Characterization of Shigella type 1 fimbriae: expression, FimA sequence, and phase variation

Snellings, Norma J.; Tall, Ben D.; Venkatesan, Malabi M.

doi:10.1128/iai.65.6.2462-2467.1997

Cited by 33 publications

(21 citation statements)

References 36 publications

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“…We next performed mutational analyses of the genes encoding major structural subunits to demonstrate functional roles in biofilm formation and epithelial cell adherence. We concentrated our analyses on long polar fimbriae representing the thick appendages, type 1 fimbriae representing the thin hair-like structures, and curli representing the electron dense, cloud-like aggregates based on our in silico analyses, the combined appearance of structures in Figures 1 and 2, and the known functional roles of these structures in initial biofilm formation and epithelial cell adherence in other pathogens (8, 28, 43–45). Thus, we constructed ΔlpfA, ΔfimA , and ΔcsgA mutants.…”

Section: Resultsmentioning

confidence: 99%

“…For type 1 fimbriae, previous studies support our observations of both fimA gene transcription and soluble FimA expression. First, clinical isolates of Shigella produced fimbrial-like adhesins after periods of prolonged static growth; however, the genes encoding the factors were not identified (28). Second, another RNA-seq study detected significant induction of the type 1 fim operon in a ΔicgR mutant of S. flexneri 2457T during the intracellar phase of the Shigella lifestyle (60).…”

Section: Discussionmentioning

confidence: 99%

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Shigella flexneri adherence factor expression in in vivo-like conditions

Chanin

Nickerson

Llanos-Chea

et al. 2019

Preprint

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26The Shigella species are Gram-negative, facultative intracellular pathogens that invade the 27 colonic epithelium and cause significant diarrheal disease. Despite extensive research on the pathogen, 28 comprehensive understanding of how Shigella initiates contact with epithelial cells remains unknown. 29 Shigella maintains many of the same Escherichia coli adherence gene operons; however, at least one 30 critical gene component in each operon is currently annotated as a pseudogene in reference genomes. 31 These annotations, coupled with a lack of structures upon microscopic analysis following growth in 32 laboratory media, have led the field to hypothesize that Shigella is unable to produce fimbriae or other 33 "traditional" adherence factors. Nevertheless, our previous analyses have demonstrated that a 34 combination of bile salts and glucose induce both biofilm formation and adherence to colonic epithelial 35 cells. Through a two-part investigation, we first utilized various transcriptomic analyses to demonstrate 36 that S. flexneri strain 2457T adherence gene operons are transcribed. Subsequently, we performed 37 mutation, electron microscopy, biofilm, infection, and proteomic analyses to characterize three of the 38 structural genes. In combination, these studies demonstrate that despite the gene annotations, S. 39 flexneri 2457T uses adherence factors to initiate biofilm formation as well as epithelial cell contact. 40 Furthermore, host factors, namely glucose and bile salts in the small intestine, offer key environmental 41 stimuli required for proper adherence factor expression in S. flexneri. This research may have a 42 significant impact on vaccine development for Shigella and further highlights the importance of 43 utilizing in vivo-like conditions to study bacterial pathogenesis. 44 45 Importance 46 Bacterial pathogens have evolved to regulate virulence gene expression at critical points in the 47 colonization and infection processes to successfully cause disease. The Shigella species infect the 48 epithelial cells lining the colon to result in millions of cases of diarrhea and a significant global health 49 burden. As antibiotic resistance rates increase, understanding the mechanisms of infection are vital to 50 3 ensure successful vaccine development. Despite significant gains in our understanding of Shigella 51 infection, it remains unknown how the bacteria initiate contact with the colonic epithelium. Most 52 pathogens harbor multiple adherence factors to facilitate this process, but Shigella was thought to have 53 lost the ability to produce these factors. Interestingly, we have identified conditions that mimic some 54 features of gastrointestinal transit and enable Shigella to express adherence factors. This work 55 highlights aspects of genetic regulation for Shigella adherence factors and may have a significant 56 impact on future vaccine development. 57 58 59Shigella flexneri is a Gram-negative, facultative anaerobe that infects millions of people each 60 year by causing water...

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Section: Resultsmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Shigella flexneri adherence factor expression in in vivo-like conditions

Chanin

Nickerson

Llanos-Chea

et al. 2019

Preprint

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“…The Salmonella strains employed were cultured and serially passaged in tubes with BHI medium under aerobic, static conditions to selectively enrich type 1‐fimbriated cells as described by Old and Duguid (1970) and Snellings et al. (1997).…”

Section: Discussionmentioning

confidence: 99%

“…Typhimurium ATCC 13311 were cultured in unshaken BHI broth (brain–heart infusion broth; Difco Laboratories, Detroit, MI, USA) at 37°C. Cultures were serially passaged every 24 h, at least five times, according to Old and Duguid (1970) and Snellings et al. (1997).…”

Section: Methodsmentioning

confidence: 99%

Validation of growth as measurand for bacterial adhesion to food and feed ingredients

Becker

Galletti

Hil

et al. 2007

Journal of Applied Microbiology

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Aims: A miniaturized adhesion test was designed to study the binding capacity of food and feed ingredients for bacterial cells. Methods and Results: Bacteria were allowed to adhere to different fibrous materials supplied as well coatings in microtitration plates. The amount of bacteria retained on the materials was determined in an automated way as growth after addition of liquid medium. The test principle was based on an inverse relationship between initial cell densities and the appearance of growth: The higher adhering cell numbers are, the shorter are the detection times of growth. The growth curves obtained were fitted by nonlinear regression analysis employing a sigmoidal curve model. Growth parameters as (i) the time after incubation at which half of the maximum growth yield was reached; (ii) the time‐coordinate of the point of inflection; (iii) the detection time calculated as x‐axis intercept of the maximum specific growth rate in the point of inflection; and (iv) the time‐coordinate of a growth detection threshold at OD = 0·05 were highly separating for the binding capacity of different food and feed ingredients for bacteria. Significance and Impact of the Study: With growth as measurand for adhesion, a simple, high‐throughput method was developed for the screening of huge numbers of different binding matrices and bacteria.

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“…Multiple colony morphologies are seen in other pathogenic organisms and may be considered a form of phase variation (29). The expression of surface proteins of many gram-negative bacteria, including the opacity protein (OapA) of Haemophilus influenzae, the opacity and fimbrial proteins of Neisseria gonorrhoeae and Neisseria meningitidis, and the type 1 fimbriae of Escherichia coli and other enteric species, are known to phase vary (13,36,50,60,62,66). However, unlike the rapid reversal of phenotype typical in other organisms, the colonial morphology shift in A. actinomycetemcomitans has rarely been observed in vitro to change from the smooth to the rough colony phenotype (6,24,35,39,46,66).…”

mentioning

confidence: 99%

Identification and Molecular Analysis of Rough-Colony-Specific Outer Membrane Proteins of Actinobacillus actinomycetemcomitans

1999

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Actinobacillus actinomycetemcomitans, a gram-negative bacterium isolated from the human mouth, has been implicated in the pathogenesis of early-onset periodontitis. Primary isolates cultured from subgingival plaque exhibit an adherent, rough colony phenotype which spontaneously converts to a nonadherent, smooth phenotype upon in vitro subculture. The rough colony variant produces abundant fimbriae and autoaggregates, while the smooth colony variant is planktonic and produces scant fimbriae. To begin to understand the significance of colony variation in biofilm formation by A. actinomycetemcomitans, outer membrane protein profiles of four isogenic rough and smooth colony variants were compared by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Two proteins with relative molecular masses of 43 and 20 kDa were expressed by the rough colony variants exclusively. Expression of these proteins was not found to be dependent on growth phase, oxygen tension, or type of complex medium. N-terminal amino acid sequences of these proteins obtained by Edman degradation were compared with sequences from the University of Oklahoma A. actinomycetemcomitans genome database. Two contiguous open reading frames (ORFs) encoding proteins having sequence homology with these proteins were identified. The 43-kDa protein (RcpA [rough colony protein A]) was similar to precursor protein D of the general secretion pathway of gram-negative bacilli, while the 20-kDa protein (RcpB [rough colony protein B]) appeared to be unique. The genes encoding these proteins have been cloned from A. actinomycetemcomitans 283 and sequenced. A BLASTX (gapped BLAST) search of the surrounding ORFs revealed homology with other fimbria-related proteins. These data suggest that the genes encoding the 43-kDa (rcpA) and 20-kDa (rcpB) proteins may be functionally related to each other and to genes that may encode fimbria-associated proteins.

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Characterization of Shigella type 1 fimbriae: expression, FimA sequence, and phase variation

Cited by 33 publications

References 36 publications

Shigella flexneri adherence factor expression in in vivo-like conditions

Shigella flexneri adherence factor expression in in vivo-like conditions

Validation of growth as measurand for bacterial adhesion to food and feed ingredients

Identification and Molecular Analysis of Rough-Colony-Specific Outer Membrane Proteins of Actinobacillus actinomycetemcomitans

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