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. 2020 Oct;84(4):302-309.

Salmonella enterica serovar Typhimurium gene sseK3 is required for intracellular proliferation and virulence

Fuyu Du  1 Chengshui Liao  1 Yadong Yang  1 Chuan Yu  1 Xiaojie Zhang  1 Xiangchao Cheng  1 Chunjie Zhang  1
Affiliations

Salmonella enterica serovar Typhimurium gene sseK3 is required for intracellular proliferation and virulence

Fuyu Du et al. Can J Vet Res. 2020 Oct.

Abstract
in English, French

Salmonella enterica serovar Typhimurium (S. Typhimurium) is one of the most significant zoonotic pathogens that poses a threat to humans. Previous studies have identified that Salmonella-secreted effector K3 (SseK3) is a novel translated and secreted protein of S. Typhimurium. The objective of this study was to determine whether deletion of the sseK3 gene can attenuate the virulence of S. Typhimurium. To do this, we constructed an sseK3 deletion mutant using the double-exchange allele of the suicide plasmid pRE112ΔsseK3 and assessed the virulence and intracellular proliferation of the mutant. The sseK3 deletion mutant exhibited adhesion and invasion properties similar to those of wild-type (WT) S. Typhimurium, although the virulence and intracellular proliferation of the mutant were significantly reduced compared to that of the WT strain. Furthermore, the observed increase in the median lethal dose (LD50) reflects a decrease in the pathogenicity of the sseK3 deletion mutant in a murine model. In summary, we concluded that disruption of sseK3 can attenuate the intracellular proliferation and reduce the virulence of S. Typhimurium.

Salmonella enterica serovar Typhimurium (S. Typhimurium) est un des agents pathogènes zoonotiques les plus importants qui représente une menace pour les humains. Des études antérieures ont identifié que l’effecteur K3 secrété par Salmonella (SseK3) est une nouvelle protéine traduite et secrétée par S. Typhimurium. L’objectif de la présente étude était de déterminer si une délétion du gène sseK3 pouvait atténuer la virulence de S. Typhimurium. Nous avons construit un mutant avec la délétion de sseK3 en utilisant l’allèle d’échange double du plasmide suicide pRE112ΔsseK3 et avons évalué la virulence et la prolifération intracellulaire du mutant. Le mutant de délétion démontrait des propriétés d’adhésion et d’invasion similaires à celles du type sauvage (WT) de S. Typhimurium, bien que la virulence et la prolifération intracellulaire du mutant étaient considérablement réduites comparativement à celles de la souche WT. De plus, l’augmentation observée de la dose létale médiane (LD50) reflète une diminution dans la pathogénicité de ce mutant de délétion sseK3 dans un modèle murin. En résumé, nous concluons qu’une perturbation de sseK3 peut atténuer la prolifération intracellulaire et réduire la virulence de S. Typhimurium.(Traduit par Docteur Serge Messier).

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Figures

Figure 1
Figure 1
Flowchart of major steps in deletion of sseK3.
Figure 2
Figure 2
A — Identification of the ΔsseK3 in-frame mutation by PCR. M — Marker DL2000; 1 — negative control; 2 — double-crossover ΔsseK3 mutant; 3 — single-crossover ΔsseK3 mutant; and 4 — wild-type (WT). B — Verification of pBR322-sseK3 electroporated into SL1344ΔsseK3. M — Marker DL5000; 1 to 3 — SL1344CΔsseK3; and 4 — negative control.
Figure 3
Figure 3
Biofilm formation assay among wild-type (WT), ΔsseK3 mutant, and sseK3-complemented strains. Data for all groups are presented as mean ± SD. Optical density at 570 nm (OD570) values of quantitative microtiter plate among WT, ΔsseK3 mutant, and sseK3-complemented strains with crystal violet staining. Statistical significance was calculated using ANOVA (Bonferroni’s multiple-comparison test) (**P < 0.01). The asterisk (*) indicates that the ΔsseK3 mutant differed significantly from the WT and sseK3-complemented strains.
Figure 4
Figure 4
Biofilm morphology among wild-type (WT), ΔsseK3 mutant, and sseK3-complemented strains.
Figure 5
Figure 5
Analysis of intracellular survival and replication of wild-type (WT), ΔsseK3 mutant, and sseK3-complemented strain in macrophages. The WT, ΔsseK3 mutant, and sseK3-complemented strains were coincubated with cells and the number of bacteria was counted at 0.5 h, 1.5 h, and 4 h. Data for all groups are presented as mean ± SD. Statistical significance was calculated using ANOVA (Bonferroni’s multiple-comparison test). The asterisk (*) indicates a statistically significant difference among the WT, ΔsseK3, and complemented strains at 4 h compared with 1.5 h (*P < 0.05).
Figure 6
Figure 6
Percent survival of mice infected with wild-type (WT) (A) or ΔsseK3 mutant strain (B). The mice were inoculated by intraperitoneal injection and mortality was monitored over 5 wk (n = 12/group). Kaplan-Meier survival curves of mice infected with WT or ΔsseK3 mutant strain. Data were analyzed using the log-rank test. P-values for 1 × 106, 1 × 107, and × 108 were **P < 0.01 when comparing the WT to the ΔsseK3 mutant.
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