Protective immunity of Nile tilapia against Ichthyophthirius multifiliis post-immunization with live theronts and sonicated trophonts

Two immunization trials were conducted to evaluate host protection of Nile tilapia, Oreochromis niloticus against Ichthyophthirius multifiliis (Ich). Immunizations were done with live theronts or sonicated trophonts by bath immersion and intraperitoneal (IP) injection. The immunized fish were challenged with theronts 21 days post-immunization in trial I and 180 days post-immunization in trial II. The serum anti-Ich antibody and cumulative mortalities of tilapia were determined after theront challenge. Serum anti-Ich antibody was significantly higher (P<0.05) in tilapia immunized with live theronts by immersion or IP injection or with sonicated trophonts administered by IP injection than tilapia immunized with sonicated trophonts by immersion, with bovine serum albumin by IP injection, or non-immunized controls. Host protection was acquired in fish immunized with live theronts by immersion or IP injection. Tilapia immunized with sonicated trophonts by IP injection were partially protected with a 57-77% survival in both trials. At 180 days post-immunization, serum antibody titers had declined in immunized fish yet they were still able to survive challenge. The protection appears not to be solely depending on serum antibody response against Ich.     

Comparison of serum antibody responses and host protection against parasite Ichthyophthirius multifiliis between channel catfish and channel × blue hybrid catfish

There is limited information available on the immune protection of channel catfish Ictalurus punctatus × blue catfish I. furcatus (CB) hybrid against the fish parasite Ichthyophthirius multifiliis (Ich). The objective of this study was to compare serum antibody response and host protection between channel catfish and CB hybrid catfish using a cohabitation model. Channel catfish and CB hybrid catfish were immunized with live theronts by immersion or by IP injection at the dose of 10,000–20,000 theronts per fish in two trials. The fish were then challenged with theronts to compare serum antibody response and protection against the parasite between channel catfish and CB hybrid catfish. The immunized channel catfish and CB hybrid catfish showed a significantly higher (p < 0.05) serum anti-Ich antibody (titer > 1120) compared to non-immunized controls (titer = 0). After being challenged with live theronts, the immunized channel catfish and CB hybrid catfish had none or a low number of the parasites (<50 trophonts per fish) and showed a significantly higher (p < 0.05) survival (90–100%) than non-immunized controls (0%). Overall results indicated that there was no statistical (p > 0.05) difference on serum anti-Ich antibody, parasite infection and fish survival between immunized channel catfish and CB hybrid catfish.     

卵形鲳鲹对刺激隐核虫的免疫应答和免疫保护研究

用刺激隐核虫（Cryptocaryon irritans）的幼虫对卵形鲳鲹（Trachinotus ovatus）进行腹腔注射和体表感染,然后每隔1周用阻动试验（Immobilization assay）检测免疫鱼的抗血清和皮肤培养液对激刺隐核虫幼虫的阻动效价,在第14周,分别用亚致死剂量和致死剂量的刺激隐核虫幼虫对免疫鱼攻毒以检测所产生的免疫保护力。实验结果显示：两种免疫方法都能让卵形鲳鲹的血清和皮肤生成阻动刺激隐核虫幼虫的特异性抗体,并能使被免疫鱼获得明显的免疫保护,但是体表感染免疫组的血清和皮肤培养液的阻动效价都要比腹腔注射免疫组高,所获得的免疫保护力也更强。同时还发现,免疫鱼血清和皮肤培养液中的抗体存在明显的差异：两者的最初生成时间、达到峰值的时间、变化规律以及阻动效价等都不一致。因此,我们推测鱼类的系统免疫应答和皮肤粘膜免疫应答有可能是相互独立的,或者是不同步的。鱼类的体液免疫应答,特别是粘膜免疫应答对抵御刺激隐核虫的感染起了重要的作用,采用刺激隐核虫虫体疫苗可能成为预防海水鱼类白点病的一种选择。     

卵形鲳鯵对刺激隐核虫的免疫应答和免疫保护研究

用刺激隐核虫(Cryptocaryon irritans)的幼虫对卵形鲳鯵(Trachinotus ovatus)进行腹腔注射和体表感染,然后每隔一周用阻动试验(Immobilization assay)检测免疫鱼的抗血清和皮肤培养液对刺激隐核虫幼虫的阻动效价,在第14周中,分别用亚致死剂量和致死剂量的刺激隐核虫幼虫对免疫鱼攻毒以检测所产生的免疫保护力。实验结果显示:两种免疫方法都能让卵形鲳鯵的血清和皮肤生成阻动刺激隐核虫幼虫的特异性抗体,并能使被免疫鱼获得明显的免疫保护,但是体表感染免疫组的血清和皮肤培养液的阻动效价都要比腹腔注射免疫组高,所获得的免疫保护力也更强。同时还发现,免疫鱼血清和皮肤培养液中的抗体存在明显的差异:两者的最初生成时间、达到峰值的时间、变化规律以及阻动效价等都不一致。因此,我们推测鱼类的系统免疫应答和皮肤黏膜免疫应答有可能是相互独立的,或者是不同步的。鱼类的体液免疫应答,特别是黏膜免疫应答对抵御刺激隐核虫的感染起了重要的作用,采用刺激隐核虫虫体疫苗可能成为预防海水鱼类白点病的一种选择。       

Temperature effects on immune response and hematological parameters of channel catfish Ictalurus punctatus vaccinated with live theronts of Ichthyophthirius multifiliis

This study evaluated the influence of temperature on the immune responses and hematological parameters in channel catfish Ictalurus punctatus immunized via intraperitoneal injection with live theronts of Ichthyophthirius multifiliis. Fish were distributed in 18 aquaria and received 9 treatments: 4 groups of fish were vaccinated with live theronts and maintained at constant temperature 15 °C, 20 °C, 25 °C and 30 °C; 3 groups of fish vaccinated and subjected to cycling temperature regime from 15-25 °C, 20-25 °C and 20-30 °C, changed 5 °C each day; 2 groups of fish were not vaccinated and served as controls at 25 °C, one with Ich challenge and the other without challenge. Non vaccinated fish and those vaccinated at 15 °C or 15-25 °C did not show anti-Ich antibodies in the serum 14 and 21 days post-immunization. The antibody levels were significantly higher from fish vaccinated at 25 °C, 30 °C, 20-25 °C and 20-30 °C compared to fish at 15 °C, 20 °C and 15-25 °C both 14 and 21 days post-immunization. At constant water temperature, fish vaccinated at 15 °C showed significantly higher mortality rate (67.8%, P < 0.05) than those vaccinated at 20 °C, 25 °C, and 30 °C (0-10.7% mortalities). At cycling water temperature, fish vaccinated at 15-25 °C showed significantly higher mortality rate (67.8%) than those vaccinated at 20-25 °C and 20-30 °C (P < 0.05). Twenty days after immunization fish vaccinated at 30 °C and 20-30 °C showed significant increase in the red blood cells, white blood cells, thrombocytes and monocytes. Six days after challenge with I. multifiliis theronts the fish showed decreased white blood cells, thrombocytes and monocytes. This study suggests that vaccinated catfish were severely impacted by low temperature, either at 15 °C constant temperature or at 15-25 °C cycling temperature. The fish showed no anti-Ich antibodies and suffered high mortality similar to non vaccinated control fish.     

Effect of lectins on the invasion of Ichthyophthirius theront to channel catfish tissue.

This study determined the effects of lectin binding to theronts of Ichthyophthirius multifiliis on theront immobilization, invasion, trophont development and survival in channel catfish Ictalurus punctatus excised fins in vitro. Soybean agglutinin (SBA), lentil agglutinin (LCA), gorse agglutinin (UEA-I) and wheat germ agglutinin (WGA) were used to treat theronts. Percentages of theronts immobilized by 4 lectins ranged from 12.0 to 19.4% at a concentration of 1000 microg ml(-1). These lectins bound more than half of the theronts at a concentration of 50 microg ml(-1). More theronts were labeled by SBA and WGA than by lectin LCA at concentrations of 50 and 100 microg ml(-1), respectively. The binding of these lectins to theronts indicated that monosaccharides (D-galactose, L-fucose, D-mannose and D-glucose) and amino sugar derivatives (N-acetylgalactosamine and N-acetylglucosamine) were present on the surface of theronts. Invasion was reduced significantly for theronts treated with LCA, UEA-I and WGA. No difference in invasion was found between control and SBA bound theronts (p > 0.05). The binding of lectin LCA, UEA-I and WGA to theronts significantly reduced the development of trophonts (p < 0.05). The mean volumes of trophonts labeled with these 3 lectins were smaller than volumes in control trophonts from 8 to 48 h after exposure. Survival was lower in trophonts labeled with lectins than in control trophonts at 48 h after exposure.     

In vitro culture technique for Cryptocaryon irritans, a parasitic ciliate of marine teleosts

A medium for the in vitro culture of Cryptocaryon irritans, which is an obligatorily parasitic ciliate of marine teleosts and causes 'white spot disease', was developed. The medium consisted of a layer of cultured fish cells (FHM), with an agarose gel layer covering the cell layer. The agarose gel contained 0.22% agarose, 10% fetal calf serum, 100 I.U. ml(-1) Penicillin G potassium and 100 microg ml(-1) streptomycin sulphate. Theronts of C. irritans transformed to trophonts and grew to 180 microm in mean length in the medium, although they gradually decreased in number. When trophonts fully developed in medium were transferred into seawater 4 d after inoculation, approximately 70% of them transformed to encysted tomonts and released theronts. When fish were challenged with theronts obtained from in vitro-raised parasites, approximately 40% of the theronts were recovered from fish, indicating comparative infectivity of in vitro-raised theronts to those of in vivo-raised theronts. This is the first report that C. irritans fully developed in vitro and its entire life cycle was completed without a host fish.     

Elicited cross-protection and specific antibodies in Mozambique tilapia (Oreochromis mossambicus) against two different immobilization serotypes of Cryptocaryon irritans isolated in Hawaii

The objective of this study was to determine whether immunization of Mozambique tilapia with different Cryptocaryon irritans i-antigen serotypes elicited cross-protection against challenge infection by both serotypes. Fish were directly exposed to live theronts of isolate W1 or isolate K1, that express different surface i-antigens. There was no significant difference in the number of trophonts infecting the fish between the two isolates, W1 and K1, following primary exposure. Serum from immunized fish exposed to live theronts showed higher immobilization titres and ELISA values against homologous isolates than to heterologous isolates after the primary exposure. However, mucus antibody did not immobilize theronts although the ELISA results clearly indicated that mucus antibodies recognizing C. irritans were generated. In a study with Western blot analyses, serum antibodies recognized only an antigen of the corresponding serotype and no proteins common to both serotypes were identified. Sequence analyses of 754 bases of rDNA nucleotide sequence including complete nuclear ribosomal ITS-1–5.8S rDNA–ITS-2 region were conducted and found to be identical for W1- and K1-isolates. These findings confirmed that both isolates were members of the species, C. irritans, and that rDNA analysis would not distinguish the two isolates. In conclusion, despite the fact that the immobilization assays and ELISA detected two serotypes in vitro, challenge assays provided evidence for only one type of C. irritans.     

Ichthyophthirius multifiliis as a potential vector of Edwardsiella ictaluri in channel catfish

There is limited information on whether parasites act as vectors to transmit bacteria in fish. In this trial, we used Ichthyophthirius multifiliis and fluorescent Edwardsiella ictaluri as a model to study the interaction between parasite, bacterium, and fish. The percentage (23-39%) of theronts fluorescing after exposure to E.?ictaluri was significantly higher than control theronts (~?6%) using flow cytometry. Theronts exposed to E.?ictaluri at 4?×?10(7) CFU?mL(-1) showed a higher percentage (~?60%) of fluorescent theronts compared to those (42%) exposed to 4?×?10(3) CFU?mL(-1) at 4?h. All tomonts (100%) carried the bacterium after exposure to E.?ictaluri. Edwardsiella ictaluri survived and replicated during tomont division. Confocal microscopy demonstrated that E.?ictaluri was associated with the tomont surface. Among theronts released from tomonts exposed to E.?ictaluri, 31-66% were observed with attached E.?ictaluri. Sixty percent of fish exposed to theronts treated with 5?×?10(7) E.?ictaluri?mL(-1) were positive for E.?ictaluri at 4?h as determined by qPCR or fluorescent microscopy. Fluorescent E.?ictaluri were observed on trophonts in skin and gill wet mounts of dead fish. This study demonstrated that Ich could vector E.?ictaluri to channel catfish.     

Histopathological analyses of native silver catfish Rhamdia quelen (Quoy and Gaimard, 1824) immunized against and challenged with live theronts of Ichthyophthirius multifiliis

As an alternative to treating with chemicals, immunization using Ichthyophthirius multifiliis as a vaccine has been studied in fishes that were often affected with white spot diseases also to understand the possible changes to the tissue caused by the vaccine. The focus of this study was the analysis of the influence of immunization via intraperitoneal injection (i.p.) and via immersion bath (im.b.) on the histopathology of R. quelen after being challenged with live theronts of I. multifiliis distributed in: control (non‐immunized and non‐challenged); non‐immunized and challenged with 12,000 theronts/fish; non‐immunized and challenged with 22,000 theronts/fish; immunized and challenged with 12,000 theronts/fish; immunized and challenged with 22,000 theronts/fish. Water quality was measured in each assay, with 300 fingerlings distributed among 15 tanks with 20 fish in each of three replicates. Six days after challenge, samples for histopathological and parasitological analyses were collected. In both i.p. and im.b. fish the prevalence of I. multifillis in the gills was higher in the non‐immunized fish (33.33% and 27.77%, respectively). Melanomacrophages were present in 53% of the samples of i.p. non‐immunized fish. Fish im.b. immunized and challenged showed more atrophied areas in the hepatocytes. Higher numbers of melanomacrophages in the i.p. non‐immunized fish kidneys were observed compared to control. The results showed no difference in the gill lesions of either immunized or non‐immunized fish compared to control. Histological alterations in the organs of silver catfish were considered light, except in the liver that presented significant atrophy and hypertrophy of hepatocytes after immunization via i.p.     

Passive immunization of channel catfish Ictalurus punctatus with anti-Flavobacterium columnare sera

Passive immunization of channel catfish Ictalurus punctatus (Rafinesque) was conducted to determine if anti-Flavobacterium columnare serum was protective when injected intraperitoneally (i.p.) into channel catfish. The anti-F. columnare serum was produced by actively immunizing (i.p. injection) channel catfish with sonicated whole cells or purified lipopolysaccharide (LPS) of F. columnare in Freund's adjuvant. Serum anti-F. columnare activity was verified by Western blotting and ELISA of serum. Normal serum and sterile culture broth were used as controls. Complement was inactivated in all sera by heating. After 48 h, passively immunized fish were challenged with virulent F. columnare by i.p. injection. A group of unchallenged fish served as controls. The immune response of catfish to the antigenic fractions was different when examined by Western blotting. Antibody produced with whole-cell antigen responded to a broad range of molecular weight components, while LPS antigens were restricted to a pair of bands near 20 kDa. Control fish injected with culture medium experienced 100% mortality 14 d post-challenge. Relative percent survival was 77 and 73 for catfish passively immunized with anti-LPS and anti-whole-cell serum, respectively. Results suggest that antibodies in the serum are involved in the protective immune response against columnaris disease in channel catfish.     

Characterization of serum and mucosal antibody responses in white sturgeon (Acipenser transmontanus Richardson) following immunization with WSIV and a protein hapten antigen

Serum and cutaneous mucus antibodies were monitored in white sturgeon for 15 weeks following intraperitoneal immunization. Ten fish were immunized (50 microg) with white sturgeon iridovirus (WSIV) or white sturgeon gonad (WSGO) tissue culture cells emulsified with or without FCA. An additional group was immunized with FITC:KLH+FCA. Fish were booster immunized at 6 weeks. Fish immunized with FITC:KLH+FCA produced significant serum antibodies to FITC by 6 weeks and this response peaked at 12 weeks (average titer 31,000). Mucosal antibodies to FITC were first detected at 12 weeks and significantly elevated by 15 weeks (average titer 18). Anti-WSIV antibody titers were detected in the serum by 9 weeks in fish immunized with WSIV and WSIV+FCA, but only a small number responded to immunization. At 15 weeks, four fish immunized with WSIV produced serum antibodies (average titer 838) and one fish immunized with WSIV+FCA had a serum titer of 1600. Mucosal anti-WSIV antibody titers of 8 and 16 were observed in two fish from the WSIV group at 12 weeks while four different fish from this group responded at 15 weeks (average titer 4). Western Blot using a monoclonal antibody confirmed immunoglobulin in mucus, and specificity to WSIV was further demonstrated by immunocytochemistry using serum from fish immunized with WSIV. Specific antibody was not detected in mucus of fish immunized with WSIV+FCA, WSGO, or WSGO+FCA. Collectively, these experiments demonstrate that white sturgeon can generate a specific antibody response following immunization, and is the first report showing mucosal immunoglobulin is present in this species.     

Evaluation of the protective immunogenicity of the N, P, M, NV and G proteins of infectious hematopoietic necrosis virus in rainbow trout oncorhynchus mykiss using DNA vaccines.

The protective immunogenicity of the nucleoprotein (N), phosphoprotein (P), matrix protein (M), non-virion protein (NV) and glycoprotein (G) of the rhabdovirus infectious hematopoietic necrosis virus (IHNV) was assessed in rainbow trout using DNA vaccine technology. DNA vaccines were produced by amplifying and cloning the viral genes in the plasmid pCDNA 3.1. The protective immunity elicited by each vaccine was evaluated through survival of immunized fry after challenge with live virus. Neutralizing antibody titers were also determined in vaccinated rainbow trout Oncorhynchus mykiss fry (mean weight 2 g) and 150 g sockeye salmon Oncorhynchus nerka. The serum from the 150 g fish was also used in passive immunization studies with naive fry. Our results showed that neither the internal structural proteins (N, P and M) nor the NV protein of IHNV induced protective immunity in fry or neutralizing antibodies in fry and 150 g fish when expressed by a DNA vaccine construct. The G protein, however, did confer significant protection in fry up to 80 d post-immunization and induced protective neutralizing antibodies. We are currently investigating the role of different arms of the fish immune system that contribute to the high level of protection against IHNV seen in vaccinated fish.     

Temperature-dependent protection against Ichthyophthirius multifiliis following immunisation of rainbow trout using live theronts

Rainbow trout Oncorhynchus mykiss Walbaum, 1792 fingerlings were vaccinated by intraperitoneal (i.p.) injection using live theronts of the skin parasitic ciliate Ichthyophthirius multifiliis Fouquet, 1876 at 2 temperatures (12 and 20 degrees C), and protection against challenge infections was subsequently evaluated by bath exposure to live theronts. Vaccination conferred a relative protection (evaluated as the decrease in the number of established theronts) at 12 degrees C and almost complete immunity at 20 degrees C. Significantly increased immobilisation titers (using plasma immobilisation of live theronts) were found in immunised fish at Week 2 and 4 post-vaccination. Lysozyme activity of plasma from vaccinated fish increased from Week 1 to 4. Both immobilisation titers and lysozyme activity were significantly higher at 20 degrees C. This study demonstrated that live theronts are good candidates for an antigen source for development of effective vaccines against white spot disease in this fish host, and further indicated that the protection of rainbow trout against I. multifiliis infection is highly temperature dependent and may be associated with both adaptive and innate response mechanisms.     

Evaluation of a cohabitation challenge model in immunization trials for channel catfish Ictalurus punctatus against Ichthyophthirius multifiliis

Calcein marking and cohabitation challenges have not been investigated in fish parasite research. This study evaluated a cohabitation challenge method in immunization trials against Ichthyophthirius multifiliis (Ich) using calcein, a fluorescent dye, to mark channel catfish Ictalurus punctatus (Rafinesque). Fish were marked by calcein immersion at 0, 500, and 1500 mg l(-1), and then challenged with 15 000 theronts fish(-1). No difference was noted in fish infection levels, mortality, and mean days to death (MDD) caused by Ich between unmarked and marked fish or between fish marked with high (1500 mg l(-1)) and low (500 mg l(-1)) concentrations of calcein. After ensuring that calcein marking had no effect on the susceptibility of fish to Ich theronts, 2 immunization trials were conducted to evaluate the cohabitation challenge model using calcein-marked catfish. Fish mortality, relative percent survival (RPS), and MDD were compared between cohabitation-challenged fish and fish challenged by non-cohabitation. No significant difference was observed in RPS for cohabitation-challenged fish and fish challenged by non-cohabitation. A cohabitation challenge can be used as an alternative challenge method in parasite studies, since it closely mimics natural exposure.     

Cross-immunity and antibody responses to different immobilisation serotypes of Ichthyophthirius multifiliis

Vaccination of channel catfish with either of two serotypes of the parasitic ciliate Ichthyophthirius multifiliis conferred protection against challenge infection by either serotype. Fish were vaccinated by intracoelomic injection with live theronts of isolate G5 (serotype D) or isolate G12 (a new serotype), which express different surface immobilisation antigens. Vaccination with live G12 theronts conferred complete protection against subsequent challenge by both serotypes while vaccination with G5 theronts elicited only partial protection against both serotypes. Vaccination with trophont lysates did not protect against challenge infection. Sera from vaccinated fish were tested in immobilisation assays, ELISAs, and Western blots. Serum antibodies recognised only immobilisation antigens of the serotype used for vaccination in immobilisation assays or on Western blots. No antigens common to both serotypes were identified by Western blots. In contrast, serum antibodies bound antigens in cell lysates from both serotypes by ELISA, demonstrating that antibodies recognising both serotypes are produced in response to infection, which presumably confer observed cross-serotype protection.     

Isolation and molecular weight determination of two immunoglobulin heavy chains in the channel catfish, Ictalurus punctatus

Channel catfish (Ictalurus punctatus), a teleost fish, were immunized over a 4 month period with 4 intraperitoneal injections of bovine serum albumin (BSA) in Freund's adjuvant. The catfish anti-BSA antibody was purified by affinity chromatography and subjected to sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE). By elution of catfish anti-BSA antibody from BSA-affinity columns with 3.0 M KSCN and subsequent SDS-PAGE, two immunoglobulin heavy chains were demonstrated in the channel catfish. The molecular weights and the relative percentages found of the two immunoglobulin heavy chains were 72,000 (94%) and 56,000 (6%). The molecular weight of the single light chain found was 23,000. Using the 72,000 mol. wt heavy chain and 23,000 mol. wt light chain and including a molecular weight of 15,000 for the J-chain, the molecular weight of the predominant channel catfish tetrameric IgM immunoglobulin molecule was calculated to be 775,000. Using the 56,000 low mol. wt heavy chain, the molecular weight of a second subclass of the channel catfish tetrameric IgM molecule was calculated to be 647,000. After Sephadex G-200 gel filtration, anti-BSA antibody activity was found only in the 14S globulin fraction by indirect hemagglutination testing.     

嗜麦芽寡养单胞菌脂多糖对斑点叉尾免疫保护作用

嗜麦芽寡养单胞菌(Stenotrophomonas maltophilia)是近年来引起斑点叉尾高致死性、传染性疾病的主要病原之一。为了研究嗜麦芽寡养单胞菌脂多糖对斑点叉尾的免疫保护作用,实验选用了400尾健康斑点叉尾,随机分成Ⅰ、Ⅱ、Ⅲ、Ⅳ四个组,每组用鱼100尾,每组下设两个重复,每个重复用鱼50尾,以腹腔注射的方式分别向Ⅰ、Ⅱ、Ⅲ、Ⅳ四个组的斑点叉尾注射嗜麦芽寡养单胞菌脂多糖、无花果多糖加脂多糖、全菌灭活苗和生理盐水,在试验第0、第28天时分别进行首次免疫和加强免疫,试验期间每隔7d,对试验鱼的血液白细胞杀菌活性、补体C3含量、IgM含量和血清凝集效价滴度进行测定;试验第49天时进行活菌攻毒。结果表明,首免后,接种脂多糖、无花果多糖加脂多糖的试验鱼血清凝集效价滴度明显升高,白细胞杀菌活性、补体C3含量、IgM含量也明显增加;加强免疫后,脂多糖、无花果多糖加脂多糖的试验鱼血清凝集效价滴度峰值分别为1∶256和1∶512,白细胞杀菌活性峰值分别为0.565和0.511,补体C3含量峰值分别0.194和0.180mg/mL,IgM含量峰值分别1.415和1.464mg/mL,免疫保护率分别为70.0%和65%。嗜麦芽寡养单胞菌脂多糖和脂多糖+无花果多糖受免鱼的上述指标均显著(P<0.05)或极显著(P<0.01)地高于生理盐水注射组,这两者的免疫保护效果优越于全细胞灭菌苗。     

Relations between histopathology and parasitaemias in Oncorhynchus mykiss infected with Cryptobia salmositica, a pathogenic haemoflagellate

Ichthyophthirius multifiliis is a ciliated protozoan parasite that infects the skin and gills of freshwater fish. This report describes the unusual finding of I. multifiliis within the peritoneal cavities of experimentally infected channel catfish Ictalurus punctatus. Twenty catfish fingerlings were exposed to I. multifiliis theronts using a standardized protocol. Five infected fish and 2 control fish were killed at various time points after infection and their tissues examined. Formalin-fixed, paraffin embedded sections were processed for light microscopy and immunohistochemical detection of I. multifiliis immobilization antigen. Trophonts were observed in skin and gill sections of all exposed fish. Parasites were associated with epithelial hyperplasia, focal areas of cellular disruption and necrosis. In addition to these usual sites of infection, individual trophonts were unexpectedly found within the peritoneal cavities of 4 fish. Staining for parasite antigen facilitated their detection within abdominal adipose tissue or adjacent to intestines. This discovery is interesting as it suggests I. multifiliis may be found in tissues other than the skin and gills during the course of a normal infection.     

Partial cross protection against Ichthyophthirius multifiliis in Gyrodactylus derjavini immunized rainbow trout.

Partial cross protection against a skin-parasitic ciliate has been recorded in rainbow trout previously immunized with an ectoparasitic platyhelminth. The susceptibility to infection by Ichthyophthirius multifiliis differed significantly between naive and Gyrodactylus derjavini immunized rainbow trout. Fish partly immune to the ectoparasitic monogenean G. derjavini became less infected and experienced lower mortality than naive fish when exposed to I. multifiliis infections. In vitro studies on immobilization of theronts using decomplemented (heat-inactivated) serum from G. derjavini immune or non-immune hosts showed no immobilization. However, untreated serum from both immune and non-immune fish containing intact complement immobilized theronts (titre 128-256). In addition, non-specific priming of the host response with interleukin (IL-1), bacterial lipopolysaccharide (LPS), concanavalin A (Con A) or mannan did confer a partial resistance to I. multifiliis infection. This will suggest that non-specific factors including complement could be partly responsible for the host response against infections with this ciliate.