Stress response and virulence factors in bacterial pathogens relevant for Chilean aquaculture: current status and outlook of our knowledge

The study of the stress responses in bacteria has given us a wealth of information regarding the mechanisms employed by these bacteria in aggressive or even non-optimal living conditions. This information has been applied by several researchers to identify molecular targets related to pathogeny, virulence, and survival, among others, and to design new prophylactic or therapeutic strategies against them. In this study, our knowledge of these mechanisms has been summarized with emphasis on some aquatic pathogenic bacteria of relevance to the health and productive aspects of Chilean salmon farming (Piscirickettsia salmonis, Tenacibaculum spp., Renibacterium salmoninarum, and Yersinia ruckeri). This study will aid further investigations aimed at shedding more light on possible lines of action for these pathogens in the coming years.

Draft genomes and reference transcriptomes extend the coding potential of the fish pathogen Piscirickettsia salmonis

Background: Draft and complete genome sequences from bacteria are key tools to understand genetic determinants involved in pathogenesis in several disease models. Piscirickettsia salmonis is a Gram-negative bacterium responsible for the Salmon Rickettsial Syndrome (SRS), a bacterial disease that threatens the sustainability of the Chilean salmon industry. In previous reports, complete and draft genome sequences have been generated and annotated. However, the lack of transcriptome data underestimates the genetic potential, does not provide information about transcriptional units and contributes to disseminate annotation errors. Results: Here we present the draft genome and transcriptome sequences of four P. salmonis strains. We have identified the transcriptional architecture of previously characterized virulence factors and trait-specific genes associated to cation uptake, metal efflux, antibiotic resistance, secretion systems and other virulence factors. Conclusions: This data has provided a refined genome annotation and also new insights on the transcriptional structures and coding potential of this fish pathogen.

Evaluation of the bactericidal activity of secondary metabolites isolated from Heliotropium genus against Piscirickettsia salmonis / Evaluación de la actividad bactericida de metabolitos secundarios aislados desde especies del género Heliotropiumcontra Piscirickettsia salmonis

The intracellular bacteria Piscirickettsia salmonis is the most prevalent pathogen in the Chilean salmon industry, responsible for 50 percent of losses in recent years. So far, there are no effective treatments to control infections by this pathogen due to the emergence of antibiotics resistance. Therefore, it is extremely important to conduct research to find successful antibacterial therapies. In this paper, we evaluated the in vitro bactericidal activity of flavonoids and aromatic geranyl derivatives isolated from the resinous exudate of species Heliotropium filifolium, H. sinuatum y H. huascoense. The results showed that the compounds Filifolinone, Naringenine and 3-O- methylgalangine cause different percentage of mortality of bacteria and therefore they are good candidates to continue its evaluation in vitro and in vivo.

La bacteria intracelular Piscirickettsia salmonis es el patógeno de mayor incidencia en la industria salmonera chilena siendo responsable de un 50 por ciento de las pérdidas en los últimos años. Hasta ahora no hay tratamientos efectivos para este patógeno que permitan controlar las infecciones provocadas por él debido a la aparición de resistencia a antibióticos. Por lo tanto, resulta de gran importancia investigar para encontrar terapias antibacterianas efectivas. En este trabajo nosotros evaluamos la actividad bactericida in vitro de flavonoides y derivados aromáticos geranilados aislados desde el exudado resinoso de las especies vegetales Heliotropium filifolium, H. sinuatum y H. huascoense. Los resultados mostraron que los compuestos Filifolinona, Naringenina y 3-O-metilgalangina provocan diferentes porcentajes de mortalidad de la bacteria y, por lo tanto, son candidatos para seguir siendo evaluados tanto in vitro como in vivo.

Development of a caspase-3 antibody as a tool for detecting apoptosis in cells from rainbow trout (Oncorhynchus mykiss)

Background: Apoptosis is an active cell death process mediated by caspases activation, in which different extrinsic or intrinsic signalling pathways result in direct activation of effector caspases. Caspase-3 is considered to be the most important of the executioner caspases, which cause the morphological and biochemical changes detected in apoptotic cells. Different bacterial and virus pathogens have developed different strategies to survive inside the host and overcome natural protections, one of them is inducing apoptotic death in infected cells. We have demonstrated previously that Piscirickettsia salmonis activates this process in monocytes/macrophages from salmonid RTS11 cell line both by morphological and caspase detection assays; nevertheless, recognition of caspase activation by western blot was impossible since most of the commercially available antibodies for mammalian caspases are not cross-reacting. Results: We have generated a monospecific polyclonal antibody directed to an epitope region of salmonid caspase-3; the selected epitope present high homology with caspase-3 from others teleost species and includes the active site of the enzyme. The peptide was designed using bioinformatics tools and was chemically synthesized using the Fmoc strategy, analysed by RP-HPLC, its molecular weight confirmed by mass spectrometry and its structure analyzed by circular dichroism. The synthetic peptide was immunized and antibodies from ascitic fluid were enriched for immunoglobulins using caprylic acid and then purified by activated affinity columns. The anti-peptide activity of purified antibodies was verified by ELISA, and the ability of the anti-peptide to recognize salmonid caspase-3 activation was demonstrated with the molecule in P. salmonis RTS11 infected cells by western blotting, ELISA and immunocytochemistry. Conclusions: This is the first antibody available for a fish caspase, specifically for trout caspase-3...