sander...

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A generalized transducing phage (ϕIF3) for the genomically sequenced Serratia marcescens strain Db11: a tool for functional genomics of an opportunistic human pathogen

Petty

Foulds

Pradel

et al. 2006

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A bacteriophage (ϕIF3) capable of mediating generalized transduction in Serratia marcescens strain Db11 has been isolated and characterized. The genome of this Serratia strain has recently been sequenced and is likely to become the reference strain for S. marcescens researchers. ϕIF3 is most likely a virulent phage, which can transduce markers at frequencies of 10−6 transductants per p.f.u. It has a lipopolysaccharide receptor and was determined to have a latent period of 50 min and a burst size of approximately 100 phages. The phage DNA was resistant to digestion with restriction enzymes. Electron microscopy showed ϕIF3 to be a member of the family Myoviridae. This is the first report of a generalized transducing phage able to infect Db11 and this phage will be a valuable tool for functional genomic analysis of the pathogen host.

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Pyridylpiperazine-based allosteric inhibitors of RND-type multidrug efflux pumps

et al. 2022

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Efflux transporters of the RND family confer resistance to multiple antibiotics in Gram-negative bacteria. Here, we identify and chemically optimize pyridylpiperazine-based compounds that potentiate antibiotic activity in E. coli through inhibition of its primary RND transporter, AcrAB-TolC. Characterisation of resistant E. coli mutants and structural biology analyses indicate that the compounds bind to a unique site on the transmembrane domain of the AcrB L protomer, lined by key catalytic residues involved in proton relay. Molecular dynamics simulations suggest that the inhibitors access this binding pocket from the cytoplasm via a channel exclusively present in the AcrB L protomer. Thus, our work unveils a class of allosteric efflux-pump inhibitors that likely act by preventing the functional catalytic cycle of the RND pump.

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