Early Changes in Pigmented Macrophages in Head Kidney of Channel Catfish Infected with Aeromonas hydrophila

Abstract

Channel catfish Ictalurus punctatus with scarified skin were exposed to the bacterial pathogen Aeromonas hydrophila. Systemic infections developed in 80% of the exposed fish, and the remaining exposed fish had infections limited to the cutaneous lesion. Skin of control fish was injured in the same manner as for the exposed fish, but control fish were not exposed to A. hydrophila nor was A. hydrophila recovered from them. None of the fish died during the 3-d experiment, and gross lesions in head kidneys, including changes in the size or relative weight, were not found in infected fish. Macrophage aggregates in head kidney of systemically infected fish increased 68% in mean area, 28% in number, and 111% in total relative volume. Volume of lipofuscin, the predominate pigment found in channel catfish head kidney, in systemically infected fish was about twice that of control fish. Volume of hemosiderin was about four times as great and macrophages containing hemosiderin were about three times as numerous in systemically infected fish as in control fish. The amount of melanin in macrophages did not change in infected fish. Significant differences in macrophage aggregates and pigments were not found between controls and fish with only superficial infections. Microscopic lesions, other than changes in macrophage aggregates and pigments, were not found in the head kidney. Increases in macrophage aggregates, lipofuscin, and hemosiderin in head kidney of channel catfish were useful for quantification of injury caused by a systemic bacterial infection.     

Effect of Indomethacin on the Development of Proliferative Gill Disease

Abstract

After parenteral treatment with the cyclooxygenase inhibitor indomethacin, channel catfish Ictalurus punctatus were exposed to mature spores of an Aurantiactinomyxon sp. demonstrated to be the etiological agent of proliferative gill disease (PGD). Fish that received indomethacin at a dose of 2.0 or 5.0 mg/kg body weight within 0.5 h before exposure to the myxozoan and again at 24 h postexposure had significantly (P < 0.05) less severe gill lesions 7 d after exposure than fish that received the drug vehicle alone. Fish that received 0.5 mg indomethacin/kg had moderately severe lesions. All fish were confirmed to be infected with the organism associated with PGD by microscopic examination of gills 4 or 7 d postexposure. These results suggest that products of the cyclooxygenase pathway (e.g., prostaglandins) participate in the pathophysiologic host response to PGD.     

Transmission of Edwardsiella ictaluri from Infected,Dead to Noninfected Channel Catfish

Abstract

Enteric septicemia of catfish (ESC) was transmitted horizontally from channel catfish Icialurus punctatus that had died from Edwardsiella ictaluri infection to contact channel catfish during 2 d of habitation in a tank. The contact channel catfish became positive for E. ictaluri antibody, became infected with this bacterium, and had signs of ESC and died within 12 d postexposure. Edwardsiella ictaluri was recovered from 24 of the 30 contact channel catfish that died from ESC, as well as from 9 of the 25 tested contact survivors. The cannibalizing of E. ictaluri-infected fish, or the shedding of E. ictaluri from dead fish, or both, were shown to be mechanisms of horizontal transmission of ESC among channel catfish.     

Experiments on Virulence Dose and Portals of Entry for Aeromonas hydrophila in Walking Catfish

Abstract

Aeromonas hydrophila, isolated from chevron snakehead Ophicephalus (=Channa) striatus affected with epizootic ulcerative syndrome (EUS), was injected intramuscularly into healthy walking catfish Clarias batrachus at varying 10-fold serial dilutions from 10⁸ to 0 colony-forming units (cfu) per fish. Only 10⁶ or more cfu/mL induced dermomuscular lesions. Initial healing of lesions was observed by day 7 but complete healing was not apparent until day 16. Experiments were also conducted on possible portals of entry of A. hydrophila into walking catfish: Intramuscular (IM) injection, gastric gavage, fish food, and immersion of injured fish in rearing water inoculated with the test bacteria. Injuries were caused by skin or muscle cut, dermal scraping or incision, fish bite, and cohabitation of fish with golden snails Ampullarius sp. Only IM injection treatment induced dermomuscular pathology in the test catfish. This suggests that a localization of A. hydrophila to a level of 10⁶ cfu/mL in the musculature must be established for dermal lesions to develop.     

Distribution of Edwardsiella ictaluri in California

Abstract

Wild and domestic populations of channel catfish Ictalurus punctatus were examined to determine the distribution of the disease called enteric septicemia of catfish (ESC) in California. The causative agent of ESC, Edwardsiella ictaluri, was isolated from five separate sites in California. Two of these isolations were from rectal swabs of asymptomatic fish, confirming that a carrier state may exist. Normal-appearing fish with serum antibody titer to E. ictaluri were commonly found in domestic channel catfish populations, suggesting that many fish become infected but recover. Wild channel catfish with antibody to E. ictaluri were also found in major reservoirs and water distribution canals. Edwardsiella ictaluri appears to be widely distributed within California.     

Decreased Resistance to Edwardsiella ictaluri Infection in Channel Catfish Intraperitoneally Administered an Oil Adjuvant

Abstract

The effects of intraperitoneal injection of squalene, an oil adjuvant, on nonspecific mortality of channel catfish Ictalurus punctatus and on their resistance to experimental Edwardsiella ictaluri infection were studied. Yearling channel catfish were assigned to control (N = 22) or squalene (N = 25) treatment groups, and mortality was monitored for 14 d following treatment. On day 14 both groups were infected with E. ictaluri, the causative agent of enteric septicemia of catfish, and mortality was monitored for an additional 11 d. Before infection, mortality did not differ between groups. After E. ictaluri infection, fish that received squalene were at a substantially higher risk of dying than control fish (relative risk after squalene treatment = 6.86). These results suggest that intraperitoneal administration of squalene, although not directly toxic, decreased resistance to E. ictaluri infection.     

Longevity of Bolbophorus damnificus Infections in Channel Catfish

Abstract

The digenean Bolbophorus damnificus infects commercial channel catfish Ictalurus punctatus, causing mortality, lower feed consumption, and reduced growth in surviving fish. The purpose of this study was to determine the length of time for which B. damnificus prodiplostomulum metacercariae (juvenile trematode stage that infects fish) would remain viable (parasite appearing to be intact or exhibiting movement) in channel catfish. Fish (n = 210) were infected with molecularly confirmed B. damnificus cercariae harvested from naturally infected marsh rams-horn snails Planorbella trivolvis. During the first sampling (at 20 d postinfection), 8.3 ± 3.6 metacercariae/fish (mean ± SD) were found in the host muscle and visceral organs. The channel catfish were then acclimated to a water temperature of either 18°C or 28°C. After 11 months, 6.8 ± 3.5 and 5.9 ± 3.0 metacercariae/fish were found in groups held at 18°C and 28°C, respectively. The mean number of parasites per fish did not significantly differ between fish held at the two temperatures and did not significantly decline over time at either temperature. Fish examined from 13 to 30 months postinfection all contained viable metacercariae that were morphologically and molecularly identified as B. damnificus. At 18 months, 12 metacercariae (of which 11 were intact and 10 displayed movement) were found in the one fish sampled; at 30 months, the last fish sampled contained three intact metacercariae (one displayed slight movement). Our results indicate that B. damnificus metacercariae can remain viable in channel catfish for at least an 18–30-month production cycle during which they have the potential to affect fish growth; in addition, infected fish may serve as intermediate hosts for these metacercariae for at least 2.5 years postinfection.

Received July 14, 2010; accepted March 6, 2011     

Communications: Specificity of the Channel Catfish Antibody to Edwardsiella ictaluri

Abstract

The specificity of channel catfish Ictalurus punctatus serum antibody to Edwardsiella ictaluri was characterized by microtiter agglutination assay. There was no correlation between antibody titer to Aeromonas hydrophila and antibody titer to E. ictaluri in wild or feral channel catfish. Anti-E. ictaluri antibodies in naturally infected channel catfish were not removed by adsorption by nine other species of bacteria found in the channel catfish intestine and fish ponds. Channel catfish immunized with nine other species of bacteria did not develop substantial antibody titer to E. ictaluri. The antibody response of channel catfish to E. ictaluri is highly specific, and the microtiter agglutination test is a specific indicator of previous exposure to E. ictaluri     

Communications: Experimental Production of Proliferative Gill Disease in Channel Catfish Exposed to a Myxozoan-Infected Oligochaete,Dero digitata

Abstract

Specific-pathogen-free fry of channel catfish Ictalurus punctatus raised in well water were exposed to Dero digitata (an oligochaete) collected from ponds where catfish have had proliferative gill disease (PGD) and where D. digitata is known to be infected with the triactinomyxid myxozoan Aurantiactinomyxon sp. These fry developed gill lesions and parasites characteristic of PGD. Fry exposed to suspensions of mature Aurantiactinomyxon spores obtained from squashes of infected D. digitata also developed PGD. Fry exposed to oligochaetes other than Dero spp., non-oligochaete benthic macroinvertebrates, or suspensions of squashes of D. digitata without identifiable myxozoans did not develop PGD.     

Induction and Evaluation of Proliferative Gill Disease in Channel Catfish Fingerlings

Abstract

Proliferative gill disease (PGD) was first reported in channel catfish Ictalurus punctatus at commercial farms in 1981 and is caused by the myxozoan parasite Henneguya ictaluri. The disease affects the gills and is characterized by severe branchial inflammation, epithelial hyperplasia, lamellar fusion, and lysis of chondrocytes. Presumptive diagnosis is based on the presence of lytic areas in the cartilage of the primary lamellae on microscopic examination and is confirmed histologically by the presence of the organism. In these trials, PGD was induced by exposing channel catfish fingerlings to fresh or aged infectious water collected from a pond containing fish diagnosed with severe PGD. The severity of disease was graded by histological scoring and microscopic examination of wet mounts to determine the percentage of gill filaments containing chondrolytic lesions. Exposure of fish to infectious pond water was shown to produce pathological lesions consistent with PGD, and the percentage of gill filaments containing chondrolytic lesions was positively correlated with histological scoring of gill pathology. The number of trophozoite stages in the gills was shown to increase with the severity of the disease. In most cases, however, parasitic cells were not observed in tissue samples with chondrolytic lesions during the early stages of infection. These observations indicate that pathology and lysis of chondrocytes can occur prior to detection of the organism by histopathology. Exposing fish to infectious pond water that was aged for 1 d produced negligible gill pathology and implies that the infectivity of the H. ictaluri actinospore stage is short lived. Removing fish from the source of infection promoted repair of damaged gill tissue; within 14 d of fish transfer to clean water, gill pathology associated with the acute infection was negligible.     

Experimental Infection of Rainbow Trout with Saprolegnia parasitica

Abstract

A method was developed to experimentally induce saprolegniasis in rainbow trout Oncorhynchus mykiss. The development of a reliable method to produce infected fish is essential to efforts to determine the efficacy of various antifungal treatments. Three methods for inducing saprolegniasis were evaluated in waters containing known concentrations of Saprolegnia parasitica zoospores. These methods included application of the following stressors to fish: (1) abrasion and dewatering, (2) water temperature increase, and (3) a combination of abrasion, dewatering, and temperature increase. Neither physical abrasion nor temperature increase stress alone was effective for inducing saprolegniasis. Only 25.9% of fish stressed by abrasion and dewatering alone became infected. Application of both abrasion and temperature stress, however, induced saprolegniasis in 77.8% of fish tested. Most of these fish became infected after 5 d of stress treatments. No fish became infected or died in the positive control group (not stressed but exposed to S. parasitica zoospores) or the negative control group (not stressed or challenged). This method should enable researchers to induce saprolegniasis in rainbow trout to study its pathogenesis or to test the efficacy of antifungal treatments. In conducting efficacy studies, it is important that therapeutic treatments begin promptly after the first signs of saprolegniasis are observed because the disease can progress very quickly and often results in mortality.     

Responses of Blue Catfish and Channel Catfish to Environmental Nitrite

Abstract

In nitrite-exposure experiments, percent methemoglobin, plasma nitrite concentration, and plasma chloride ion concentration were compared between channel catfish Ictalurus punctatus and blue catfish I. furcatus exposed to sublethal levels of nitrite for 48 h at 25°C. In nitrite-recovery experiments, fish exposed to elevated environmental nitrite for 12 h were transferred to freshwater, and blood characteristics were monitored during the 24-h recovery period. Blue catfish appeared to be more resistant to environmental nitrite than channel catfish. Methemoglobin levels (percent of hemoglobin in methemoglobin form) were significantly lower in blue catfish than in channel catfish. Maximum plasma nitrite concentrations were 137 mg NO₂-/L plasma in blue catfish and 164 mg NO₂-/L plasma in channel catfish. Percent methemoglobin and plasma nitrite concentration were closely correlated. Plasma chloride decreased initially with exposure to nitrite but quickly returned to control levels. Blue catfish exposed to nitrite at 10°C required 1 week to recover when placed in nitrite-free water. The methemoglobin reductase enzyme apparently functioned at a slow rate in fish acclimated to cold temperatures.     

Proliferative Gill Disease of Fish from the Tennessee-Tombigbee Waterway,Mississippi

Abstract

Proliferative gill disease (PGD), a condition not previously reported in wild fish, was found in two channel catfish Ictalurus punctatus sampled from the Tennessee-Tombigbee Waterway in Mississippi during June and July 1989. The parasite thought to cause PGD was observed in only one of the fish, but the distinctive lesions associated with this disease were prominent in both of the channel catfish. Organisms resembling the PGD parasite were also found in the gills of 4 of 18 largemouth bass Micropterus salmoides and 6 of 20 bluegills Lepomis macrochirus, but there was little or no host response to these parasites.     

Electron Microscopy of Bactericidal Effects Produced by the Alternative Complement Pathway of Channel Catfish

Abstract

The activation of the alternative complement pathway (ACP) was investigated by incubating serum of channel catfish Ictalurus punctatus with three gram-negative bacteria. Bactericidal activity and ultrastructural damage were not apparent when cells were incubated with serum that had been treated to eliminate complement activity. Proteins of the ACP were responsible for damaging susceptible Escherichia coli and Pseudomonas fuorescens, whereas there was no effect on Aeromonas salmonicida, which was apparently protected by an A-layer. Scanning electron micrographs revealed damaged cells, and transmission electron micrographs showed circular lesions oriented perpendicularly to the cell membrane. These lesions resemble those resulting from ACP activation in sera from frogs, sharks, trout, lizards and mammals. The existence of membrane attack complexes (MACs) in channel catfish, which are similar to MACs seen in other animals, emphasizes the importance of the ACP in host defense against bacterial infections.     

Effect of Droncit (Praziquantel) on Yellow Grubs Clinostomum marginatum and Eye Flukes Diplostomum spathaceum in Channel Catfish

Abstract

Channel catfish Ictalurus punctatus with infections of yellow grubs Clinostomum marginatum and eye flukes Diplostomum spathaceum were treated with 2 mg Droncit (praziquantel)/L in a water bath for 2 and 4 h. At the time of treatment, 80% of the fish had visible yellow grubs and 70% had opaque eyes. Fourteen days after treatment, 40.1% of the yellow grubs in the 2-h treatment were dead. No grubs were dead in the 4-h treatment; however, the number of yellow grubs was reduced in the treated fish. No dead eye flukes were seen in untreated fish after 14 d, but 59.2 and 44.4% of eye flukes in the 2- and 4-h treatments, respectively, were dead. At 21 d, the percentages of dead eye flukes were 86% (2 h) and 90.1% (4 h). Droncit had limited effect on yellow grubs in channel catfish, but the chemical had a beneficial effect of reducing numbers of eye flukes.     

Determination of the Median Lethal Dose of Botulinum Serotype E in Channel Catfish Fingerlings

Abstract

The median lethal dose of botulinum serotype E in 5.3-g channel catfish Ictalurus punctatus fingerlings was determined. Five tanks (five fish/tank) were assigned to each of the following treatment groups: 70, 50, 35, 25, or 15 pg of purified botulinum serotype E. Fish were injected intracoelomically and observed for 96 h. Administration of the toxin resulted in initial hyperactivity followed by erratic swimming, paresis, and death. The cumulative mortality by treatment group was 100% at 70 pg, 96% at 50 pg, 100% at 35 pg, 88% at 25 pg, and 56% at 15 pg. The median lethal dose was calculated as 13.7 pg/fish (equivalent to a 0.81 median lethal dose for mice Mus musculus) using a logistic regression model. All fish were necropsied; lesions included exophthalmia, ascites, splenic congestion, intussusception of the intestines, congested spleen, and blanching of the intestinal tract. The resultant clinical signs and lesions were similar to those noted in the syndrome of visceral toxicosis of catfish. This study indicates that channel catfish are more sensitive to the effects of botulinum serotype E than laboratory mice, and the signs and lesions of visceral toxicosis of catfish were replicated by injecting catfish with the toxin.

Received October 13, 2011; accepted January 14, 2011     

Dose Titration of Sarafloxacin (A-56620) against Edwardsiella ictaluri Infection in Channel Catfish

Abstract

Two dose-titration studies were performed with sarafloxacin (A-56620) on channel catfish Ictalurus punctatus infected with Edwardsiella ictaluri. Fish were infected with E. ictaluri by water-bath exposure and subsequently fed rations for 5 d to equal 0, 2, 6, 10, or 14 mg sarafloxacin/kg body weight per day. In trial I, mortality was significantly reduced from 69% for fish receiving no medication to 17% for those receiving 10 or 14 mg sarafloxacin/kg per day (P ≤ 0.01). In trial II, mortality was reduced from 33% of the nonmedicated infected group to 5 and 10% offish receiving 10 and 14 mg sarafloxacin/kg per day, respectively. Fish receiving 2 or 6 mg sarafloxacin/kg per day had intermediate mortality rates.     

Identification of an isolate of Saprolegnia ferax as the causal agent of saprolegniosis of Yellow catfish (Pelteobagrus fulvidraco) eggs

Saprolegnia species have been implicated for significant fungal infections of both living and dead fish as well as their eggs. In the present study, an oomycete water mould (strain HP) isolated from yellow catfish (Peleobagrus fulvidraco) eggs suffering from saprolegniosis was characterized both morphologically and from ITS sequence data. It was initially identified as a Saprolegnia sp. isolate based on its morphological features. The constructed phylogenetic tree using neighbour joining method indicated that the HP strain was closely related to Saprolegnia ferax strain Arg4S (GenBank accession no. GQ119935), that had previously been isolated from farming water samples in Argentina. In addition, the zoospore numbers of strain HP were markedly influenced by a variety of environmental variables including temperature, pH, formalin and dithiocyano-methane. Its zoospore formation was optimal at 20?°C and pH?7, could be well inhibited by formalin and dithiocyano-methane above 5?mg/L and 0.25?mg/L, respectively. To our knowledge, this is the first report on the S. ferax infection in the hatching yellow catfish eggs.     

Immunological Relationship of the Fish-Pathogenic Oomycete Saprolegnia parasitica to Other Oomycetes and Unrelated Fungi

Abstract

Marine polyclonal antibodies produced against Saprolegnia parasitica ATCC 52719 (formerly known as S. diclina; ATCC = American Type Culture Collection), a common oomycete pathogen of fishes, recognized most S. parasitica isolates in an indirect immunofluorescence assay. However, two of the six isolates had lower titers than did S. parasitica ATCC 52719. There was considerable cross-reactivity among other taxa, which was inversely related to their taxonomic relationship to S. parasitica. Saprolegnia parasitica ATCC 52719 antigen collected from an experimentally inoculated dead fish produced the same titer as the cultured S. parasitica ATCC 52719 antigen. These findings suggest that, with further specificity refinements, these immunological assays may eventually be useful in identifying oomycete infections in clinical cases.     

Use of a Mini-Transposon to Study Chondroitinase Activity Associated with Edwardsiella ictaluri

Abstract

Edwardsiella ictaluri, the etiological agent of enteric septicemia of catfish (ESC), is the leading cause of bacterial disease in commercially raised channel catfish Ictalurus punctatus. Little work has been conducted at a genotypic level to determine potential virulence characteristics, but the production of chondroitin sulfatase is a suspected virulence factor. Using transpositional mutagenesis, we created stable E. ictaluri mutants that are deficient in chondroitinase activity. Channel catfish were challenged by injection with E. ictaluri transposon mutant MI15. None of the catfish challenged with the mutant died or showed signs of ESC. These fish were held for 2 weeks and then challenged by injection with the known virulent parent strain of E. ictaluri. The challenged naive control fish showed clinical signs of and a mortality rate consistent with ESC, whereas catfish that had been injected with MI15 prior to challenge with the parent strain were resistant to disease. This work represents a preliminary study to suggest a possible role of chondroitin sulfatase activity in the virulence of E. ictaluri.