Project description:Piscirickettsia salmonis, the biological agent of Salmonid Rickettsial Septicemia (SRS), is a facultative intracellular bacterium that can be divided into two genogroups (LF-89 and EM-90) with different virulence levels and patterns. Studies have found co-infection of these genogroups in salmonid farms in Chile, but it is essential to assess whether this interaction within the host is related to virulence and changes in pathogen dynamics. In this study, we studied four isolates from EM-90 and one LF-89 isolate chosen based on their genomic differences. The aim was to evaluate how co-cultivation affects bacterial growth performance and virulence factor expression in Atlantic salmon (Salmo salar) in vitro and in vivo. In vitro results using FN2 medium, showed a similar growth curve between co-cultures of LF-89 and EM-90 compared to EM-90 monocultures. This was explained by the higher ratio of EM-90 to LF-89 in all co-cultures. When evaluating the expression of virulence factors, it was discovered that the luxR gene was expressed only in EM-90-like isolates and that there were significant differences between mono- and co-cultures for flaA and cheA, suggesting a response to cohabitation. Moreover, during in vivo co-cultures, transcriptomic analysis revealed an upregulation of transposases, flagellum-related genes (fliI and flgK), transporters, and permeases that could unveil novel virulence effectors used in the early infection process of P. salmonis. Thus, our work has shown that cohabitation of P. salmonis genogroups can modulate their behavior and virulence effector expression. These data can contribute to new strategies and approaches to improve the current health treatments against this salmonid pathogen.

Project description:Piscirickettsia salmonis, the biological agent of SRS (Salmon Rickettsial Syndrome), is a facultative intracellular bacterium that can be divided into two genogroups (LF-89 and EM-90) with different virulence levels and patterns. There are studies that have found co-infection of these genogroups in salmonid farms in Chile, but it is essential to assess whether this competitive interaction within the host is related to virulence and changes in pathogen dynamics. In this work, we studied one isolate from each genogroup, EM-90 and LF-89 . The aim was to evaluate how co-cultures could affect their growth performance and virulence factors expression at in vivo cultures in Atlantic salmon. During in vivo co-cultures, transcriptomic analysis revealed an upregulation of transposases, flagellum-related genes (fliI and flgK), transporters and permeases that could unveil novel virulence effectors used in the early infection process of P. salmonis. Thus, our work has shown that the cohabitation of the genogroups of P. salmonis can modulate their behavior and virulence effectors expression. These data can contribute to new strategies and approaches to improve current health treatments against this salmonid bacterium.

Project description:Piscirickettsia salmonis LF-89 = ATCC VR-1361 isolate:Lf-89 Raw sequence reads

Project description:In Atlantic salmon, vaccines have failed to control and prevent Piscirickettsiosis, for reasons that remain elusive. In this study, we report the efficacy of two commercial vaccines developed with the Piscirickettsia salmonis isolates AL100005 and AL 20542 against another two genogroups which are considered highly and ubiquitously prevalent in Chile: LF-89 and EM-90. Two cohabitation trials were performed to mimic field conditions and vaccine performance: (1) post-smolt fish were challenged with a single infection of LF-89, (2) adults were coinfected with EM-90, and a low level coinfection of sea lice. In the first trial, the vaccine delayed smolt mortalities by two days; however, unvaccinated and vaccinated fish did not show significant differences in survival (unvaccinated: 60.3%, vaccinated: 56.7%; p = 0.28). In the second trial, mortality started three days later for vaccinated fish than unvaccinated fish. However, unvaccinated and vaccinated fish did not show significant differences in survival (unvaccinated: 64.6%, vaccinated: 60.2%, p = 0.58). Thus, we found no evidence that the evaluated vaccines confer effective protection against the genogroups LF-89 and EM-90 of P. salmonis with estimated relative survival proportions (RPSs) of -9% and -12%, respectively. More studies are necessary to evaluate whether pathogen heterogeneity is a key determinant of the lack of vaccine efficacy against P. salmonis.

Project description:Piscirickettsia salmonis LF-89 = ATCC VR-1361 Transcriptome or Gene expression

Project description:Piscirickettsia salmonis LF-89 = ATCC VR-1361 Genome sequencing

Project description:Piscirickettsia salmonis LF-89 = ATCC VR-1361 Genome sequencing and assembly

Project description:Piscirickettsia salmonis LF-89 = ATCC VR-1361 Genome sequencing

Project description:Piscirickettsia salmonis LF-89 = ATCC VR-1361 Transcriptome or Gene expression

Project description:Piscirickettsia salmonis LF-89 = ATCC VR-1361 Genome sequencing and assembly