SPIRONUCLEUS VORTENS OF THE FRESHWATER ANGELFISH (PTEROPHYLLUM SCALARE): GROWTH REQUIREMENTS, CHEMOTHERAPEUTANTS, PATHOGENESIS AND IMMUNITY
Sangmaneedet , Somboon
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SPIRONUCLEUS VORTENS OF THE FRESHWATER ANGELFISH (PTEROPHYLLUM SCALARE): GROWTH REQUIREMENTS, CHEMOTHERAPEUTANTS, PATHOGENESIS AND IMMUNITY Somboon Sangmaneedet Abstract For many years hexamitids, Hexamita spp. and Spironucleus spp., have frequently been reported in vertebrates, particularly in fish. This suggests a potentially important role of these parasites in the fish culture industry. Though the majority of hexamitids are not known to cause disease in their vertebrate host, those that have been documented as associated with disease are still in need of further investigation into their geographical distribution, host range, life cycle, host-parasite relationship, pathogenicity, diagnosis, prevention, treatment, and control. Spironucleus vortens is a hexamitid recently described from angelfish (Pterophyllum scalare). Although the structure of this parasite has been investigated using the electron microscope (Poynton et al., 1995), other information on this organism is poorly understood. Thus, the purpose of this research was to study the nature of S. vortens in TYI-S-33 culture medium and in the angelfish host. The optimal environmental conditions for S. vortens growth were investigated using variations of temperature, pH, and bile concentrations. This study is useful in helping to understand the locations and environmental conditions in the host that are suitable for the growth of S. vortens. Treatment of S. vortens, using seven chemotherapeutic agents; dimetridazole, metronidazole, pyrimethamine, albendazole, fenbendazole, mebendazole, and magnesium sulfate was evaluated. The pathogenicity of S. vortens in angelfish was investigated in fish experimentally inoculated with trophozoites. This study provided information to help understand the pathogenesis of the parasites in the host. Finally, to examine the protective defense mechanisms, the presence of anti-S. vortens antibodies in angelfish serum were evaluated along with the presence of immune cells (lymphocytes, macrophages, eosinophilic granular cells, neutrophils, and plasma cells) at invaded sites of the intestine and other internal organs in response to an experimental Spironucleus vortens infection. The results of this research provide information on this parasite's effect on the fish host which may be useful in understanding the nature of other hexamitids. A few published reports have suggested the in vitro growth requirement of fish Spironucleus (Poynton et al., 1995; Sterud, 1998), but none have examined the optimal conditions required for growth and the pathogenicity of S. vortens. The first study was to examine the optimal requirements for the in vitro growth of the parasite. The organisms were cultivated in either an artificial medium (TYI-S-33) at different temperatures or various pH conditions, or in medium supplemented with different bile concentrations at 25Â°C. Criteria used to justify the optimal conditions were average cell number ml-1, growth rate, survival time, and cell conditions (motility and morphology). The organisms survived longest at 22Â°C, and had the highest average cell number ml-1 at 25Â°, 28Â° and 31Â°C. At 25Â°C the parasites were highly active and survived up to 6 days. The organisms cultivated at pH 6.5, 7.0 and 7.5 yielded the highest average cell number ml-1 with survival periods up to 13-14 days. Most of the organisms cultivated at a pH lower than 6.0 or a pH higher than 7.5 were suppressed and killed within 5-6 days of cultivation. All cultures supplemented with bovine or fish bile yielded lower maximal numbers of parasites than cultures with no bile. These results indicate that the optimal condition for the in vitro cultivation of S. vortens is 25Â°C and pH 6.5 to 7.5 without supplementation with bile. In order to treat spironucleosis, the efficacy of various chemotherapeutic agents on the growth of S. vortens was examined in vitro. In this study nitroimidazoles and benzimidazoles, formerly reported as drugs of choice for the treatment of diplomonads, pyrimethamine and magnesium sulfate (Epsom salt) were evaluated at different concentrations on the growth of S. vortens. Dimetridazole and metronidazole were effective in inhibiting the parasite's growth at concentrations of 1 Î¼g ml-1 or higher. Albendazole and fenbendazole suppressed the growth of parasites at concentrations of 1.0 Î¼g ml-1 or higher after 24 h exposure. Mebendazole was the most effective agent of the benzimidazole group; and inhibited the parasite's growth at concentrations of 0.5 Î¼g ml-1 or higher. Pyrimethamine at concentrations of 1-10 Î¼g ml-1 failed to inhibit the parasite's growth. Magnesium sulfate inhibited the growth of the parasites only at high concentrations (70 mg ml-1 or higher) . This study indicates that dimetridazole, metronidazole and mebendazole are the most effective chemotherapeutic agents in vitro at inhibiting the growth of S. vortens. To investigate the pathogenesis of spironucleosis, angelfish were orally (PO) or intraperitoneally (IP) inoculated with S. vortens. Control angelfish which were orally gavaged or intraperitoneally injected with PBS were in normal body condition and had no morbidity or mortality. Compared to the control angelfish, PO-infected angelfish were inappetent with no other clinical signs, while IP-infected angelfish showed clinical signs of inappetite, weakness, respiratory distress, and laying on their sides. Twenty percent of the IP-infected angelfish died within the first three weeks after infection. In PO-infected angelfish, the organisms were located only in the intestinal lumen. In IP-infected angelfish, S. vortens were found in the blood, stomach, intestine, and other internal organs (spleen, gall bladder, and ovary). However, no parasites were observed within the intestinal mucosa of either PO- or IP-infected fish. Histopathologic examination of the intestines revealed mild to moderate multifocal enteritis in both PO- and IP-infected angelfish. The mucosal epithelium appeared undamaged although the parasite was closely located and appeared attached to the intestinal mucosa. The results suggest that S. vortens normally causes mild to moderate multifocal enteritis with no morbidity. However, the parasites can cause granulomatous inflammation in a wide variety of host tissues, and may be lethal if they enter the abdominal cavity and disseminate to other organs via the blood circulation. Immunity, both cell mediated and humoral, against S. vortens was investigated in this study. Histopathologic examination revealed a response from inflammatory cells infiltrated and localized in the affected tissues. Macrophages, lymphocytes, and plasma cells were the most common cell types found in the internal organs. Macrophages were active in the affected tissues where the parasites lived in situ. However, in vitro studies indicated that there were no differences in a production of H2O2 or in phagocytosis between macrophages of control and infected angelfish regardless of inoculum dosage and administration route. A preliminary study of humoral antibody indicated that angelfish did not develop anti-S. vortens antibody after they were orally or intraperitoneally infected with either a low or a high number of the organisms. It is suggested that localized leucocyte response may be an important mechanism against Spironucleus vortens infection in angelfish. This research has indicated some of the important environmental factors affecting the parasite's growth, and has provided some initial information on the pathogenicity of S. vortens. In addition, preliminary information on the host's protective immune systems, humoral and cell-mediated immunity, against the parasite have been documented. The results from this research will be useful for aquaculture, particularly of tropical freshwater angelfish, and may help to provide an understanding of the biological roles of other hexamitids.
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