In vitro markers for virulence in Yersinia ruckeri

In this study, different traits that have been associated with bacterial virulence were studied in Yersinia ruckeri. Two isolates that had been shown to cause disease and mortality in experimentally infected rainbow trout were compared with five avirulent isolates. Both virulent isolates showed high adhesion to gill and intestinal mucus of rainbow trout, whereas the majority of non‐virulent strains demonstrated significantly lower adhesion. A decrease in adherence capability following bacterial treatment with sodium metaperiodate and proteolytic enzymes suggested the involvement of carbohydrates and proteins. All strains were able to adhere to and invade chinook salmon embryo cell line (CHSE‐214), fathead minnow epithelial cell line (FHM) and rainbow trout liver cell line (R1). One non‐virulent strain was highly adhesive and invasive in the three cell lines, whereas the virulent strains showed moderate adhesive and invasive capacity. The internalization of several isolates was inhibited by colchicine and cytochalasin‐D, suggesting that microtubules and microfilaments play a role. For all strains, intracellular survival assays showed a decrease of viable bacteria in the cells 6 h after inoculation, suggesting that Y. ruckeri is not able to multiply or survive inside cultured cells. Analysis of the susceptibility to the bactericidal effect of rainbow trout serum demonstrated that virulent Y. ruckeri strains were serum resistant, whereas non‐virulent strains were generally serum sensitive.     

Difference in genes between a high virulence strain G4 and a low virulence strain G18 of Flavobacterium columnare by using suppression subtractive hybridization

Flavobacterium columnare is the causative agent of columnaris disease. Different genetic groups of F. columnare show to some extent different degrees of virulence. To identify genetic differences between the high virulence strain G₄ and the low virulence strain G₁₈ of F. columnare, suppression subtractive hybridization was used. A total of 46 genes were identified from the virulent strain G₄, 35 of which showed some degree of homology with known proteins and can be classified into 11 categories: DNA replication or recombination proteins, inorganic ion transport proteins, outer membrane proteins, enterotoxin, binding proteins, YD repeat proteins, transposase, chaperon, signal transduction‐related proteins, regulatory proteins, metabolism‐related proteins. Several putative virulence factors identified in other bacteria could also be identified in the virulent strain G₄, such as ferrous iron transport protein, TonB‐dependent receptor, transposases, as well as ABC transporter permease protein. The flanking region of a putative transposase ISFclI was analysed, and a putative Rhs element was located at the downstream of the putative transposase. The analysis of isfclI gene in 24 strains of F. columnare isolated in China revealed that 11 strains have isfclI, and all the strains from Zhaoqing, Anhui and Qingjiang have isfclI.     

Kaolinitic clay protects against Flavobacterium columnare infection in channel catfish Ictalurus punctatus (Rafinesque)

Columnaris disease, caused by the bacterial pathogen Flavobacterium columnare, continues to be a major problem worldwide in both wild and cultured freshwater finfish. Despite the far-reaching negative impacts of columnaris disease, safe and efficacious preventatives and curatives for this disease remain limited. In this study, we evaluated the potential of kaolin (Al₂Si₂0₅(OH)₄), a type of clay, for the prevention of columnaris disease. Channel catfish, Ictalurus punctatus (Rafinesque), fingerlings were experimentally challenged with Flavobacterium columnare in untreated water or with water containing kaolin (1 g L⁻¹). Over the 7-day course of study, kaolin treatment led to significantly (P < 0.001) improved survival (96%) as compared to untreated fish (78% survival). Histological examination of the gills revealed that kaolin-treated fish had substantially less gill damage than untreated controls. Quantitative PCR analysis of gill tissue revealed that kaolin significantly reduced F. columnare adhesion (measured at 1 h post-challenge) and colonization (24 h post-challenge). Incubation of kaolin with F. columnare in vitro demonstrated that kaolin reduced the number of F. columnare cells in culture supernatants, presumably through the formation of physical complexes through adsorption. In summary, kaolin can improve survival, reduce gill pathologies and reduce bacterial attachment to key tissues associated with columnaris disease in channel catfish by binding to F. columnare.     

Surface properties of Streptococcus phocae strains isolated from diseased Atlantic salmon, Salmo salar L

Streptococcus phocae is an emerging pathogen for Chilean Atlantic salmon, Salmo salar, but the factors determining its virulence are not yet elucidated. In this work, cell surface–related properties such as hydrophobicity and haemagglutination, adhesion to mucus and cell lines, capsule detection, survival and biofilm formation in skin mucus and serum resistance of the isolates responsible for outbreaks in Atlantic salmon and seals were examined. Adhesion to hydrocarbons and the results of salt aggregation tests indicated most of the S. phocae were strongly hydrophobic. All isolates exhibited a similar ability to attach to the Chinook salmon embryo (CHSE) cells line, but were not able to enter CHSE cells. Haemagglutination was not detected. Our data clearly indicate that S. phocae can resist the killing activity of mucus and serum and proliferate in them, which could be associated with the presence of a capsular layer around the cells. Pathogenicity studies using seal and fish isolates demonstrated mortality or pathological signs in fish injected only with the Atlantic salmon isolate. No mortalities or histopathological alterations were observed in fish injected with extracellular products.     

Lack of association between Flavobacterium columnare genomovar and virulence in hybrid tilapia Oreochromis niloticus (L.) × Oreochromis aureus (Steindachner)

Columnaris disease can be problematic in tilapia (Oreochromis spp.) production. An understanding of the pathogenesis and virulence of Flavobacterium columnare is needed to develop prevention strategies. The objective of this study was to determine the virulence of genetically defined isolates of F. columnare in sex‐reversed hybrid tilapia, Oreochromis niloticus (L.) × O. aureus (Steindachner). A series of immersion challenge trials were performed using isolates of the five established genomovars of F. columnare: I, II, II‐B, III and I/II. The mean per cent mortality of fish challenged with genomovar I, II and III isolates ranged from 0 to 100, 3.3–78 and 3.3–75%, respectively. The mean per cent mortality of fish challenged with genomovar II‐B ranged from 35 to 96.7%, and the only genomovar I/II isolate tested caused no mortality. Contrary to previous work in other fish species, there did not appear to be an association between F. columnare genomovar and virulence in tilapia. The challenge model used resulted in acute mortality. An alternative challenge model was tested by cohabitating healthy fish with dead fish infected with F. columnare. This method resulted in rapid appearance of clinical signs and mortality, suggesting the potential for F. columnare to increase in virulence upon growth on/in a fish host.     

Identification,annotation of Mucin genes in channel catfish (Ictalurus punctatus) and their expression after bacterial infections revealed by RNA‐Seq analysis

Mucins are large glycoproteins that cover epithelial surfaces of the body and play important roles in prevention of inflammatory and various infectious diseases. In this study, five membrane‐bound and seven secreted mucin genes in the channel catfish were identified. All these identified mucin genes possess at least one PTS, von Willebrand D (VWD) or SEA domains. The expression of the 12 mucin genes in channel catfish was first studied with infection of Edwardsiella ictaluri and Flavobacterium columnare. Expression difference in MUC13a, MUC13, MUC2 and MUC5b was found in the intestine after E. ictaluri infection. Eight mucin gene expressions (except MUC3a, MUC2, MUC4 and MUC5f) were up‐regulated at 4 hr and down‐regulated after 24 hr in the gill with F. columnare infection. Expression level of MUC2 gene was up‐regulated in the intestine with E. ictaluri infection without no significant change in the gill under the F. columnare infection, which indicate that MUC2 is tissue‐specific gene expression and has different immune respond to two bacterial challenge. Taken together, the study showed mucin from the gill by F. columnare challenge induced an obvious response than mucin from the intestine with E. ictaluri infection.     

Efficacy of Common Aquaculture Compounds for Disinfection of Flavobacterium columnare and F. psychrophilum

Flavobacterium columnare and F. psychrophilum are important pathogens of the aquaculture industry, and thus disinfection of aquaculture systems and equipment is essential for disease control. This study examined commercially available compounds in vitro for their ability to eliminate these two species of Flavobacterium from the water. The compounds evaluated included Clorox, ethanol, Roccal, Lysol, iodine, formalin, Chloramine-T, glutaraldehyde, potassium permanganate, sodium chloride, and Virkon Aquatic. In this study, 70% ethanol, 50% ethanol, Clorox, Roccal, Lysol, iodine, glutaraldehyde, Chloramine-T, and Virkon Aquatic reduced the number of bacteria of both species to zero within one minute of contact time. Formalin and 30% ethanol also killed both species of bacteria, but required a longer contact time. Potassium permanganate killed F. columnare within one minute, but did not reduce the numbers of F. psychrophilum even after one hour of contact time. Sodium chloride was not effective.     

Oral and parenteral vaccines against <Emphasis Type="Italic">Flavobacterium columnare</Emphasis>: evaluation of humoral immune response by ELISA and in vivo efficiency in Nile tilapia (<Emphasis Type="Italic">Oreochromis niloticus</Emphasis>)

Flavobacterium columnare is a bacterial pathogen for many freshwater fish species. It is responsible for outbreaks in fish farms worldwide, causing high mortality rates. Fish vaccination is a potential approach for prevention and control of disease, with oral vaccines suitable for fish because of their easier application, low cost and minimum stress to fish. Alginate microparticles have been widely used as controlled release systems, including for fish vaccination. The aim of this study was to evaluate the capacity of oral and parenteral vaccines against F. columnare to induce a humoral response, as well as the in vivo efficiency in Nile tilapia fingerlings. The fingerlings were immunized with bacterin by intraperitoneal (i.p.), intramuscular (i.m.), oral and immersion routes, as well as orally with alginate microparticles containing formalin-killed bacteria. A sandwich ELISA was developed to detect specific antibodies against F. columnare. The animals were challenged with pathogenic strain BZ-1 to determine the relative percentage of survival. A significant humoral response was induced by bacterin administered by i.p. and i.m. routes (P < 0.05). However, none of the vaccine preparations were effective in protecting fish against F. columnare infection (P < 0.05). In spite of high antibody levels, there was no relation between immunoglobulin titers and resistance to columnaris for Nile tilapia fingerlings. These data suggest that use of serological analysis as the only method to determine vaccine efficiency against F. columnare infection in Nile tilapia can lead to imprecise results for the usefulness of these products in vivo.     

Detection and Distribution of Flavobacterium columnare in Experimentally-Infected Channel Catfish,Ictalurus punctatus Using Culture and Polymerase Chain Reaction

Abstract

The authors examined the use of culture and polymerase chain reaction (PCR) to detect Flavobacterium columnare in experimentally-infected channel catfish, Ictalurus punctatus. Five treatments were utilized which included immersion exposure to 10⁶, 10⁷, 10⁸ colony forming units (CFU)/mL for 30 minutes, intramuscular injection of 10⁸ CFU/fish and a negative control (i.e., immersion in Cytophaga broth). Flavobacterium columnare was isolated and detected in mucus 30 minutes following exposure by microbiological culture and PCR in all treatments except the negative controls. Gills were positive by culture and by PCR in all treatments at 30 minutes post treatment except the 10⁶ CFU/mL immersion treatment which did not yield positive culture and PCR results until 1 hour. Culture positive samples were observed in the internal organs (anterior and posterior kidney) and blood of the 10⁷⁸ CFU/mL treatments although at low numbers (≤10 CFU). Results of PCR paralleled that of culture for the mucus and gill samples when analyzing all treatments together over time suggesting either method is useful in determination of the presence ofF. columnare. Polymerase chain reaction was significantly (P < 0.001) better at detection ofF. columnare from skin/muscle than was the use of microbiological culture. These results suggest that PCR may be useful for rapid detection of F. columnare in the mucus.     

Influence of water quality and temperature on adhesion of high and low virulence Flavobacterium columnare strains to isolated gill arches

The ability of Flavobacterium columnare ( Flexibacter columnaris ) to attach to the gills of common carp, Cyprinus carpio L., was evaluated using a gill perfusion model. A comparison between a high and a low virulence strain of F. columnare was made and evaluated in comparison to results obtained previously with an in vivo model. The ion composition of the water of the organ bath in which the gills were suspended was varied and the influence on adhesion processes assessed. Experiments were carried out to examine the influence of water quality (i.e. nitrite and organic matter) and temperature on the capacity of the bacteria to adhere. It was found that the high virulence strain adhered more readily than the low virulence strain, as was found during the in vivo experiments. Moreover, it was observed that adhesion of the high virulence strain was enhanced by a number of factors. These were immersion of the gill in bivalent, ion-rich water, the presence of nitrite or organic matter, and high temperatures.     

TaqMan real-time polymerase chain reaction assay for rapid detection of Flavobacterium columnare

Flavobacterium columnare is a ubiquitous Gram-negative bacterium that causes columnaris disease in a wide variety of fish worldwide. Timely detection of this bacterium is important to prevent its spreading and to reduce the economic loss to fish farmers. We developed a TaqMan-based real-time polymerase chain reaction (PCR) targeting a 113 bp nucleotide region of the chondroitin AC lyase gene of F. columnare G₄. Specificity of the assay evaluated with 20 isolates of F. columnare and 15 other taxonomically or ecologically related bacteria revealed that the primers and probe were 100% specific for detection of F. columnare. The sensitivity limit of detection of F. columnare in pure cultures, over a range of dilutions [3.1 × 10⁰–3.1 × 10⁶ colony-forming units (CFU) mL⁻¹], was observed to be ∼3 bacterial cells. The lowest limit of detection in nucleic acids from pure culture of F. columnare was 5.4 fg and the assay was linear with the log of amount of nucleic acid (R²=0.994) over that range (5.4 ng–5.4 fg). In tissues (blood, gills and kidney) of F. columnare experimentally infected fish, the bacterial numbers measured by TaqMan real-time PCR ranged from 3.4 × 10⁰ to 9.5 × 10⁵ CFU mL⁻¹. In both F. columnare experimentally infected and spiked samples, positive PCR results were confirmed by bacteriological culture with 100% agreement. The TaqMan real-time PCR developed in this study is specific, sensitive and reproducible for the detection and quantitation of F. columnare in infected fish.     

Sickeningly Sweet: L‐rhamnose stimulates Flavobacterium columnare biofilm formation and virulence

Flavobacterium columnare, the causative agent of columnaris disease, causes substantial mortality worldwide in numerous freshwater finfish species. Due to its global significance and impact on the aquaculture industry continual efforts to better understand basic mechanisms that contribute to disease are urgently needed. The current work sought to evaluate the effect of L‐rhamnose on the growth characteristics of F. columnare. While we initially did not observe any key changes during the total growth of F. columnare isolates tested when treated with L‐rhamnose, it soon became apparent that the difference lies in the ability of this carbohydrate to facilitate the formation of biofilms. The addition of different concentrations of L‐rhamnose consistently promoted the development of biofilms among different F. columnare isolates; however, it does not appear to be sufficient as a sole carbon source for biofilm growth. Our data also suggest that iron acquisition machinery is required for biofilm development. Finally, the addition of different concentrations of L‐rhamnose to F. columnare prior to a laboratory challenge increased mortality rates in channel catfish (Ictalurus punctatus) as compared to controls. These results provide further evidence that biofilm formation is an integral virulence factor in the initiation of disease in fish.     

几株益生菌对鲤前肠黏液的体外黏附特性

采用体外固定鲤前肠黏液,结合细菌同位素示踪的方法,对来源于鲤肠道的2株肠球菌和1株柠檬酸杆菌以及养殖水体的2株芽孢杆菌的细菌表面凝集素和黏液蛋白受体的化学组成、对病原菌附着鲤前肠黏液的影响等进行了研究。结果表明,5株菌经高碘酸钠和蛋白水解酶修饰后,高碘酸钠能极显著降低芽孢杆菌、肠球菌和柠檬酸杆菌的黏附率(P<0.01),而蛋白水解酶对多数菌株的影响不显著(P>0.05),推测细菌表面的凝集素主要为具糖蛋白性质的物质。黏液蛋白经蛋白水解酶处理后,部分菌株的附着数量显著降低(P<0.05),但经高碘酸钠处理后,5株菌的黏附率均显著上升(P<0.05),提示黏液蛋白上存在的5株细菌的特异性受体物质可能为蛋白质。益生菌通过排斥、竞争和取代作用能够显著降低部分病原菌的黏附率。取代作用对病原菌黏附的抑制效果最好,但具有菌株特异性。     

Comparative analysis of the phenotypic characteristics of high- and low-virulent strains of Edwardsiella tarda

Edwardsiella tarda is a causative agent of edwardsiellosis in freshwater and marine fish. Extracellular enzymic, haemolytic, hydrophobic and serum resistance activities, haemagglutination, autoagglutination and siderophores of high‐ and low‐ virulent E. tarda strains were examined. The results revealed different haemagglutination, autoagglutination, haemolytic, hydrophobic and serum resistance activities in different strains. Analysis of extracellular proteins (ECPs) and outer membrane proteins (OMPs) demonstrated several major, low molecular weight, virulent‐strain‐specific proteins, which could be virulence‐related. Based on the database search with MALDI‐TOF MS data, the closest homologies of the three protein bands Ed1, Ed2 and Ed3 were phosphotransferase enzyme family protein, nitrite reductase [NAD(P)H], large subunit and ATP‐dependent Lon protease, respectively. A comparison of pathogenicity of purified lipopolysaccharide (LPS) and lipid A from virulent and avirulent strains demonstrated that LPS was one of the virulence factors of the E. tarda isolates, and lipid A was a biologically active determinant of LPS.     

Virulence assay of rhizoid and non‐rhizoid morphotypes of Flavobacterium columnare in red tilapia,Oreochromis sp., fry

Numerous isolates of Flavobacterium columnare were previously recovered from red tilapia, Oreochromis sp., exhibiting columnaris‐like disease in Thai farms, and the phenotypic and genetic characteristics were described. The objective of this study was to determine the virulence of two morphotypes (rhizoid and non‐rhizoid colonies) of F. columnare and to determine their ability to adhere to and persist in red tilapia fry. The results showed that the typical rhizoid isolate (CUVET1214) was a highly virulent isolate and caused 100% mortality within 24 h following bath challenge of red tilapia with three different doses. The non‐rhizoid isolate (CUVET1201) was avirulent to red tilapia fry. Both morphotypes adhered to and persisted in tilapia similarly at 0.5 and 6 h post‐challenge as determined by whole fish bacterial loads. At 24 and 48 h post‐challenge, fry challenged with the rhizoid morphotype exhibited significantly higher bacterial loads than the non‐rhizoid morphotype. The results suggested that an inability of the non‐rhizoid morphotype to persist in tilapia fry may explain lack of virulence.     

Generation of Paramoeba perurans clonal cultures using flow cytometry and confirmation of virulence

Amoebic gill disease (AGD) in farmed Atlantic salmon is caused by the amoeba Paramoeba perurans. The recent establishment of in vitro culture techniques for P. perurans has provided a valuable tool for studying the parasite in detail. In this study, flow cytometry was used to generate clonal cultures from single‐sorted amoeba, and these were used to successfully establish AGD in experimental Atlantic salmon. The clonal cultures displayed differences in virulence, based on gill scores. The P. perurans load on gills, determined by qPCR analysis, showed a positive relationship with gill score, and with clonal virulence, indicating that the ability of amoebae to proliferate and/or remain attached on gills may play a role in virulence. Gill scores based on gross signs and histopathological analysis were in agreement. No association between level of gill score and specific gill arch was observed. It was found that for fish with lower gill scores based on histopathological examination, gross examination and qPCR analysis of gills from the same fish were less successful in detecting lesions and amoebae, respectively.     

Potential of Chinese chive oil as a natural antimicrobial for controlling <Emphasis Type="Italic">Flavobacterium columnare</Emphasis> infection in Nile tilapia <Emphasis Type="Italic">Oreochromis niloticus</Emphasis>

Chinese chive Allium tuberosum oil was studied for its diallyl sulfide content and its antimicrobial activity against Flavobacterium columnare in fish both in vitro and. The oil was found to have a very low concentration of diallyl monosulfide relative to the other diallyl sulfides (diallyl disulfide, diallyl trisulfide, and diallyl tetrasulfide) identified. In the in vitro study, the Chinese chive oil had a bacteriocidal effect on all tested strains of F. columnare, with varied minimal inhibitory concentrations. The median lethal dose (LD₅₀) of FC4 for Nile tilapia Oreochromis niloticus was determined to be 3.72 × 10³ CFU/fish. In the in vivo trial, no mortality was observed in fish fed fish diets supplemented with 800 mg/kg Chinese chive oil and 100 mg/kg of oxytetracycline hydrochloride 5 days prior to infection with F. columnare strain 4 at a LD₅₀. These results indicate that Chinese chive oil has the potential to replace antibiotics for controlling fish disease caused by F. columnare.     

Influence of native catfish mucus on Flavobacterium columnare growth and proteolytic activity

Flavobacterium columnare causes columnaris disease of farmed and wild freshwater fish. Skin mucus is an important factor in early stages of columnaris pathogenesis, albeit little studied. Our objectives were to (a) characterize the terminal glycosylation pattern (TGP) of catfish mucus, (b) determine the growth of F. columnare in formulated water (FW)‐containing channel catfish (Ictalurus punctatus) or hybrid catfish (Ictalurus punctatus X Ictalurus furcatus) mucus and (c) examine extracellular protease activity of two F. columnare isolates differing in virulence. The TGP of catfish mucus by lectin binding was as follows: alpha‐D‐mannose/alpha‐D‐glucose >N‐acetyl‐beta‐D‐glucosamine >N‐acetyl‐beta‐D‐glucosamine/N‐acetylneuraminic acid >N‐acetyl‐D‐galactosamine >alpha‐D‐galactose/N‐acetyl‐alpha‐D‐galactosamine >beta‐D‐galactose = alpha‐L‐fucose. Virulence studies demonstrated isolate AL‐02‐36 was highly virulent in channel catfish fry (0.1 g) with cumulative mortality of 90%‐100% versus 60% for isolate ALG‐00‐530 at equivalent doses (~3 × 10⁶ CFU/ml); a similar result was observed in larger (0.7 g) catfish. In multiple experiments, F. columnare replicated (2‐3 logs) and survived (28 days) in formulated water‐containing catfish mucus. Highly virulent isolate AL‐02‐36 possessed at least 2.5‐ to fivefold higher protease activity following growth in mucus than the less virulent ALG‐00‐530. Flavobacterium columnare utilized catfish mucus as a nutrient source and mucus presence modulated extracellular protease production.     

Cytotoxicity of Streptococcus agalactiae secretory protein on tilapia cultured cells

Streptococcus agalactiae secrete virulence factors believed to be able of killing host tissues, especially under elevated water temperature. A direct effect of S. agalactiae secretory products on tilapia cells was tested on the tilapia kidney (TK-1) cell culture. The bacteria were cultured under four different temperature levels: 22, 29, 32 and 37°C; the cell-free portion was processed through SDS-PAGE; and distinct bands were identified by LC-MS/MS. At least, three virulence factors were identified, Bsp, PcsB and CAMP factor, with increasing levels as the cultured temperature rose. Expressions of bsp, pcsB and cfb were also up-regulated with the rising of the temperature in S. agalactiae culture. The supernatant from the bacteria cultured under specified temperatures was added into TK-1 cell-cultured wells. Morphological damage and mortality of the cultured cells, as determined by MTT method, were increased progressively from the supernatant treatment according to the rise of temperature in S. agalactiae culture. This study suggests that the production of the three virulence factors of S. agalactiae reported herein is temperature-dependent, and it is likely that CAMP factor directly kills the TK-1 cells since the other two types of protein are involved in S. agalactiae cell division and the bacterial adherence to host tissues.