Brine shrimp are aquatic crustaceans belonging to a genus of Artemia. This organism is widely used for testing the toxicity of chemicals. In this study, brine shrimp were evaluated as an infection model organism to study bacterial virulence. Artemia nauplii were infected with various pathogenic bacteria, such as Vibrio vulnificus, Pseudomonas aeruginosa, Burkholderia vietnamiensis, Staphylococcus aureus, and Escherichia coli, and the susceptibility to these bacteria was investigated by counting the survival of the infected nauplii. While all of the tested bacteria have significant virulence to brine shrimp, killing the nauplii in a few days, V. vulnificus showed the strongest virulence. P. aeruginosa also showed a dose-dependent virulence to brine shrimp, but the virulence was weaker than that of V. vulnificus. The virulence tests using the virulence-attenuated mutants of V. vulnificus and P. aeruginosa, such as quorum sensing (QS) mutants or protease-deficient mutants showed a significant attenuation of virulence, demonstrating that the QS mechanism is important in the virulence of these bacteria to brine shrimp. B. vietnamiensis, S. aureus, and E. coli were also virulent to brine shrimp and the virulence was correlated with dosage within 24 h under our conditions. Salmonella enterica Typhimurium and Bacillus subtilis were also virulent to brine shrimp, but the virulence was weak and slowly exerted compared with that of other bacteria. Taken together, we suggest that brine shrimp are a good infection model to assay bacterial virulence, especially for V. vulnificus and P. aeruginosa, and QS is important in the bacterial virulence to brine shrimp.Key words: brine shrimp; infection model; protease; Pseudomonas aeruginosa; quorum sensing;
Vibrio vulnificus
IntroductionThe brine shrimp is an aquatic crustacean that is frequently used as a standard organism for testing the toxicity of chemicals and as live food in the larviculture of economically important fishes and crustaceans (Sorgeloos et al., 1978;Peroone and Wells, 1987;Orozco-Medina et al., 2002;Marques et al., 2006). A genus of brine shrimp, Artemia, is known to exist worldwide in inland saltwater lakes and is able to live in waters of high salinity (up to 25%), which feature makes the brine shrimp a good host model organism for the virulence study of marine pathogenic bacteria (Marques et al., 2006;Gajardo and Beardmore, 2012). Moreover, Artemia produces dormant eggs, known as cysts, that are stably stored for long periods and hatched as needed (Gajardo and Beardmore, 2012). This characteristic also provides a convenient way to use this organism for scientific applications, as well as for practical uses. Brine shrimp may have additional advantages like their short life-span and good resilience when used as a model organism (Sorgeloos et al., 1978;Peroone and Wells, 1987;Marques et al., 2006;Gajardo and Beardmore, 2012).In this study, we intended to use brine shrimp for testing the virulence of pathogenic bacteria, instead of toxic chemicals. Currently, there...
