Boon-Khai Tan scite author profile

The resistance of Pseudomonas aeruginosa to conventional antimicrobial treatment is a major scourge in healthcare. Therefore, it is crucial that novel potent anti-infectives are discovered. The aim of the present study is to screen marine actinomycetes for chemical entities capable of overcoming P. aeruginosa infection through mechanisms involving anti-virulence or host immunity activities. A total of 18 actinomycetes isolates were sampled from marine sediment of Songsong Island, Kedah, Malaysia. Upon confirming that the methanolic crude extract of these isolates do not display direct bactericidal activities, they were tested for capacity to rescue Caenorhabditis elegans infected with P. aeruginosa strain PA14. A hexane partition of the extract from one isolate, designated as Streptomyces sp. CCB-PSK207, could promote the survival of PA14 infected worms by more than 60%. Partial 16S sequence analysis on this isolate showed identity of 99.79% with Streptomyces sundarbansensis. This partition did not impair feeding behavior of C. elegans worms. Tested on PA14, the partition also did not affect bacterial growth or its ability to colonize host gut. The production of biofilm, protease, and pyocyanin in PA14 were uninterrupted, although there was an increase in elastase production. In lys-7::GFP worms, this partition was shown to induce the expression of lysozyme 7, an important innate immunity defense molecule that was repressed during PA14 infection. GC-MS analysis of the bioactive fraction of Streptomyces sp. CCB-PSK207 revealed the presence of methyl esters of branched saturated fatty acids. In conclusion, this is the first report of a marine actinomycete producing metabolites capable of rescuing C. elegans from PA14 through a lys-7 mediated activity.

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Black sea cucumber (Holothuria atraJaeger, 1833) rescuesPseudomonas aeruginosa-infectedCaenorhabditis elegans viareduction of pathogen virulence factors and enhancement of host immunity

Lee

Tan

Eng

et al. 2019

Food Funct.

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show abstract

Black sea cucumber (Holothuria atra Jaeger, 1833) rescues Pseudomonas aeruginosa-infected Caenorhabditis elegans via reduction of pathogen virulence factors and enhancement of host immunity

Lee

Tan

Eng

et al. 2019

Preprint

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Materials and methods:Here, we utilized the Caenorhabditis elegans-P. aeruginosa 43 infection model to assess the anti-infective properties of H. atra. We conducted the C. 44 elegans-P. aeruginosa slow killing assay to isolate a fraction with capable of conferring 45 survival to pathogen-infected worms, followed by a series of tests to assess the 46 anti-virulence and immune-related properties of the sea cucumber bioactive fraction. 47 Results: The H. atra methanol extract improved survival of infected worms without 48 affecting pathogen viability. Further extraction and assays sequestered a fraction with 49 significant anti-infective activities and was able to attenuate the secretion of virulence 50 factors and biofilm formation. Treatment of P. aeruginosa-infected transgenic lys-7::GFP 51 worms with this fraction also restored the repressed expression of host lys-7, a defense 52 enzyme. QTOF-LCMS analysis of this fraction revealed the presence of 53 aspidospermatidine, an indole alkaloid and inosine. 54 Conclusion: Collectively, results shows that H. atra confers survival advantage against P. 55 aeruginosa infection through inhibition of pathogen virulence and the restitution of host 56 lys-7 expression.57

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Boon-Khai Tan

Swietenia macrophylla extract promotes the ability of Caenorhabditis elegans to survive Pseudomonas aeruginosa infection

A Marine Actinomycete Rescues Caenorhabditis elegans from Pseudomonas aeruginosa Infection through Restitution of Lysozyme 7

Black sea cucumber (Holothuria atraJaeger, 1833) rescuesPseudomonas aeruginosa-infectedCaenorhabditis elegans viareduction of pathogen virulence factors and enhancement of host immunity

Black sea cucumber (Holothuria atra Jaeger, 1833) rescues Pseudomonas aeruginosa-infected Caenorhabditis elegans via reduction of pathogen virulence factors and enhancement of host immunity

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