Isolation and characterization of new potential probiotic bacteria based on quorum-sensing system

Chu, Weihua; Lü, Feng; Zhu, Weifeng; Kang, Chang-Ho

doi:10.1111/j.1365-2672.2010.04872.x

Cited by 71 publications

(53 citation statements)

References 29 publications

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“…Bacterially mediated quorum quenching using AiiA was also demonstrated to be beneficial against plant pathogens, both when aiiA was expressed in the pathogenic bacterium itself and during coinoculation of the pathogen with bacteria naturally producing AiiA or engineered bacterial strains expressing heterologous AiiA (88,89,(93)(94)(95)(96). AiiA was also shown to have potential for use in aquaculture, as carp fed either recombinant AiiA protein or Bacillus expressing aiiA were more resistant to infection by the fish pathogen Aeromonas hyrophila (361,362). Separately, AHLdegrading enrichment cultures (EC) of undefined microbial isolates naturally associated with marine organisms have been evaluated for use as probiotic cultures in aquaculture.…”

Section: Qsi Success Storiesmentioning

confidence: 99%

Exploiting Quorum Sensing To Confuse Bacterial Pathogens

LaSarre

Federle

2013

Microbiol Mol Biol Rev

665

556

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SUMMARY Cell-cell communication, or quorum sensing, is a widespread phenomenon in bacteria that is used to coordinate gene expression among local populations. Its use by bacterial pathogens to regulate genes that promote invasion, defense, and spread has been particularly well documented. With the ongoing emergence of antibiotic-resistant pathogens, there is a current need for development of alternative therapeutic strategies. An antivirulence approach by which quorum sensing is impeded has caught on as a viable means to manipulate bacterial processes, especially pathogenic traits that are harmful to human and animal health and agricultural productivity. The identification and development of chemical compounds and enzymes that facilitate quorum-sensing inhibition (QSI) by targeting signaling molecules, signal biogenesis, or signal detection are reviewed here. Overall, the evidence suggests that QSI therapy may be efficacious against some, but not necessarily all, bacterial pathogens, and several failures and ongoing concerns that may steer future studies in productive directions are discussed. Nevertheless, various QSI successes have rightfully perpetuated excitement surrounding new potential therapies, and this review highlights promising QSI leads in disrupting pathogenesis in both plants and animals.

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Section: Qsi Success Storiesmentioning

confidence: 99%

Exploiting Quorum Sensing To Confuse Bacterial Pathogens

LaSarre

Federle

2013

Microbiol Mol Biol Rev

665

556

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“…Bacteria that are able to degrade quorum sensing molecules might be useful as biocontrol agents in aquaculture. To date, several bacteria of aquatic origin have been studied for their quorum quenching properties (Chu et al, 2011;Defoirdt et al, 2004;Defoirdt et al, 2008;Merrifield et al, 2010;Nakayama et al, 2009;Nhan et al, 2010;Tinh et al, 2007;Tinh et al, 2008). Marine Bacillus and Halobacillus salinus have been shown to quench the quorum sensing system of Vibrio harveyi (Musthafa et al, 2011;Teasdale et al, 2009).…”

Section: The Use Of Probiotics As An Alternative To Antibiotics In Aqmentioning

confidence: 99%

“…Marine Bacillus and Halobacillus salinus have been shown to quench the quorum sensing system of Vibrio harveyi (Musthafa et al, 2011;Teasdale et al, 2009). A Bacillus (QSI)-1-like bacteria isolated from the intestine of the fish Carassius auratus gibelio can degrade AHLs in vitro and reduced the amount of AHLs and the extracellular protease activity of Aeromonas hydrophila in coculture with the fish pathogen (Chu et al, 2011). Carp fed a diet supplemented with (QSI)-1 showed good survival after an experimental infection with Aeromonas hydrophila compared with those fed a control diet (Chu et al, 2011).…”

Section: The Use Of Probiotics As An Alternative To Antibiotics In Aqmentioning

confidence: 99%

Antibiotics in Aquaculture – Use, Abuse and Alternatives

Romero¹,

Feijóo²,

Navarrete³

2012

Health and Environment in Aquaculture

310

329

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“…The bacteria were incubated in TSB at 30 C for 24 h, centrifuged at 5000Âg for 10 min, and the harvested cells serially diluted in sterile saline to 6 or 10 7 CFU ml À1 of GFP-VpDAHV2. After the immersion, the fish were released into the fibreglass reinforced plastics tank and mortality was recorded for 10 days [21]. Virulence of GFP-VpDAHV2 was determined based on LD 50 which was calculated using the Probit method [22].…”

Section: Determination Of the Lethal Dose Of Vpdahv2 In Zebrafishmentioning

confidence: 99%

“…They were (1) Group A (P. aeruginosa control), being fed with PsDAHP1-containing feed and no challenge; (2) Group B (positive control), being fed with basal feed and challenged with GFP-VpDAHV2; (3) Group C (experimental group); being fed with PsDAHP1-containing feed and challenged with GFPVpDAHV2; and (4) Group D (negative control), being fed with basal feed and no challenge. Fish mortality was recorded daily for 30-days [21], following the challenge; dead and moribund fish were removed and moribund fish examined for the presence of GFPVpDAHV2 in the gills and intestine.…”

Section: Effect Of Psdahp1-mixed Feed On Vpdahv2 Infection Of Zebrafishmentioning

confidence: 99%

N-hexanoyl-L-homoserine lactone-degrading Pseudomonas aeruginosa PsDAHP1 protects zebrafish against Vibrio parahaemolyticus infection

Gopalakrishnan

Jayakumar

Chen

et al. 2015

Fish & Shellfish Immunology

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a b s t r a c tFour strains of N-hexanoyl-L-homoserine lactone (AHL)-degrading Pseudomonas spp., named PsDAHP1, PsDAHP2, PsDAHP3, and PsDAHP4 were isolated and identified from the intestine of Fenneropenaeus indicus. PsDAHP1 showed the highest AHL-degrading activity among the four isolates. PsDAHP1 inhibited biofilm-forming exopolysaccharide and altered cell surface hydrophobicity of virulent green fluorescent protein (GFP)-tagged Vibrio parahaemolyticus DAHV2 (GFP-VpDAHV2). Oral administration of PsDAHP1 significantly reduced zebrafish mortality caused by GFP-VpDAHV2 challenge, and inhibited colonisation of GFP-VpDAHV2 in the gills and intestine of zebrafish as evidence by confocal laser scanning microscope and selective plating. Furthermore, zebrafish receiving PsDAHP1-containing feed had increased phagocytic cells of its leucocytes, increased serum activities of superoxide dismutase and lysozyme. The results suggest that Pseudomonas aeruginosa PsDAHP1 could protect zebrafish from V. parahaemolyticus infection by inhibiting biofilm formation and enhancing defence mechanisms of the fish.

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Isolation and characterization of new potential probiotic bacteria based on quorum-sensing system

Cited by 71 publications

References 29 publications

Exploiting Quorum Sensing To Confuse Bacterial Pathogens

Exploiting Quorum Sensing To Confuse Bacterial Pathogens

Antibiotics in Aquaculture – Use, Abuse and Alternatives

N-hexanoyl-L-homoserine lactone-degrading Pseudomonas aeruginosa PsDAHP1 protects zebrafish against Vibrio parahaemolyticus infection

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