Your search keyword '"myxozoan"' showing total 146 results

1. Molecular studies reveal host plasticity and wide geographical distribution of Myxobolus linzhiensis Li et al. 2017 and Thelohanellus wangi Yuan et al. 2015

Author

Banerjee, Prabir, Basu, Saugata, and Modak, Biplob Kumar

Published

2024

2. Myxobolus coriumicus n.sp. (Cnidaria: Myxozoa) Causing Scale Disease Associated with Skin Lesions in Indian Cultured Carp, Cirrhinus mrigala in Punjab.

Author

Ghai, Nitin, Nissa, Kharoon, and Kaur, Harpreet

Subjects

MYXOZOA, SKIN diseases, CARP, CNIDARIA, BAYESIAN field theory, SEQUENCE analysis

Abstract

Purpose: The motive of the present study was to investigate incidences of myxozoan parasite infection in commercially important fishes and their characterization using morphological attributes and molecular approach. Methods: The specimens of cultured Cirrhinus mrigala were sampled and various organs were examined. The plasmodia were detected on the scales. The identification of species was based on the myxospore morphology and 18S rDNA sequence analyses. For phylogenetic analysis, maximum likelihood (ML) and Bayesian inference (BI) methods were employed. The SEM and histological studies were performed to assess the damage to the scales. Results: The infected fishes had white patches on the scales and red haemorrhagic lesions on the skin. The plasmodia of Myxobolus coriumicus n. sp. were located on the dorsal surface of the scale towards its exposed part. SEM study indicated that lepidonts were damaged in the infected scales. The myxospores were spherical in shape, 9.0–10.0 × 8.0–9.0 μ m in size, with two ovoid equal polar capsules 3.13–4.0 × 2.03–2.33 μ m in size, having 4–5 sutural edge markings at the posterior-lateral margins of the shell valves and binucleated sporoplasm. BLAST search based on 18S rDNA revealed 93.87% sequence similarity with M. rewensis, (MZ230381). The prevalence of infection was 6.3% and Scale Plasmodium Index (SPI) was 3 indicating heavy infection. Conclusion: Morpho-molecular data generated during this study enables us to conclude that the present species, M. coriumicus n. sp. infecting scales of C. mrigala is new to the science causing significant damage to the scales. [ABSTRACT FROM AUTHOR]

Published

2023

3. Morphological and molecular studies on two myxosporean infections of cyprinid fishes: Thelohanellus pyriformis from tench and Thelohanellus cf. fuhrmanni from nase

Author

Urvashi Goswami, Gábor Cech, Kálmán Molnár, Subarna Ghosh, Boglárka Sellyei, István Czeglédi, and Csaba Székely

Subjects

Thelohanellus, Myxozoan, Tench, Common nase, ssrDNA, Histology, Zoology, QL1-991

Abstract

During surveys on myxosporean parasites of Lake Balaton and River Danube fishes, two Thelohanellus spp. were found on tench (Tinca tinca) and on common nase (Chondrostoma nasus). They were identified as Thelohanellus pyriformis and Thelohanellus cf. fuhrmanni, respectively. Myxospores of T. pyriformis from tench were collected from arteria branchialis afferens of gill filaments. The mature myxospores of this species were pyriform in shape and 19 ± 0.6l (18–19.5) long, 8.2 ± 0.54 (7.5–9) wide, 7.3 ± 0.25 (7–7.5) thick containing polar tubules with 9–10 turns. The plasmodia of Thelohanellus cf. fuhrmanni were collected from under the skin of snout of the common nase. The myxospores were pyriform, 16.3 ± 0.39l (15.5–16.5) long, 6.5 ± 0.55 (6.3–7) wide, 6.3 ± 0.53 (5.8–7) thick containing polar tubules with 6 turns. Small subunit ribosomal DNA sequences of both Thelohanellus species differed from other known myxozoans. The myxospores morphology, histopathology and ssrDNA sequences supported a diagnosis of T. pyriformis from tench and T. cf. fuhrmanni from common nase.

Published

2022

4. Genome-wide alternative splicing profile in the posterior kidney of brown trout (Salmo trutta) during proliferative kidney disease

Author

Arun Sudhagar, Mansour El-Matbouli, and Gokhlesh Kumar

Subjects

RNA-seq, Post-transcriptional modification, Myxozoan, Tetracapsuloides bryosalmonae, Salmonids, Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Abstract Background The cnidarian myxozoan parasite Tetracapsuloides bryosalmonae causes chronic proliferative kidney disease (PKD) in salmonids. This parasite is a serious threat to wild and cultured salmonids. T. bryosalmonae undergoes intra-luminal sporogonic development in the kidney of brown trout (Salmo trutta) and the viable spores are released via urine. We investigated the alternative splicing pattern in the posterior kidney of brown trout during PKD. Results RNA-seq data were generated from the posterior kidney of brown trout collected at 12 weeks post-exposure to T. bryosalmonae. Subsequently, this data was mapped to the brown trout genome. About 153 significant differently expressed alternatively spliced (DEAS) genes, (delta PSI = 5%, FDR P-value

Published

2022

5. Morphological and molecular studies on two myxosporean infections of cyprinid fishes: Thelohanellus pyriformis from tench and Thelohanellus cf. fuhrmanni from nase.

Author

Goswami, Urvashi, Cech, Gábor, Molnár, Kálmán, Ghosh, Subarna, Sellyei, Boglárka, Czeglédi, István, and Székely, Csaba

Abstract

During surveys on myxosporean parasites of Lake Balaton and River Danube fishes, two Thelohanellus spp. were found on tench (Tinca tinca) and on common nase (Chondrostoma nasus). They were identified as Thelohanellus pyriformis and Thelohanellus cf. fuhrmanni , respectively. Myxospores of T. pyriformis from tench were collected from arteria branchialis afferens of gill filaments. The mature myxospores of this species were pyriform in shape and 19 ± 0.6l (18–19.5) long, 8.2 ± 0.54 (7.5–9) wide, 7.3 ± 0.25 (7–7.5) thick containing polar tubules with 9–10 turns. The plasmodia of Thelohanellus cf. fuhrmanni were collected from under the skin of snout of the common nase. The myxospores were pyriform, 16.3 ± 0.39l (15.5–16.5) long, 6.5 ± 0.55 (6.3–7) wide, 6.3 ± 0.53 (5.8–7) thick containing polar tubules with 6 turns. Small subunit ribosomal DNA sequences of both Thelohanellus species differed from other known myxozoans. The myxospores morphology, histopathology and ssrDNA sequences supported a diagnosis of T. pyriformis from tench and T. cf. fuhrmanni from common nase. [Display omitted] • Two Thelohanellus spp. were redescribed from cyprinid fishes. • Thelohanellus pyriformis was recorded and described from the type host tench (Tinca tinca). • Thelohanellus cf. fuhrmanni was found in an atypical host, common nase (Chondrostoma nasus). • The morphology of both Thelohanellus species was supported by histology and ssrDNA sequence data. [ABSTRACT FROM AUTHOR]

Published

2022

6. Genome-wide alternative splicing profile in the posterior kidney of brown trout (Salmo trutta) during proliferative kidney disease.

Author

Sudhagar, Arun, El-Matbouli, Mansour, and Kumar, Gokhlesh

Subjects

*ALTERNATIVE RNA splicing, *SALMONELLA diseases, *BROWN trout, *KIDNEY diseases, *KIDNEY development, *CHRONIC kidney failure, *KIDNEYS

Abstract

Background: The cnidarian myxozoan parasite Tetracapsuloides bryosalmonae causes chronic proliferative kidney disease (PKD) in salmonids. This parasite is a serious threat to wild and cultured salmonids. T. bryosalmonae undergoes intra-luminal sporogonic development in the kidney of brown trout (Salmo trutta) and the viable spores are released via urine. We investigated the alternative splicing pattern in the posterior kidney of brown trout during PKD. Results: RNA-seq data were generated from the posterior kidney of brown trout collected at 12 weeks post-exposure to T. bryosalmonae. Subsequently, this data was mapped to the brown trout genome. About 153 significant differently expressed alternatively spliced (DEAS) genes, (delta PSI = 5%, FDR P-value < 0.05) were identified from 19,722 alternatively spliced events. Among the DEAS genes, the least and most abundant alternative splicing types were alternative 5′ splice site (5.23%) and exon skipping (70.59%), respectively. The DEAS genes were significantly enriched for sodium-potassium transporter activity and ion homeostasis (ahcyl1, atp1a3a, atp1a1a.1, and atp1a1a.5). The protein-protein interaction network analysis enriched two local network clusters namely cation transporting ATPase C-terminus and Sodium/potassium ATPase beta chain cluster, and mixed inclusion of Ion homeostasis and EF-hand domain cluster. Furthermore, the human disease-related salmonella infection pathway was significantly enriched in the protein-protein interaction network. Conclusion: This study provides the first baseline information about alternative splicing in brown trout during PKD. The generated data lay a foundation for further functional molecular studies in PKD - brown trout infection model. The information generated from the present study can help to develop therapeutic strategies for PKD in the future. [ABSTRACT FROM AUTHOR]

Published

2022

7. Using a mechanistic framework to model the density of an aquatic parasite Ceratonova shasta.

Author

Robinson, H. Eve, Alexander, Julie D., Bartholomew, Jerri L., Hallett, Sascha L., Hetrick, Nicholas J., Perry, Russell W., and Som, Nicholas A.

Subjects

DAM retirement, DENSITY, WATER temperature, WATERSHEDS, WATER management

Abstract

Ceratonova shasta is a myxozoan parasite endemic to the Pacific Northwest of North America that is linked to low survival rates of juvenile salmonids in some watersheds such as the Klamath River basin. The density of C. shasta actinospores in the water column is typically highest in the spring (March–June), and directly influences infection rates for outmigrating juvenile salmonids. Current management approaches require quantities of C. shasta density to assess disease risk and estimate survival of juvenile salmonids. Therefore, we developed a model to simulate the density of waterborne C. shasta actinospores using a mechanistic framework based on abiotic drivers and informed by empirical data. The model quantified factors that describe the key features of parasite abundance during the period of juvenile salmon outmigration, including the week of initial detection (onset), seasonal pattern of spore density, and peak density of C. shasta. Spore onset was simulated by a bio-physical degree-day model using the timing of adult salmon spawning and accumulation of thermal units for parasite development. Normalized spore density was simulated by a quadratic regression model based on a parabolic thermal response with river water temperature. Peak spore density was simulated based on retained explanatory variables in a generalized linear model that included the prevalence of infection in hatchery-origin Chinook juveniles the previous year and the occurrence of flushing flows (≥171 m³/s). The final model performed well, closely matched the initial detections (onset) of spores, and explained interannual variations for most water years. Our C. shasta model has direct applications as a management tool to assess the impact of proposed flow regimes on the parasite, and it can be used for projecting the effects of alternative water management scenarios on disease-induced mortality of juvenile salmonids such as with an altered water temperature regime or with dam removal. [ABSTRACT FROM AUTHOR]

Published

2022

8. Morphological and Molecular Characterization of a New Myxozoan, Myxobolus grassi sp. nov. (Myxosporea), Infecting the Grass Carp, Ctenopharyngodon idella in the Gomti River, India.

Author

Fariya, Naireen, Kaur, Harpreet, Singh, Mahender, Abidi, Rehana, El-Matbouli, Mansour, and Kumar, Gokhlesh

Subjects

FRESHWATER fishes, MYXOZOA, FISH as food, CTENOPHARYNGODON idella, FISH farming, GENETIC distance

Abstract

Myxosporeans are well-known parasites infecting food fishes in fresh and marine water around the globe. Grass carp (Ctenopharyngodon idella), a freshwater food fish commonly cultured in India with has significant economic importance. Herein, the study focuses on the description of a new myxosporean species, Myxobolus grassi sp. nov. from the gills as primary site and liver as secondary site of infection in grass carp. Both organs (gill and liver) were infected concurrently in the host and the prevalence of grass carp infection was 4.05% in gill filaments and liver, respectively. Identification of species was based on the morphological and morphometric features of the myxospore as well as 18S rDNA sequence data. A smear from gill and liver exhibited hundreds of morphologically similar myxospores. BLAST search revealed 98% sequence similarity and 0.03 genetic distance with M. catlae (KM029967) infecting gill lamellae of mrigal carp (Cirrhinus cirrhosus) from India and 98–84% sequence similarity with other myxobolids in India, China, Japan, Malaysia, Turkey and Hungary. Phylogenetically, it clustered with other myxobolids infecting gills and related organs (i.e., vital organ) of Indian cyprinid carp species. On the basis of myxospore morphology and 18S sequence, we propose M. grassi sp. nov. [ABSTRACT FROM AUTHOR]

Published

2022

9. Using a mechanistic framework to model the density of an aquatic parasite Ceratonova shasta

Author

H. Eve Robinson, Julie D. Alexander, Jerri L. Bartholomew, Sascha L. Hallett, Nicholas J. Hetrick, Russell W. Perry, and Nicholas A. Som

Subjects

Myxozoan, Actinospore, Klamath River, Salmonids, Disease, Predictive model, Medicine, Biology (General), QH301-705.5

Abstract

Ceratonova shasta is a myxozoan parasite endemic to the Pacific Northwest of North America that is linked to low survival rates of juvenile salmonids in some watersheds such as the Klamath River basin. The density of C. shasta actinospores in the water column is typically highest in the spring (March–June), and directly influences infection rates for outmigrating juvenile salmonids. Current management approaches require quantities of C. shasta density to assess disease risk and estimate survival of juvenile salmonids. Therefore, we developed a model to simulate the density of waterborne C. shasta actinospores using a mechanistic framework based on abiotic drivers and informed by empirical data. The model quantified factors that describe the key features of parasite abundance during the period of juvenile salmon outmigration, including the week of initial detection (onset), seasonal pattern of spore density, and peak density of C. shasta. Spore onset was simulated by a bio-physical degree-day model using the timing of adult salmon spawning and accumulation of thermal units for parasite development. Normalized spore density was simulated by a quadratic regression model based on a parabolic thermal response with river water temperature. Peak spore density was simulated based on retained explanatory variables in a generalized linear model that included the prevalence of infection in hatchery-origin Chinook juveniles the previous year and the occurrence of flushing flows (≥171 m3/s). The final model performed well, closely matched the initial detections (onset) of spores, and explained inter-annual variations for most water years. Our C. shasta model has direct applications as a management tool to assess the impact of proposed flow regimes on the parasite, and it can be used for projecting the effects of alternative water management scenarios on disease-induced mortality of juvenile salmonids such as with an altered water temperature regime or with dam removal.

Published

2022

10. Intestinal Transcriptomic and Histologic Profiling Reveals Tissue Repair Mechanisms Underlying Resistance to the Parasite Ceratonova shasta.

Author

Barrett, Damien E., Estensoro, Itziar, Sitjà-Bobadilla, Ariadna, and Bartholomew, Jerri L.

Abstract

Background: Myxozoan parasites infect fish worldwide causing significant disease or death in many economically important fish species, including rainbow trout and steelhead trout (Oncorhynchus mykiss). The myxozoan Ceratonova shasta is a parasite of salmon and trout that causes ceratomyxosis, a disease characterized by severe inflammation in the intestine resulting in hemorrhaging and necrosis. Populations of O. mykiss that are genetically fixed for resistance or susceptibility to ceratomyxosis exist naturally, offering a tractable system for studying the immune response to myxozoans. The aim of this study was to understand how steelhead trout that are resistant to the disease respond to C. shasta once it has become established in the intestine and identify potential mechanisms of resistance. Results: Sequencing of intestinal mRNA from resistant steelhead trout with severe C. shasta infections identified 417 genes differentially expressed during the initial stage of the infection compared to uninfected control fish. A strong induction of interferongamma and interferon-stimulated genes was evident, along with genes involved in cell adhesion and migration. A total of 11,984 genes were differentially expressed during the late stage of the infection, most notably interferon-gamma, interleukin-6, and immunoglobulin transcripts. A distinct hardening of the intestinal tissue and a strong inflammatory reaction in the intestinal submucosa including severe hyperplasia and inflammatory cell infiltrates were observed in response to the infection. The massive upregulation of caspase-14 early in the infection, a protein involved in keratinocyte differentiation might reflect the rapid onset of epithelial repair mechanisms, and the collagenous stratum compactum seemed to limit the spread of C. shasta within the intestinal layers. These observations could explain the ability of resistant fish to eventually recover from the infection. Conclusions: Our results suggest that resistance to ceratomyxosis involves both a rapid induction of key immune factors and a tissue response that limits the spread of the parasite and the subsequent tissue damage. These results improve our understanding of the myxozoan–host dialogue and provide a framework for future studies investigating the infection dynamics of C. shasta and other myxozoans. [ABSTRACT FROM AUTHOR]

Published

2021

11. Transcriptome profiling of posterior kidney of brown trout, Salmo trutta, during proliferative kidney disease

Author

Arun Sudhagar, Reinhard Ertl, Gokhlesh Kumar, and Mansour El-Matbouli

Subjects

Myxozoan, Tetracapsuloides bryosalmonae, Salmonids, RNA-seq, Gene expression, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background Tetracapsuloides bryosalmonae is a myxozoan parasite which causes economically important and emerging proliferative kidney disease (PKD) in salmonids. Brown trout, Salmo trutta is a native fish species of Europe, which acts as asymptomatic carriers for T. bryosalmonae. There is only limited information on the molecular mechanism involved in the kidney of brown trout during T. bryosalmonae development. We employed RNA sequencing (RNA-seq) to investigate the global transcriptome changes in the posterior kidney of brown trout during T. bryosalmonae development. Methods Brown trout were exposed to the spores of T. bryosalmonae and posterior kidneys were collected from both exposed and unexposed control fish. cDNA libraries were prepared from the posterior kidney and sequenced. Bioinformatics analysis was performed using standard pipeline of quality control, reference mapping, differential expression analysis, gene ontology, and pathway analysis. Quantitative real time PCR was performed to validate the transcriptional regulation of differentially expressed genes, and their correlation with RNA-seq data was statistically analyzed. Results Transcriptome analysis identified 1169 differentially expressed genes in the posterior kidney of brown trout, out of which 864 genes (74%) were upregulated and 305 genes (26%) were downregulated. The upregulated genes were associated with the regulation of immune system process, vesicle-mediated transport, leucocyte activation, and transport, whereas the downregulated genes were associated with endopeptidase regulatory activity, phosphatidylcholine biosynthetic process, connective tissue development, and collagen catabolic process. Conclusion To our knowledge, this is the first RNA-seq based transcriptome study performed in the posterior kidney of brown trout during active T. bryosalmonae development. Most of the upregulated genes were associated with the immune system process, whereas the downregulated genes were associated with other metabolic functions. The findings of this study provide insights on the immune responses mounted by the brown trout on the developing parasite, and the host molecular machineries modulated by the parasite for its successful multiplication and release.

Published

2019

12. Henneguya sp. in yellowfin goby Acanthogobius flavimanus from the San Francisco Estuary

Author

Baxa, Dolores V, Stover, Alison, Clifford, Mark, Kurobe, Tomofumi, Teh, Swee J, Moyle, Peter, and Hedrick, Ronald P

Subjects

Digestive Diseases, Infectious Diseases, Infection, Yellowfin goby, Myxozoan, San Francisco Estuary, Henneguya

Abstract

Myxozoan spores were observed in yellowfin goby Acanthogobius flavimanus collected from Suisun Marsh, San Francisco Estuary (SFE). Although histopathological changes associated with the parasite were not observed, the spores formed plasmodia that partially blocked the gastric and intestinal mucosa and gut lumen and may affect the perfomance and survival of the yellowfin goby. Morphological features of the spores resembled Henneguya sp. and molecular analysis of the 18S ribosomal DNA (Domain III) confirmed close similarity to H. rhinogobii and H. pseudorhinogobii isolated from the Japanese freshwater goby. The yellowfin goby myxozoan however, is likely an undescribed species based on phylogenetic analysis and morphologic features. Detailed description of vegetative and spore stages are currently lacking for proposal to a new species of Henneguya. A specific PCR test was developed, which confirmed a 100% prevalence of the parasite among randomly collected gobies in group 1 (N = 30) and group 2 (N = 15) at termination of the study at one month in captivity. The myxozoan was also detected from 18 gobies (12%) that died in the first group within two weeks in captivity. Apparently healthy gobies that served as controls did not reveal the presence of the myxozoan by PCR. This study documents the occurrence of a potentially new species of myxozoan in the yellowfin goby and underscores the detection of a parasitic infection in an introduced fish in the SFE. Although the pathogenesis of the myxozoan was not assessed and the prevalence as reported here is restricted to a comparatively small collection site in Suisun slough, the reemergence, identification, and ecological relevance of the parasite on goby populations in the SFE may be investigated in the future using the specific diagnostic tool developed in this study.

Published

2013

13. Exploration of the 2016 Yellowstone River fish kill and proliferative kidney disease in wild fish populations

Author

Patrick R. Hutchins, Adam J. Sepulveda, Hanna Hartikainen, Ken D. Staigmiller, Scott T. Opitz, Renee M. Yamamoto, Amberly Huttinger, Rick J. Cordes, Tammy Weiss, Lacey R. Hopper, Maureen K. Purcell, and Beth Okamura

Subjects

environmental DNA, malacosporean, myxozoan, PKX, proliferative kidney disease, quantitative polymerase chain reaction, Ecology, QH540-549.5

Abstract

Abstract Proliferative kidney disease (PKD) is an emerging disease that recently resulted in a large mortality event of salmonids in the Yellowstone River (Montana, USA). Total PKD fish mortalities in the Yellowstone River were estimated in the tens of thousands, which resulted in a multi‐week river closure and an estimated economic loss of US$500,000. This event shocked scientists, managers, and the public, as this was the first occurrence of the disease in the Yellowstone River, the only reported occurrence of the disease in Montana in the past 25 yr, and arguably the largest wild PKD fish kill in the world. To understand why the Yellowstone River fish kill occurred, we used molecular and historical data to evaluate evidence for several hypotheses: Was the causative parasite Tetracapsuloides bryosalmonae a novel invader, was the fish kill associated with a unique parasite strain, and/or was the outbreak caused by unprecedented environmental conditions? We found that T. bryosalmonae is widely distributed in Montana and have documented occurrence of this parasite in archived fish collected in the Yellowstone River prior to the fish kill. T. bryosalmonae had minimal phylogeographic population structure, as the DNA of parasites sampled from the Yellowstone River and distant water bodies were very similar. These results suggest that T. bryosalmonae could be endemic in Montana. Due to data limitations, we could not reject the hypothesis that the fish kill was caused by a novel and more virulent genetic strain of the parasite. Finally, we found that single‐year environmental conditions are insufficient to explain the cause of the 2016 Yellowstone River PKD outbreak. Other regional rivers where we documented T. bryosalmonae had similar or even more extreme conditions than the Yellowstone River and similar or more extreme conditions have occurred in the Yellowstone River in the recent past, yet mass PKD mortalities have not been documented in either instance. We conclude by placing these results and unresolved hypotheses into the broader context of international research on T. bryosalmonae and PKD, which strongly suggests that a better understanding of bryozoans, the primary host of T. bryosalmonae, is required for better ecosystem understanding.

Published

2021

14. A novel myxozoan parasite, Ellipsomyxa boleophthalmi sp. nov. (Myxozoa: Ceratomyxidae) in the brackishwater fish, Boleophthalmus dussumieri Valenciennes, 1837 (Perciformes: Gobiidae) from India.

Author

Vandana, V. R., Poojary, Nalini, Tripathi, Gayatri, Pavan-Kumar, A., Pratapa, M. G., Sanil, N. K., and Rajendran, K. V.

Abstract

A novel myxozoan parasite is identified and described from mudskipper, Boleophthalmus dussumieri, collected from a brackishwater ecosystem in Maharashtra, India. Ellipsomyxa boleophthalmi sp. nov. was found in the gallbladder of 58 of 60 fish examined (96.7%). The parasite formed disporous plasmodia that varied in size and shape, and the thin-walled, ellipsoidal and elongated myxospores measured 9.0–10.7 × 6.0–7.8 μm. The two, spherical polar capsules measured 2.7 μm in diameter and enclosed 3–4 coils of polar tubules. Histological observations of infected gallbladder revealed the attachment of disporous plasmodial stages of the parasite to the gallbladder wall with fine pseudopodia. Under the scanning electron microscope (SEM), the myxospores showed a distinct central sutural line and two distinct depressions on the opposite sides at the openings of polar capsules. SEM also revealed the engulfment of microvilli of gallbladder wall by pseudopodia of the plasmodial stages. Analysis of the partial fragment of the SSU rDNA region (1386 bp) showed less than 98% sequence similarity with the other reported Ellipsomyxa spp. In the phylogenetic tree, the present species formed as a distinct subclade within the major clade of Ellipsomyxa spp. The unique morphological and morphometric features of the myxospore, together with the molecular analysis, allowed us to conclude that the present myxozoan is a new species and is named Ellipsomyxa boleophthalmi sp. nov., after the generic name of the host. This is the first report on the occurrence of the genus Ellipsomyxa in B. dussumieri. [ABSTRACT FROM AUTHOR]

Published

2021

15. Exploration of the 2016 Yellowstone River fish kill and proliferative kidney disease in wild fish populations.

Author

Hutchins, Patrick R., Sepulveda, Adam J., Hartikainen, Hanna, Staigmiller, Ken D., Opitz, Scott T., Yamamoto, Renee M., Huttinger, Amberly, Cordes, Rick J., Weiss, Tammy, Hopper, Lacey R., Purcell, Maureen K., and Okamura, Beth

Subjects

FISH kills, FISH populations, KIDNEY diseases, FISH diseases, FISH parasites, BODIES of water

Abstract

Proliferative kidney disease (PKD) is an emerging disease that recently resulted in a large mortality event of salmonids in the Yellowstone River (Montana, USA). Total PKD fish mortalities in the Yellowstone River were estimated in the tens of thousands, which resulted in a multi‐week river closure and an estimated economic loss of US$500,000. This event shocked scientists, managers, and the public, as this was the first occurrence of the disease in the Yellowstone River, the only reported occurrence of the disease in Montana in the past 25 yr, and arguably the largest wild PKD fish kill in the world. To understand why the Yellowstone River fish kill occurred, we used molecular and historical data to evaluate evidence for several hypotheses: Was the causative parasite Tetracapsuloides bryosalmonae a novel invader, was the fish kill associated with a unique parasite strain, and/or was the outbreak caused by unprecedented environmental conditions? We found that T. bryosalmonae is widely distributed in Montana and have documented occurrence of this parasite in archived fish collected in the Yellowstone River prior to the fish kill. T. bryosalmonae had minimal phylogeographic population structure, as the DNA of parasites sampled from the Yellowstone River and distant water bodies were very similar. These results suggest that T. bryosalmonae could be endemic in Montana. Due to data limitations, we could not reject the hypothesis that the fish kill was caused by a novel and more virulent genetic strain of the parasite. Finally, we found that single‐year environmental conditions are insufficient to explain the cause of the 2016 Yellowstone River PKD outbreak. Other regional rivers where we documented T. bryosalmonae had similar or even more extreme conditions than the Yellowstone River and similar or more extreme conditions have occurred in the Yellowstone River in the recent past, yet mass PKD mortalities have not been documented in either instance. We conclude by placing these results and unresolved hypotheses into the broader context of international research on T. bryosalmonae and PKD, which strongly suggests that a better understanding of bryozoans, the primary host of T. bryosalmonae, is required for better ecosystem understanding. [ABSTRACT FROM AUTHOR]

Published

2021

16. Renal myxoboliosis of Metynnis hypsauchen in the Brazilian Amazon: morphological and histopathological aspects

Author

Jhonata Eduard Farias de Oliveira, Rayline Thaimenne Alves Figueredo, Maria do Perpétuo Socorro Progene Vilhena, José Francisco Berrêdo, José Ledamir Sindeaux-Neto, Edilson Matos, and Michele Velasco

Subjects

amazon, serrasalmidae, myxozoan, kidneys, Biology (General), QH301-705.5, Microbiology, QR1-502

Abstract

In their natural habitat, fish are constantly threatened by icthyoparasites, notably those from the Phylum Cnidaria, Hatschek, 1888, represented by species of the Myxozoa, responsible for infections in fish that cause complications to their health that can lead to death. Among these parasites, the genus Myxobolus Butschli, 1882 is responsible for the largest number of infections described in fishes from the Americas. This study describes the morphological and histopathological aspects of parasitism by Myxobolus sp. in specimens of Metynnis hypsauchen, obtained from the Capim river, in the municipality of Ipixuna do Pará, Pará, Brazil. During the months of August and March, 2018, 20 animals were captured, euthanized and autopsied. With the aid of a stereomicroscope an external and internal investigation was performed on the animals for the purpose of finding lesions or parasitic cysts, followed by confirmation of infection in Light Microscopy (ML). Cysts and Fragments from parasitized tissues were processed using techniques for histology and Scanning Electron Microscopy (SEM). For histology they were stained with Hematoxylin-Eosin (H-E) and Ziehl-Neelsen and for SEM Micrographs were captured, using equipment from the Museu Paraense Emílio Goeldi. The prevalence of parasitism was 60% (12/20) of the specimens, and the cysts were in the epithelium and lumen of the renal tubules, causing histopathological changes. The characteristics of the parasite spores are those associated with the genus Myxobolus, with an ellipsoid format, two polar capsules and a sporoplasm region. It was possible to confirm a high parasite load of Myxobolus, with compromised renal functions. This study is the first to describe Myxospore in Metynnis hypsauchen.

Published

2020

17. Morphological and Molecular Characterization of a New Myxozoan, Myxobolus grassi sp. nov. (Myxosporea), Infecting the Grass Carp, Ctenopharyngodon idella in the Gomti River, India

Author

Naireen Fariya, Harpreet Kaur, Mahender Singh, Rehana Abidi, Mansour El-Matbouli, and Gokhlesh Kumar

Subjects

grass carp, myxozoan, new myxozoan species, Myxobolus grassi, Medicine

Abstract

Myxosporeans are well-known parasites infecting food fishes in fresh and marine water around the globe. Grass carp (Ctenopharyngodon idella), a freshwater food fish commonly cultured in India with has significant economic importance. Herein, the study focuses on the description of a new myxosporean species, Myxobolus grassi sp. nov. from the gills as primary site and liver as secondary site of infection in grass carp. Both organs (gill and liver) were infected concurrently in the host and the prevalence of grass carp infection was 4.05% in gill filaments and liver, respectively. Identification of species was based on the morphological and morphometric features of the myxospore as well as 18S rDNA sequence data. A smear from gill and liver exhibited hundreds of morphologically similar myxospores. BLAST search revealed 98% sequence similarity and 0.03 genetic distance with M. catlae (KM029967) infecting gill lamellae of mrigal carp (Cirrhinus cirrhosus) from India and 98–84% sequence similarity with other myxobolids in India, China, Japan, Malaysia, Turkey and Hungary. Phylogenetically, it clustered with other myxobolids infecting gills and related organs (i.e., vital organ) of Indian cyprinid carp species. On the basis of myxospore morphology and 18S sequence, we propose M. grassi sp. nov.

Published

2022

18. Morphological plasticity in Myxobolus Bütschli, 1882: a taxonomic dilemma case and renaming of a parasite species of the common carp

Author

Qingxiang Guo, Mingjun Huang, Yang Liu, Xiuping Zhang, and Zemao Gu

Subjects

Myxozoan, Myxobolus pseudoacinosus, Morphotype, SSU rDNA, Taxonomic dilemma, Tissue tropism, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background Myxozoans are a group of cnidarian parasites, the present taxonomy of which favors a more comprehensive characterization strategy combining spore morphology, biological traits (host/organ specificity, tissue tropism), and DNA data over the classical morphology-based taxonomy. However, a systematist might again run into a taxonomic dilemma if more than two of the following exceptional cases were encountered at the same time: extensive intraspecific polymorphism, interspecific morphological similarity, identical interspecific biological traits and blurred small-subunit (SSU) rDNA-based species boundaries. In the present study, spores of a species of Myxobolus Bütschli, 1882 with two morphotypes (wide type and narrow type) were collected from the gills of common carp Cyprinus carpio Linnaeus. Confusingly, the wide type was found to be identical to Myxobolus paratoyamai Kato, Kasai, Tomochi, Li & Sato, 2017 in spore morphology and SSU rDNA sequence, which confidently suggested their conspecificity; while the narrow type, was highly similar to Myxobolus toyamai Kudo, 1917 based on spore morphology and SSU rDNA sequence and thus could not be easily classified. This discordance between wide type and narrow type has caused a taxonomic dilemma. To address this problem, a hypothesis about the conspecificity of the narrow type and M. toyamai was addressed. Results It was found that if the narrow type is conspecific with M. toyamai, it would be paradoxical for the SSU rDNA sequence of the narrow type to be more similar to M. paratoyamai (99.3%), Myxobolus acinosus Nie & Li, 1973 (98.6%) and Myxobolus longisporus Nie & Li, 1992 (98.7%) than to M. toyamai (97.6%). According to the results of the above what-if analysis, the narrow type and M. toyamai were considered to be different species. All in all, the present dual-morphotype species is estimated to be conspecific with M. paratoyamai Kato, Kasai, Tomochi, Li & Sato, 2017. Considering that this species name was preoccupied by Myxobolus paratoyamai Nie & Li, 1992, the replacement name Myxobolus pseudoacinosus nom. nov. is proposed. Conclusions This work addresses the taxonomic dilemma in polymorphic myxozoans and demonstrates that M. pseudoacinosus is a distinct species with two morphotypes. The present study may serve as a baseline for future studies that encounter similar classification complexities.

Published

2018

19. Identification and characterization of Sinuolinea niloticus from Nile tilapia (Oreochromis niloticus) farmed in Botucatu, Brazil.

Author

Battazza, Alexandre, da Silva Brasileiro, Felipe César, Machado, Eduardo Ferreira, de Matos, Magna Gomes, dos Santos, Cauê Bastos Tertuliano, Rodrigues, Marianna Vaz, do Nascimento, Diana, and Rocha, Noeme Sousa

Subjects

*NILE tilapia, *FISH farming, *FRESHWATER fishes, *MARINE fishes, *TILAPIA, *AUTOPSY, *FISH stocking

Abstract

Myxozoans can induce losses in production of marine and freshwater fish. Recently, a new parasitic myxozoan species, Sinuolinea niloticus, was identified and its importance highlighted. This study aimed to investigate Sinuolinea niloticus and its macroscopic and microscopic alterations in Nile tilapia (Oreochromis niloticus) specimens from fish farms in Botucatu, São Paulo, Brazil, as well as its molecular detection. Thirty tilapias from three different fish farms were collected and submitted to necropsy examination, where organs were sampled for histopathological and molecular analysis. The main necroscopic findings at all three fish farms were hemorrhaging, fin erosion, hepatomegaly, and splenomegaly. Microscopically, the main findings were degeneration of hepatocytes and hepatitis, epithelial and goblet cell hyperplasia in the gills, nephritis, gastritis, and presence of myxozoan-like structures in different organs. S. niloticus, detected by qPCR, showed a 90% prevalence among surveyed fish at farm 1 and 100% at farms 2 and 3. The high prevalence found in this study shows the importance of this myxozoan as a potential pathogenic agent of farmed O. niloticus that negatively affects fish health and, consequently, production. [ABSTRACT FROM AUTHOR]

Published

2020

20. A comparison of the structure and function of nematocysts in free-living and parasitic cnidarians (Myxozoa).

Author

Americus, Benjamin, Lotan, Tamar, Bartholomew, Jerri L., and Atkinson, Stephen D.

Subjects

*MYXOZOA, *SEA anemones, *CNIDARIA, *HOMOLOGY (Biology), *JELLYFISHES

Abstract

• "Polar capsule" should be considered a nematocyst morphotype. • "Polar capsules" and nematocysts have similar compositions and morphologies. • Polar "filaments" are tubules with sealed ends and helical symmetry. • Myxozoans lack a visible cnidocil, but detect physical and chemical stimuli as discharge triggers. • A revised terminology is suggested for myxozoan capsules. Myxozoans are obligate parasites that have complex life cycles requiring alternate vertebrate and invertebrate hosts, with transmission via microscopic waterborne spores. Unusually for parasites, they belong to the phylum Cnidaria, alongside thousands of free-living corals, sea anemones, jellyfish and hydrozoans. Their cnidarian affinity is affirmed by genetic relatedness and the presence of nematocysts, historically called "polar capsules" in myxozoan research. Free-living cnidarians utilise this cellular weaponry for defence, predation and adhesion, whereas myxozoans use it to anchor to their hosts as the first step in infection. Despite the ~650 million years of divergence between free-living cnidarians and myxozoans, their nematocysts retain many shared morphological and molecular characters. Both are intra-cellular capsules with a single opening, and contain a coiled, evertable tubule. They are composed of unique nematocyst proteins, nematogalectin and minicollagen, and both likely contain an internal matrix of metal cations covalently bound to the anionic polymer poly-gamma glutamate. The rapid dissociation of this matrix and the resulting increase in internal osmotic potential is the driving force behind tubule elongation during discharge. In this review, we compare the structure and function of nematocysts in Myxozoa and free-living Cnidaria, incorporating recent molecular characterizations. We propose that terminology for homologous myxozoan structures be synonymized with those from other Cnidaria, hence, "polar capsule" as a taxon-specific nematocyst morphotype and "polar filament" as "tubule." Despite taxonomic divergence, genome reduction and an evolution to parasitism, myxozoans maintain nematocysts that are structurally and functionally homologous to those of their free-living cnidarian relatives. [ABSTRACT FROM AUTHOR]

Published

2020

21. Morphological and Molecular Characterisation of Myxidium kudoi Meglitsch, 1937 from the Blue Catfish Ictalurus furcatus, Valenciennes in Oklahoma, USA.

Author

Woodyard, Ethan T., Rosser, Thomas G., and McAllister, Chris T.

Subjects

RIBOSOMAL DNA, ROACH (Fish), CATFISHES, RIBOSOMAL RNA, NUCLEOTIDE sequence, BAYESIAN analysis

Abstract

Background: Myxidium kudoi Meglitsch, 1937 has been described from the type host, blue catfish Ictalurus furcatus, with no additional host records or molecular data available for this species. Purpose: To provide molecular data and a novel host locality for this species and carry out phylogenetic analyses to infer the evolutionary relationship of the species to other members of the family Myxidiidae for which DNA sequence data is available. Methods: These data were collected using myxospores from the gallbladder of a blue catfish, Ictalurus furcatus collected from Lake Texoma, Oklahoma, USA. Myxospores were morphologically consistent with the only other account of this species and not any other Myxidium species described from siluriform fishes. Results: Myxospores were oblong with rounded ends and were 10.8–12.6 (11.6 ± 0.5) µm in length and 4.7–6.6 (5.7 ± 0.5) µm in width. Polar capsules were subspherical and 2.7–3.9 (3.4 ± 0.3) µm in length and 2.4–3.5 (3.1 ± 0.3) µm in diameter, with each capsule containing a polar filament with 3–4 coils. Molecular data consisted of a 2918-bp sequence of the partial 18S, complete ITS1, 5.8S, ITS2, and partial 28S ribosomal rRNA regions as well as a 2455-bp sequence of partial 28S ribosomal RNA. The partial 18S and 28S data was used in a concatenated Bayesian phylogenetic analysis to further infer the evolutionary relationships of the Myxidiidae. Additionally, the partial 18S data was used in a separate phylogenetic analysis. Conclusions: The present work reports novel morphological and molecular data for Myxidium kudoi as well as a novel locality of occurrence for this species. In concatenated phylogenetic analysis using 18S and 28S data and other molecular data from Myxozoa, M. kudoi grouped with other freshwater Myxidiidae. In the single-locus, 18S analysis, M. kudoi grouped with Myxidium rhodei from Rutilus rutilus and Myxidium amazonense from Corydoras melini, the only other Myxidium species of catfish for which molecular data are available. [ABSTRACT FROM AUTHOR]

Published

2020

22. A new species of Myxobolus (Myxozoa: Bivalvulida) infecting the medulla oblongata and nerve cord of brook trout Salvelinus fontinalis in southern Appalachia (New River, NC, USA).

Author

Ksepka, Steven P., Rash, Jacob M., Whelan, Nathan, and Bullard, Stephen A.

Subjects

*BROOK trout, *MEDULLA oblongata, *SOCKEYE salmon, *NERVE tissue, *MYXOZOA, *INSECT anatomy, *CHLOROPLAST DNA

Abstract

Myxobolus neurofontinalis n. sp. infects the brain and medulla oblongata of brook trout (Salvelinus fontinalis [Mitchill, 1814]) in the New River, western NC. It is the first species of Myxobolus described from the brook trout and resembles another congener (Myxobolus arcticus Pugachev and Khokhlov, 1979) that infects nerve tissue of chars (Salvelinus spp.). The new species differs from M. arcticus and all congeners by myxospore dimensions and by having a mucous envelope and distinctive sutural markings. A phylogenetic analysis of the small subunit rDNA (18S) suggests that the new species shares a recent common ancestor with some isolates identified as M. arcticus and that the new species and its close relatives (except Myxobolus insidiosus Wyatt and Pratt, 1973) comprise a clade of salmonid nerve-infecting myxobolids. The phylogenetic analysis indicates that several isolates of "M. arcticus" (sensu lato) in GenBank are misidentified and distantly related to other isolates taken from the type host (Oncorhynchus nerka [Walbaum, 1792]) and from nearby the type locality (Kamchatka Peninsula, Russia). Serial histological sections of infected brook trout confirmed that myxospores of the new species are intercellular and infect nerve cord and medulla oblongata only. A single infected brook trout showed an inflammatory response characterized by focal lymphocytic infiltrates and eosinophilic granulocytes; however, the remaining 4 brook trout lacked evidence of a histopathological change or demonstrable host response. These results do not support the notion that this infection is pathogenic among brook trout. [ABSTRACT FROM AUTHOR]

Published

2019

23. Intestinal Transcriptomic and Histologic Profiling Reveals Tissue Repair Mechanisms Underlying Resistance to the Parasite Ceratonova shasta

Author

Damien E. Barrett, Itziar Estensoro, Ariadna Sitjà-Bobadilla, and Jerri L. Bartholomew

Subjects

Oncorhynchus mykiss, steelhead, Ceratonova shasta, myxozoan, parasites, RNA-seq, Medicine

Abstract

Background: Myxozoan parasites infect fish worldwide causing significant disease or death in many economically important fish species, including rainbow trout and steelhead trout (Oncorhynchus mykiss). The myxozoan Ceratonova shasta is a parasite of salmon and trout that causes ceratomyxosis, a disease characterized by severe inflammation in the intestine resulting in hemorrhaging and necrosis. Populations of O. mykiss that are genetically fixed for resistance or susceptibility to ceratomyxosis exist naturally, offering a tractable system for studying the immune response to myxozoans. The aim of this study was to understand how steelhead trout that are resistant to the disease respond to C. shasta once it has become established in the intestine and identify potential mechanisms of resistance. Results: Sequencing of intestinal mRNA from resistant steelhead trout with severe C. shasta infections identified 417 genes differentially expressed during the initial stage of the infection compared to uninfected control fish. A strong induction of interferon-gamma and interferon-stimulated genes was evident, along with genes involved in cell adhesion and migration. A total of 11,984 genes were differentially expressed during the late stage of the infection, most notably interferon-gamma, interleukin-6, and immunoglobulin transcripts. A distinct hardening of the intestinal tissue and a strong inflammatory reaction in the intestinal submucosa including severe hyperplasia and inflammatory cell infiltrates were observed in response to the infection. The massive upregulation of caspase-14 early in the infection, a protein involved in keratinocyte differentiation might reflect the rapid onset of epithelial repair mechanisms, and the collagenous stratum compactum seemed to limit the spread of C. shasta within the intestinal layers. These observations could explain the ability of resistant fish to eventually recover from the infection. Conclusions: Our results suggest that resistance to ceratomyxosis involves both a rapid induction of key immune factors and a tissue response that limits the spread of the parasite and the subsequent tissue damage. These results improve our understanding of the myxozoan–host dialogue and provide a framework for future studies investigating the infection dynamics of C. shasta and other myxozoans.

Published

2021

24. Prevalence of Myxozoan Parasites of Riverine Fishes of Jalpaiguri District, West Bengal, India

Author

Banerjee, Prabir, Basu, Saugata, and Modak, Biplob Kumar

Published

2021

25. Morphological variation in Myxobolus drjagini (Akhmerov, 1954) from silver carp and description of Myxobolus paratypicus n. sp. (Cnidaria: Myxozoa).

Author

Xi, Bing-Wen, Zhao, Xin, Li, Peng, and Xie, Jun

Subjects

*SILVER carp, *BIGHEAD carp, *CRANIAL nerves, *MYXOZOA, *CNIDARIA, *OLFACTORY nerve

Abstract

There is uncertainty in the identification of Myxobolus drjagini, the causative agent of silver carp twist disease, in the literature. An investigation of fish parasites in Lake Taihu, China, revealed several Myxobolus drjagini–like myxosporeans infecting the subcutaneous tissue of the head skin, the olfactory and oculomotor nerves in the cranial cavity, and the intrafilamental epithelium of the gills of silver carp Hypophthalmichthys molitrix (Valenciennes, 1844). Myxospores from the head skin and the nerves were identified as conspecific to M. drjagini based on morphological and molecular data; although the spores from each of the two organs presented morphological variations. SSU rDNA sequence analysis revealed that the sequence of M. drjagini previously deposited in GenBank (AF085179) was invalid. Myxospores from the gills were identified as Myxobolus paratypicus n. sp. The spores were oval, asymmetric in frontal view, 13.8 (12.9–14.9) μm long, 9.9 (9.2–11.1) μm wide, and 7.0 μm thick. Two pyriform polar capsules were unequal in size (ratio above 4:1) with slightly converging anterior ends, and the posterior end of the large polar capsule extended beyond the middle of the spore. The large polar capsule was 7.5 (6.2–8.2) μm long and 5.0 (4.2–5.6) μm wide; the small polar capsule was 2.7 (2.1–3.6) μm long and 1.4 (1.1–1.9) μm wide. Polar filaments were coiled with 7–8 turns in the large polar capsule. The SSU rDNA sequence of M. paratypicus n. sp. was not identical to that of any myxozoan available in GenBank and showed highest similarity with M. drjagini (96%) and Myxobolus pavlovskii (95%) collected from bighead carp and silver carp, respectively. [ABSTRACT FROM AUTHOR]

Published

2019

26. Description of Myxobolus xiantaoensis n. sp. from the fins of yellow catfish in China: a species previously attributed to Myxobolus physophilus Reuss, 1906 in Chinese records.

Author

Tahir, Urfa Bin, Guo, QingXiang, Zhao, DanDan, Liu, Yang, and Gu, Zemao

Subjects

*CNIDARIA, *MORPHOLOGY, *DATA, *CATFISHES

Abstract

Myxozoans are economically important cnidarian endoparasites. Members of this group have been traditionally characterized by a morphology-based taxonomic system. Because myxozoans possess few morphological characters, these data are routinely accompanied by biological traits (host/organ/tissue specificity) and molecular data when describing or identifying myxozoan species. In the present study, a species of Myxobolus was collected from the fins of yellow catfish Tachysurus fulvidraco Richardson, 1846, which was consistent in spore morphology and host/organ specificity with Chinese records of Myxobolus physophilus Reuss, 1906. However, these earlier records and our own findings are inconsistent with the original description of M. physophilus from Russia. Specifically, there are differences in spore morphology (shape, intercapsular appendix, and polar capsule size), the infection site (air bladder vs. fins), and the host affinity (common rudd vs. yellow catfish). The inconsistencies allow us to conclude that both the present Myxobolus species and Chinese records of M. physophilus are distinct from the original description of M. physophilus and represent a new Myxobolus species, which we named Myxobolus xiantaoensis n. sp. [ABSTRACT FROM AUTHOR]

Published

2019

27. Morphological and molecular characterization of a new species Myxobolus gutturocola n. sp. (Myxozoa: Myxobolidae) from the throat of Hypophthalmichthys molitrix in China.

Author

Liu, J. M., Zhang, J. Y., and Zhao, Y. J.

Subjects

*CNIDARIAN larvae, *RECOMBINANT DNA, *SILVER carp, *MORPHOLOGY

Abstract

Myxobolus gutturocola n. sp. was isolated from the throat of silver carp, Hypophthalmichthys molitrix, in Chongqing, China. Myxospore valves are unsymmetrical and smooth. Mature spores are ellipsoidal in frontal view, measuring 12.5 ± 0.2 μm (n = 25) in length, 8.4 ± 0.2 μm (n = 25) in width and 7.1 ± 0.2 μm (n = 25) in thickness. Each spore has two pyriform and unequal sizes polar capsules, the large one with 5.7 ± 0.2 μm in length × 3.6 ± 0.2 μm in width and the small one with 4.6 ± 0.2 μm in length × 2.6 ± 0.1 μm in width. Polar filaments are coiled seven or eight turns in the large polar capsule and four or five turns in the small polar capsule. The coils are arranged almost perpendicularly to the longitudinal axis of the polar capsule. Morphological analysis revealed that M. gutturocola n. sp. is distinct from related species of Myxobolus Bütschli, 1882. Molecular analysis has demonstrated that its SSU rDNA sequences do not match with any available sequences in GenBank. Phylogenetic analysis of the SSU rDNA sequences indicated this species clustered in a clade composed exclusively of parasites infecting the fishes of the Leucisini lineage and most closely related to Myxobolus pavlovskii isolated from the gill filaments of silver carp in Hungary. [ABSTRACT FROM AUTHOR]

Published

2019

28. Description of new myxozoan parasite Myxobolus awadhii sp. nov from the gills of freshwater catfish Clarias batrachus Linn.

Author

Fariya, Naireen, Abidi, Rehana, and Chauhan, U. K.

Abstract

Parasitic infestations are one of the major problems in freshwater fish production. Clarias batrachus Linnaeus, 1758 (Clariidae) is a commercially important native catfish mainly used for food as it has very high iron content and other minerals. Unfortunately, it is difficult to breed in captivity and is highly prone to parasitic infections particularly the Myxobolus sp. The present article discusses a new species of Myxobolus identified as Myxobolus awadhii from the gills of C. batrachus. Plasmodia were found on the gill filaments with the intensity of infection to be moderate as indicated by gill plasmodial index (GPI = 6). The mature myxospores were oval to ellipsoidal in shape measuring 8.82-11.68 (10.57 ± 0.50) × 5.76-7.37 (6.70 ± 0.36) μm in size. The present species was compared with species found from the same host and other resembling species as M. acanthorhodi, M. bhadurius, M. bilineatum, M. chrysichthyi. Present article deals with morphological and morphometric description of M. awadhii sp. nov. Morphological comparisons of the mature myxospores were done with the similar myxospores and species reported earlier from C. batrachus. [ABSTRACT FROM AUTHOR]

Published

2018

29. Identification and Expression Profiling of Toll-Like Receptors of Brown Trout (Salmo trutta) during Proliferative Kidney Disease

Author

Arun Sudhagar, Mansour El-Matbouli, and Gokhlesh Kumar

Subjects

pattern recognition receptors, TLRs, Tetracapsuloides bryosalmonae, myxozoan, parasite, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Proliferative kidney disease is an emerging disease among salmonids in Europe and North America caused by the myxozoan parasite Tetracapsuloides bryosalmonae. The decline of endemic brown trout (Salmo trutta) in the Alpine streams of Europe is fostered by T. bryosalmonae infection. Toll-like receptors (TLRs) are a family of pattern recognition receptors that acts as sentinels of the immune system against the invading pathogens. However, little is known about the TLRs’ response in salmonids against the myxozoan infection. In the present study, we identified and evaluated TLR1, TLR19, and TLR13-like genes of brown trout using data-mining and phylogenetic analysis. The expression pattern of TLRs was examined in the posterior kidney of brown trout infected with T. bryosalmonae at various time points. Typical Toll/interleukin-1 receptor protein domain was found in all tested TLRs. However, TLR13-like chr2 had a short amino acid sequence with no LRR domain. Phylogenetic analysis illustrated that TLR orthologs are conserved across vertebrates. Similarly, a conserved synteny gene block arrangement was observed in the case of TLR1 and TLR19 across fish species. Interestingly, all tested TLRs showed their maximal relative expression from 6 to 10 weeks post-exposure to the parasite. Our results suggest that these TLRs may play an important role in the innate defense mechanism of brown trout against the invading T. bryosalmonae.

Published

2020

30. The Malacosporean Myxozoan Parasite Tetracapsuloides bryosalmonae: A Threat to Wild Salmonids

Author

Arun Sudhagar, Gokhlesh Kumar, and Mansour El-Matbouli

Subjects

brown trout, bryozoan, climate change, myxozoan, proliferative kidney disease, Medicine

Abstract

Tetracapsuloides bryosalmonae is a myxozoan parasite responsible for proliferative kidney disease (PKD) in a wide range of salmonids. PKD, characterized by high mortality and morbidity, is well known for affecting aquaculture operations and wild salmonid populations across Europe and North America. The life cycle of T. bryosalmonae revolves around freshwater bryozoan and salmonid fish hosts. In recent years, T. bryosalmonae has been reported among wild salmonids from the European countries where it has not been reported previously. T. bryosalmonae is believed to be a possible reason for the diminishing wild salmonid populations in the natural water bodies of many European countries. Climate crisis driven rising water temperature can further accelerate the distribution of T. bryosalmonae. Expansion of the geographical distribution of T. bryosalmonae may further advocate the decline of wild salmonid populations, especially brown trout (Salmo trutta) in their habitats. Mathematical models are used to understand the pattern and distribution of T. bryosalmonae among the host in the natural water bodies. The present manuscript not only summarizes the incidences of T. bryosalmonae among the wild salmonid populations, but also discusses the contemporary understanding about the development of T. bryosalmonae in its hosts and the influences of various factors in the spread of the disease in the wild.

Published

2019

31. Esophageal infection due to Kudoa sp. (Myxozoa) in mapara catfish, Hypophthalmus marginatus

Author

Michele Velasco, Marcela Videira, José Mauro Viana da Silva, Osimar Sanches, Patrícia Santos Matos, Sérgio Carmona de São Clemente, and Edilson Matos

Subjects

Amazonia, Esophagus, Disease, Mapará, Myxozoan, Aquaculture. Fisheries. Angling, SH1-691

Abstract

The present study describes lesions caused by Kudoa sp. in the esophageal tissue of mapará catfishes (Hypophthalmus marginatus) collected from Cametá, Tocantins River in the northern Brazil. Fifty refrigerated H. marginatus specimens were dissected and tissue samples were for embedded in paraffin and stained with hematoxylin-eosi, Masson’s trichrome and Giemsa. Pseudocysts of whitish color were observed in the esophagus region. The parasites had four valves and other morphological characteristics of the genus Kudoa. Microscopic analysis revealed lesions in the mucosa, submucosa, and muscular layers. The Masson staining highlighted the presence of myxosporean cysts in the cytoplasm of the muscular fibers, and marked fibrosis of the muscular and mucous layers. The macro and microscopic findings of the present study confirm the presence of necrotic esophagitis in H. marginatus associated with infection by Kudoa.

Published

2015

32. Characterizing Two New Henneguya Species in the Respiratory Organs of African Sharptooth Catfish.

Author

Emeish WFA, Fawaz MM, Hussein NM, Al-Amgad Z, Abd-ElHafeez HH, Rutland CS, and Bakry KA

Abstract

Henneguya species are myxozoans, a suborder of Cnidaria, which can affect the gills and extrarespiratory organs of the African sharptooth catfish, Clarias gariepinus. This research describes natural infection-induced histological alterations caused by the Henneguya species present. The Henneguya species were also identified molecularly using DNA sequenced from infected tissue cysts, and phylogenetically analyzed. Clinical investigations revealed cyst-like nodules on the fish gill filaments and extrarespiratory organs. Within a milky fluid inside the cysts were several Henneguya-like spores. Henneguya sp. infested 27.5% of the fish, with the highest prevalence in the gills compared to the extrarespiratory organs. The Henneguya species parasitized the gill and the dendritic tissues, resulting in histopathological characteristics. The plasmodia's developmental stages resulted in destructive damage which manifested as marked necrosis, which was replaced by a focal aggregation of inflammatory cells. Amplification of the 18S ribosomal DNA from the fish parasites was followed by sequencing, which confirmed their identities as new species Henneguya qenabranchiae n. sp. and Henneguya qenasuprabranchiae n. sp. with 99.53 and 99.64% identities, respectively, to Henneguya sp. 1 HS-2015. The two C. gariepinus myxozoans shared some characteristics based on morphologic and phylogenetic analysis as previously published, where it was proposed that they were a sister lineage to Henneguya species in Egypt, and it is now proposed that they are new species., Competing Interests: Conflict of Interest The authors declare that they have no competing interest., (© The Author(s) 2023. Published by Oxford University Press on behalf of the Microscopy Society of America. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published

2023

33. Myxobolus lentisuturalis infection in a farmed population of goldfish Carassius auratus from the USA.

Author

Hepps Keeney CM, Waltzek TB, Oliveira Viadanna PH, Frasca S Jr, Reinhardt E, Lovy J, and Lewbart GA

Subjects

Animals, Goldfish parasitology, Phylogeny, Fish Diseases parasitology, Myxobolus genetics, Parasitic Diseases, Animal epidemiology, Parasitic Diseases, Animal parasitology

Abstract

Myxobolus lentisuturalis is a myxozoan parasite of piscine muscle that has been described in goldfish Carassius auratus and Prussian carp Carassius gibelio. This report documents a naturally occurring infection of M. lentisuturalis in a population of farmed goldfish in the USA. Postmortem examination was performed on 4 affected goldfish. Gross findings included large cystic cavities along the dorsal midline filled with caseous exudate. Histopathology revealed myxozoan plasmodia and spores in the epaxial muscles with varying degrees of granulomatous and necrotizing myositis accompanied by lymphohistiocytic meningoencephalitis. Spore morphology and dimensions were consistent with M. lentisuturalis, as observed by light microscopy. PCR and sequence analysis of the small subunit ribosomal DNA of infected muscle samples from 2 goldfish confirmed the parasite to have 99-100% nucleotide identity to M. lentisuturalis sequences recovered from similar cases of this parasite infecting goldfish in China and Italy and Prussian carp in China. This is the first reported case of M. lentisuturalis in the USA and furthers the understanding of the pathogenicity of this under-described parasite.

Published

2023

34. Genotyping of individual Ceratonova shasta (Cnidaria: Myxosporea) myxospores reveals intra-spore ITS-1 variation and invalidates the distinction of genotypes II and III.

Author

Atkinson, Stephen D., Hallett, Sascha L., and Bartholomew, Jerri L.

Subjects

*CNIDARIA physiology, *GENOTYPES, *INVERTEBRATE genetics, *NUCLEOTIDE sequence, *NUCLEIC acid isolation methods

Abstract

Genotypes of the myxosporean parasite Ceratonova shasta are defined by the number of ATC repeats in the parasite's ribosomal DNA internal transcribed spacer region 1. These genotypes correlate with specific salmonid fish hosts. We observed coho salmon (Oncorhynchus kisutch) and rainbow trout (Oncorhynchus mykiss) with mixtures of genotypes II and III, and assumed that this was a consequence of fish having an aggregate infection from multiple individual parasites. We hypothesized that although multiple ITS copies are present within a parasite spore, the DNA sequences of these copies are identical, and thus individual C. shasta spores are a single genotype. We tested this by extracting and sequencing DNA from individual myxospores. We trialed three approaches for in-tube DNA extraction; digestion with proteinase K was superior to simply rehydrating spores, or incubation in the buffer. Sequences from 14 myxospores were each a mixture of genotypes II and III. Therefore, intra-genomic ribosomal DNA variants exist within individual parasite spores, and II and III should no longer be regarded as discrete C. shasta genotypes. This single-spore genotyping approach will be a useful tool for testing validity of other C. shasta genotypes, and for correctly matching genotype with phenotype for mixed infections of other myxozoan species. [ABSTRACT FROM AUTHOR]

Published

2018

35. Ultrastructure, surface topography, morphology and histological observations of a new parasitic cnidarian of the marbled swamp eel from the world's largest tropical wetland area, Pantanal, Brazil.

Author

Mathews, Patrick D., Mertins, Omar, Milanin, Tiago, Aguiar, Julio C., Gonzales-Flores, Anai P.P., Tavares, Luiz E.R., and Morandini, André C.

Subjects

SURFACE topography, CNIDARIA, WETLANDS, MORPHOLOGY, ULTRASTRUCTURE (Biology), SWAMPS, TRANSMISSION electron microscopy, OCTOCORALLIA

Abstract

Myxosporeans are a diverse group of microscopic cnidarians of wide distribution that evolved into a parasitic lifestyle. A new myxosporean species, Myxobolus sp., is herein described infecting the mandible of wild specimens of Synbranchus marmoratus , caught in the world's largest tropical wetland area, Pantanal, Brazil. Light, scanning, transmission electron microscopy and histological observations unveiled detailed taxonomic information of the new myxosporean cnidarian. Ultrastructural analysis revealed a detailed description of plasmodia structures which can be used for comparison with plasmodia from other species of myxobolids. Both histological and ultrastructural observations evidenced a connective tissue capsule surrounding the plasmodia of Myxobolus sp. as a histopathological host reaction to the infection of this parasitic cnidarian. Histology showed that tissue tropism of the new myxosporean occurs in a well-defined part of the mandible, with development of plasmodia occurring in the epidermis layer. Mature myxospores from the valvular view featured an ovoid shape and had a short prolongation of the spore valves in the posterior end. Myxospores measured 22.7 ± 1.2 µm (21.5–23.9 µm) in length, 12.5 ± 0.4 µm (12.1–12.9 µm) in width and 11.3 ± 0.5 (10.8–11.8 µm) in thickness. Polar capsules were pyriform equally-sized and measuring 4.6 ± 0.3 µm (3.9–4.3 µm) in length and 2.9 ± 0.1 µm in width (2.8–3.0 µm). Finally, this study substantiates the still hidden myxosporean diversity from South America. • First report describing infection of Symbranchus marmoratus with myxosporean cnidarian from South America. • A new myxosporean cnidarian is described using detailed features obtained from light, scanning and transmission electron micrcoscopy. • This study provides detailed descriptive ultrastructural features which could suit as a basis for accurate taxonomic identification of this new myxoxporean cnidarian. • Ultrastructural features have been described in detail for plasmodia of the new myxosporean species. [ABSTRACT FROM AUTHOR]

Published

2022

36. Sinuolinea niloticus n. sp., a myxozoan parasite that causes disease in Nile tilapia ( Oreochromis niloticus).

Author

Vaz Rodrigues, Marianna, Francisco, Claire, Biondi, Germano, and Júnior, João

Subjects

*MYXOZOA, *NILE tilapia, *FISH parasites, *AQUACULTURE, *HISTOPATHOLOGY, *DISEASES

Abstract

Sinuolinea species are myxozoans of the order Bivalvulida, suborder Variisporina, and family Sinuolineidae, which can be parasites for freshwater and marine fish. The aim of this study was to describe the occurrence of Sinuolinea niloticus n. sp. infecting Nile tilapia ( Oreochromis niloticus) from aquaculture and from river sources with morphological and molecular analyses. Between March 2010 and November 2012, 116 Nile tilapia were randomly sampled from aquaculture net fishing ( n = 56) in Mira Estrela, São Paulo, and from the Capivari River ( n = 60) in Botucatu, São Paulo. The fishes that were sampled were examined by necropsy, microscopic observation and molecular techniques for detection and identification of the myxozoan causing disease in tilapia. All of the tissues that were sampled for analysis showed the presence of the parasite. It was observed by microscopy that the myxozoan belongs to the Sinuolinea genus. This identification was performed based on morphological characteristics and histopathology findings, such as structures consistent with myxozoan in the interstices in all analysed tissues, coagulative necrosis, haemorrhage, inflammatory processes, presence of melano-macrophages and eosinophils. The results of the molecular analyses revealed that the myxozoan detected and identified in this study is sister to a group of other Sinuolinea species. Because this is the first report of this parasite in Nile tilapia, the parasite was named S. niloticus n. sp. This is the first report of a Sinuolinea species in Brazil and in tilapia. [ABSTRACT FROM AUTHOR]

Published

2016

37. A new and emerging myxozoan parasite of fathead minnows: species description, life-cycle, and effects to the host

Author

Goater, Cameron P., Tilley, Molly, Goater, Cameron P., and Tilley, Molly

Abstract

This thesis aims to characterize a new species of myxozoan, nominated Myxobolus rasmusseni n. sp., parasitizing Fathead Minnows in southern Alberta and to understand its effects on individual hosts. The results of my thesis are the first to document and image the host-parasite interface of M. rasmusseni n. sp.- infected minnows and to confirm the identity of both hosts: Fathead Minnow and Tubifex tubifex in its complete life cycle. Based upon the observations of distinctive lesions that are associated with the head of infected minnows, I used a combination of approaches to demonstrate that lesion-bearing minnows have reduced physiological performance and poorer survival than non-lesion bearing minnows. My experiments also demonstrate that M. rasmusseni n. sp. influences some host behaviours which raise questions regarding parasite-mediated transmission. Ultimately, my results suggest that the lesions caused by the development of Myxobolus rasmusseni n. sp. in Fathead Minnow are pathological and an emerging infectious disease that may negatively influence Albertan minnow populations.

Published

2021

38. Intestinal transcriptomic and histologic profiling reveals tissue repair mechanisms underlying resistance to the parasite ceratonova shasta

Author

U. S. Department of the Interior, Barrett, Damien E., Estensoro, Itziar, Sitjà-Bobadilla, Ariadna, Bartholomew, J. L., U. S. Department of the Interior, Barrett, Damien E., Estensoro, Itziar, Sitjà-Bobadilla, Ariadna, and Bartholomew, J. L.

Abstract

Background: Myxozoan parasites infect fish worldwide causing significant disease or death in many economically important fish species, including rainbow trout and steelhead trout (Oncorhynchus mykiss). The myxozoan Ceratonova shasta is a parasite of salmon and trout that causes ceratomyxosis, a disease characterized by severe inflammation in the intestine resulting in hemorrhaging and necrosis. Populations of O. mykiss that are genetically fixed for resistance or susceptibility to ceratomyxosis exist naturally, offering a tractable system for studying the immune response to myxozoans. The aim of this study was to understand how steelhead trout that are resistant to the disease respond to C. shasta once it has become established in the intestine and identify potential mechanisms of resistance. Results: Sequencing of intestinal mRNA from resistant steelhead trout with severe C. shasta infections identified 417 genes differentially expressed during the initial stage of the infection compared to uninfected control fish. A strong induction of interferon-gamma and interferon-stimulated genes was evident, along with genes involved in cell adhesion and migration. A total of 11,984 genes were differentially expressed during the late stage of the infection, most notably interferon-gamma, interleukin-6, and immunoglobulin transcripts. A distinct hardening of the intestinal tissue and a strong inflammatory reaction in the intestinal submucosa including severe hyperplasia and inflammatory cell infiltrates were observed in response to the infection. The massive upregulation of caspase-14 early in the infection, a protein involved in keratinocyte differentiation might reflect the rapid onset of epithelial repair mechanisms, and the collagenous stratum compactum seemed to limit the spread of C. shasta within the intestinal layers. These observations could explain the ability of resistant fish to eventually recover from the infection. Conclusions: Our results suggest that resistance

Published

2021

39. Conditional persistence and tolerance characterize endoparasite--colonial host interactions.

Author

FONTES, INÊS, HARTIKAINEN, HANNA, TAYLOR, NICK G. H., and OKAMURA, BETH

Subjects

*ENDOPARASITES, *HOST-parasite relationships, *FRESHWATER organisms, *PARASITISM, *SPACETIME

Abstract

Colonial hosts offer unique opportunities for exploitation by endoparasites resulting from extensive clonal propagation, but these interactions are poorly understood. The freshwater bryozoan, Fredericella sultana, and the myxozoan, Tetracapsuloides bryosalmonae, present an appropriate model system for examining such interactions. F. sultana propagates mainly asexually, through colony fragmentation and dormant propagules (statoblasts). Our study examines how T. bryosalmonae exploits the multiple transmission routes offered by the propagation of F. sultana, evaluates the effects of such transmission on its bryozoan host, and tests the hypothesis that poor host condition provokes T. bryosalmonae to bail out of a resource that may soon be unsustainable, demonstrating terminal investment. We show that infections are present in substantial proportions of colony fragments and statoblasts over space and time and that moderate infection levels promote statoblast hatching and hence effective fecundity. We also found evidence for terminal investment, with host starvation inducing the development of transmission stages. Our results contribute to a growing picture that interactions of T. bryosalmonae and F. sultana are generally characterized by parasite persistence, facilitated by multiple transmission pathways and host condition-dependent developmental cycling, and host tolerance, promoted by effective fecundity effects and an inherent capacity for renewed growth and clonal replication. [ABSTRACT FROM AUTHOR]

Published

2017

40. Protocol identification and preservation of myxozoan parasites for microscopy with silver nitrate (Klein's dry) staining technique.

Author

Fariya, Naireen

Abstract

The present study, discusses a first report of staining techniques with silver nitrate (AgNO3) stain for the preservation and identification of myxozoans globally. The silver nitrate stain was used to prepare permanent slide preparation of myxozoans with some adaptations made in our laboratory. Fresh air dried smear were stained with silver nitrate stain ensuing dark brown color polar capsules and light brown color of spore‐wall. The stain is everlasting for years differing to other stains like Geimsa, iron‐heamotoxylin Zeihl‐Neelsen Blue, and trichome stains. Research Highlights: Stains usually fade with time and fail to disclose the morphological characters of the specimen. Present staining method helps to detect less infection in the tissue locating the myxospores. The Klein dry method (1958) is useful and suitable for long term preservation of the myxozoan slides and morphological description. [ABSTRACT FROM AUTHOR]

Published

2018

41. A probe-based quantitative PCR assay for detecting Tetracapsuloides bryosalmonae in fish tissue and environmental DNA water samples.

Author

Hutchins, Patrick R., Sepulveda, Adam J., Martin, Renee M., and Hopper, Lacey R.

Abstract

A probe-based quantitative real-time PCR assay was developed to detect Tetracapsuloides bryosalmonae, which causes proliferative kidney disease in salmonid fish, in kidney tissue and environmental DNA (eDNA) water samples. The limits of detection and quantification were 7 and 100 DNA copies for calibration standards and T. bryosalmonae was reliably detected down to 100 copies in tissue and eDNA samples. The assay presented here is a highly sensitive and quantitative tool for detecting T. bryosalmonae with potential applications for tissue diagnostics and environmental detection. [ABSTRACT FROM AUTHOR]

Published

2018

42. Transcriptome profiling of posterior kidney of brown trout, Salmo trutta, during proliferative kidney disease

Author

Sudhagar, Arun, Ertl, Reinhard, Kumar, Gokhlesh, and El-Matbouli, Mansour

Subjects

Sequence Analysis, RNA, Trout, urogenital system, Research, Gene Expression Profiling, Parasitic Diseases, Animal, Salmonids, Computational Biology, Kidney, Host-Parasite Interactions, Specific Pathogen-Free Organisms, lcsh:Infectious and parasitic diseases, Fish Diseases, Tetracapsuloides bryosalmonae, Myxozoan, Animals, Kidney Diseases, lcsh:RC109-216, Gene expression, Myxozoa, RNA-seq, Asymptomatic Infections

Abstract

Background Tetracapsuloides bryosalmonae is a myxozoan parasite which causes economically important and emerging proliferative kidney disease (PKD) in salmonids. Brown trout, Salmo trutta is a native fish species of Europe, which acts as asymptomatic carriers for T. bryosalmonae. There is only limited information on the molecular mechanism involved in the kidney of brown trout during T. bryosalmonae development. We employed RNA sequencing (RNA-seq) to investigate the global transcriptome changes in the posterior kidney of brown trout during T. bryosalmonae development. Methods Brown trout were exposed to the spores of T. bryosalmonae and posterior kidneys were collected from both exposed and unexposed control fish. cDNA libraries were prepared from the posterior kidney and sequenced. Bioinformatics analysis was performed using standard pipeline of quality control, reference mapping, differential expression analysis, gene ontology, and pathway analysis. Quantitative real time PCR was performed to validate the transcriptional regulation of differentially expressed genes, and their correlation with RNA-seq data was statistically analyzed. Results Transcriptome analysis identified 1169 differentially expressed genes in the posterior kidney of brown trout, out of which 864 genes (74%) were upregulated and 305 genes (26%) were downregulated. The upregulated genes were associated with the regulation of immune system process, vesicle-mediated transport, leucocyte activation, and transport, whereas the downregulated genes were associated with endopeptidase regulatory activity, phosphatidylcholine biosynthetic process, connective tissue development, and collagen catabolic process. Conclusion To our knowledge, this is the first RNA-seq based transcriptome study performed in the posterior kidney of brown trout during active T. bryosalmonae development. Most of the upregulated genes were associated with the immune system process, whereas the downregulated genes were associated with other metabolic functions. The findings of this study provide insights on the immune responses mounted by the brown trout on the developing parasite, and the host molecular machineries modulated by the parasite for its successful multiplication and release.

Published

2019

43. Exploration of the 2016 Yellowstone River fish kill and proliferative kidney disease in wild fish populations

Author

Tammy Weiss, Scott T. Opitz, Beth Okamura, Renee M. Yamamoto, Hanna Hartikainen, Amberly Huttinger, Rick J. Cordes, Lacey R. Hopper, Ken D. Staigmiller, Maureen K. Purcell, Patrick R. Hutchins, and Adam J. Sepulveda

Subjects

Ecology, Zoology, malacosporean, quantitative polymerase chain reaction, Biology, environmental DNA, medicine.disease, myxozoan, PKX, Real-time polymerase chain reaction, proliferative kidney disease, medicine, %22">Fish , Fish kill, Environmental DNA, QH540-549.5, Ecology, Evolution, Behavior and Systematics, Kidney disease

Abstract

Proliferative kidney disease (PKD) is an emerging disease that recently resulted in a large mortality event of salmonids in the Yellowstone River (Montana, USA). Total PKD fish mortalities in the Yellowstone River were estimated in the tens of thousands, which resulted in a multi‐week river closure and an estimated economic loss of US$500,000. This event shocked scientists, managers, and the public, as this was the first occurrence of the disease in the Yellowstone River, the only reported occurrence of the disease in Montana in the past 25 yr, and arguably the largest wild PKD fish kill in the world. To understand why the Yellowstone River fish kill occurred, we used molecular and historical data to evaluate evidence for several hypotheses: Was the causative parasite Tetracapsuloides bryosalmonae a novel invader, was the fish kill associated with a unique parasite strain, and/or was the outbreak caused by unprecedented environmental conditions? We found that T. bryosalmonae is widely distributed in Montana and have documented occurrence of this parasite in archived fish collected in the Yellowstone River prior to the fish kill. T. bryosalmonae had minimal phylogeographic population structure, as the DNA of parasites sampled from the Yellowstone River and distant water bodies were very similar. These results suggest that T. bryosalmonae could be endemic in Montana. Due to data limitations, we could not reject the hypothesis that the fish kill was caused by a novel and more virulent genetic strain of the parasite. Finally, we found that single‐year environmental conditions are insufficient to explain the cause of the 2016 Yellowstone River PKD outbreak. Other regional rivers where we documented T. bryosalmonae had similar or even more extreme conditions than the Yellowstone River and similar or more extreme conditions have occurred in the Yellowstone River in the recent past, yet mass PKD mortalities have not been documented in either instance. We conclude by placing these results and unresolved hypotheses into the broader context of international research on T. bryosalmonae and PKD, which strongly suggests that a better understanding of bryozoans, the primary host of T. bryosalmonae, is required for better ecosystem understanding.

Published

2021

44. Intestinal transcriptomic and histologic profiling reveals tissue repair mechanisms underlying resistance to the parasite ceratonova shasta

Author

Ariadna Sitjà-Bobadilla, Jerri L. Bartholomew, Damien E Barrett, Itziar Estensoro, and U. S. Department of the Interior

Subjects

Microbiology (medical), Necrosis, Article, Host–parasite interaction, Microbiology, Transcriptome, Immune system, Downregulation and upregulation, Ceratonova shasta, Ceratomyxa shasta, medicine, Immunology and Allergy, Parasites, Immune response, Transcriptomics, Molecular Biology, Steelhead, General Immunology and Microbiology, biology, biology.organism_classification, Trout, Infectious Diseases, Oncorhynchus mykiss, Myxozoan, biology.protein, Medicine, Rainbow trout, medicine.symptom, Antibody, RNA-seq, steelhead, myxozoan, parasites, transcriptomics, immune response, host–parasite interaction

Abstract

© 2021 by the authors., Background: Myxozoan parasites infect fish worldwide causing significant disease or death in many economically important fish species, including rainbow trout and steelhead trout (Oncorhynchus mykiss). The myxozoan Ceratonova shasta is a parasite of salmon and trout that causes ceratomyxosis, a disease characterized by severe inflammation in the intestine resulting in hemorrhaging and necrosis. Populations of O. mykiss that are genetically fixed for resistance or susceptibility to ceratomyxosis exist naturally, offering a tractable system for studying the immune response to myxozoans. The aim of this study was to understand how steelhead trout that are resistant to the disease respond to C. shasta once it has become established in the intestine and identify potential mechanisms of resistance. Results: Sequencing of intestinal mRNA from resistant steelhead trout with severe C. shasta infections identified 417 genes differentially expressed during the initial stage of the infection compared to uninfected control fish. A strong induction of interferon-gamma and interferon-stimulated genes was evident, along with genes involved in cell adhesion and migration. A total of 11,984 genes were differentially expressed during the late stage of the infection, most notably interferon-gamma, interleukin-6, and immunoglobulin transcripts. A distinct hardening of the intestinal tissue and a strong inflammatory reaction in the intestinal submucosa including severe hyperplasia and inflammatory cell infiltrates were observed in response to the infection. The massive upregulation of caspase-14 early in the infection, a protein involved in keratinocyte differentiation might reflect the rapid onset of epithelial repair mechanisms, and the collagenous stratum compactum seemed to limit the spread of C. shasta within the intestinal layers. These observations could explain the ability of resistant fish to eventually recover from the infection. Conclusions: Our results suggest that resistance to ceratomyxosis involves both a rapid induction of key immune factors and a tissue response that limits the spread of the parasite and the subsequent tissue damage. These results improve our understanding of the myxozoan–host dialogue and provide a framework for future studies investigating the infection dynamics of C. shasta and other myxozoans., This work was funded by the Bureau of Reclamation, U.S. Department of Interior through Interagency Agreement # R19PG00027, awarded to J.L.B.

Published

2021

45. Biology and mucosal immunity to myxozoans.

Author

Gómez, Daniela, Bartholomew, Jerri, and Sunyer, J. Oriol

Subjects

*FISH parasites, *MUCOUS membrane diseases, *IMMUNE response in fishes, *LIFE cycles (Biology), *IMMUNOGLOBULINS, *PATHOGENIC microorganisms

Abstract

Highlights: [•] Myxozoans are among the most abundant parasites in nature. [•] Many species infect both wild and farmed fish. [•] Here we highlight the biology of some of the most important myxozoans infecting mucosal surfaces of fish. [•] We describe the current knowledge on immune responses elicited by myxozoans in fish mucosal sites. [•] The development of immunoprophylactic strategies is also discussed in this review. [Copyright &y& Elsevier]

Published

2014

46. Identification and characterization of Sinuolinea niloticus from Nile tilapia (Oreochromis niloticus) farmed in Botucatu, Brazil

Author

Cauê Bastos Tertuliano dos Santos, Felipe César da Silva Brasileiro, Eduardo Ferreira Machado, Marianna Vaz Rodrigues, Noeme Sousa Rocha, Alexandre Battazza, Magna Gomes de Matos, Diana do Nascimento, and Universidade Estadual Paulista (Unesp)

Subjects

0106 biological sciences, Gill, Veterinary medicine, High prevalence, biology, 010604 marine biology & hydrobiology, Fish farming, Sinuolinea niloticus, Oreochromis niloticus, 04 agricultural and veterinary sciences, Aquaculture, Aquatic Science, biology.organism_classification, 01 natural sciences, Molecular analysis, Oreochromis, Nile tilapia, qPCR, Fish pathology, Myxozoan, 040102 fisheries, Freshwater fish, 0401 agriculture, forestry, and fisheries, Agronomy and Crop Science

Abstract

Made available in DSpace on 2020-12-12T02:45:09Z (GMT). No. of bitstreams: 0 Previous issue date: 2020-10-01 Myxozoans can induce losses in production of marine and freshwater fish. Recently, a new parasitic myxozoan species, Sinuolinea niloticus, was identified and its importance highlighted. This study aimed to investigate Sinuolinea niloticus and its macroscopic and microscopic alterations in Nile tilapia (Oreochromis niloticus) specimens from fish farms in Botucatu, São Paulo, Brazil, as well as its molecular detection. Thirty tilapias from three different fish farms were collected and submitted to necropsy examination, where organs were sampled for histopathological and molecular analysis. The main necroscopic findings at all three fish farms were hemorrhaging, fin erosion, hepatomegaly, and splenomegaly. Microscopically, the main findings were degeneration of hepatocytes and hepatitis, epithelial and goblet cell hyperplasia in the gills, nephritis, gastritis, and presence of myxozoan-like structures in different organs. S. niloticus, detected by qPCR, showed a 90% prevalence among surveyed fish at farm 1 and 100% at farms 2 and 3. The high prevalence found in this study shows the importance of this myxozoan as a potential pathogenic agent of farmed O. niloticus that negatively affects fish health and, consequently, production. School of Veterinary Medicine and Animal Science State University of São Paulo (Unesp), Botucatu Biotechnology Institute State University of São Paulo (Unesp), Botucatu School of Veterinary Medicine and Animal Science State University of São Paulo (Unesp), Botucatu Biotechnology Institute State University of São Paulo (Unesp), Botucatu

Published

2020

47. Identification and Expression Profiling of Toll-Like Receptors of Brown Trout (Salmo trutta) during Proliferative Kidney Disease

Author

Sudhagar, El-Matbouli, and Kumar

Subjects

myxozoan, Tetracapsuloides bryosalmonae, animal diseases, parasite, pattern recognition receptors, TLRs

Abstract

Proliferative kidney disease is an emerging disease among salmonids in Europe and North America caused by the myxozoan parasite Tetracapsuloides bryosalmonae. The decline of endemic brown trout (Salmo trutta) in the Alpine streams of Europe is fostered by T. bryosalmonae infection. Toll-like receptors (TLRs) are a family of pattern recognition receptors that acts as sentinels of the immune system against the invading pathogens. However, little is known about the TLRs&rsquo, response in salmonids against the myxozoan infection. In the present study, we identified and evaluated TLR1, TLR19, and TLR13-like genes of brown trout using data-mining and phylogenetic analysis. The expression pattern of TLRs was examined in the posterior kidney of brown trout infected with T. bryosalmonae at various time points. Typical Toll/interleukin-1 receptor protein domain was found in all tested TLRs. However, TLR13-like chr2 had a short amino acid sequence with no LRR domain. Phylogenetic analysis illustrated that TLR orthologs are conserved across vertebrates. Similarly, a conserved synteny gene block arrangement was observed in the case of TLR1 and TLR19 across fish species. Interestingly, all tested TLRs showed their maximal relative expression from 6 to 10 weeks post-exposure to the parasite. Our results suggest that these TLRs may play an important role in the innate defense mechanism of brown trout against the invading T. bryosalmonae.

Published

2020

48. Observations on the histopathological changes caused by myxosporidian infections in minor carps.

Author

Madhavan, Remya, Bandyopadhyay, Probir, and Santosh, B.

Abstract

Myxozoan infections result in large scale histopathological features depending on various factors. Earlier studies on pathological changes caused by myxozoan infections in piscine hosts have been reported from different localities. This study is based on the histopathological features caused by the members of genera Myxobolus Bütschli, 1882 and Thelohanellus Kudo, 1933 in the gill and fin tissues of commercially significant minor carps, Labeo calbasu and Labeo gonius of the genus Labeo collected from the four different districts of the north-eastern Indian state of Tripura (latitude 22°51′-24°32′N and longitude 90°10′-92°21′E) spanning over a total geographical area of 10,491 km. [ABSTRACT FROM AUTHOR]

Published

2013

49. Kudoa hypoepicardialis and associated cardiac lesions in invasive red lionfish Pterois volitans in Grenada, West Indies.

Author

Woodyard ET, Bierman AE, Edwards JJ, Finney JC, Rosser TG, Griffin MJ, and Marancik DP

Subjects

Animals, Capsules, DNA, Ribosomal, Grenada, Introduced Species, Myxozoa genetics, Perciformes parasitology

Abstract

Invasive red lionfish Pterois volitans (Linnaeus, 1758) represent an ongoing ecological threat within temperate and tropical waters. Relatively little is known regarding the overall health of P. volitans and their potential for spreading pathogens in non-native regions. Lionfish collected from inshore reefs of Grenada, West Indies, in 2019 and 2021 were identified as P. volitans based on cytochrome c oxidase subunit 1 barcoding. Gross and microscopic examination of tissues revealed myxozoan plasmodia in the hearts of 24/76 (31.6%) lionfish by histopathology or wet mount cytology. Further histopathologic examination revealed severe granulomatous inflammation and myofiber necrosis associated with developing plasmodia and presporogonic life stages. Fresh myxospores were morphologically and molecularly consistent with Kudoa hypoepicardialis, being quadrate in apical view with 4 valves and 4 equal polar capsules. The spore body was 5.1-7.9 (mean: 6.0) µm long, 8.1-9.8 (8.7) µm wide, and 6.9-8.5 (7.7) µm thick. Polar capsules were 2.3-2.7 (2.5) µm long and 0.9-1.6 (1.3) µm wide. 18S small subunit rDNA sequences were 99.81-99.87% similar to sequence data from the original description of the species. Novel 28S large subunit rDNA and elongation factor 2 data, which did not match any previously reported species, were provided. This is the first account of a myxozoan parasite of P. volitans, a new host record and locality for K. hypoepicardialis, and one of few reports describing pathogen-associated lesions in invasive lionfish.

Published

2022

50. Mortality threshold for juvenile Chinook salmon Oncorhynchus tshawytscha in an epidemiological model of Ceratomyxa shasta.

Author

Ray, R. Adam, Rossignol, Philippe A., and Bartholomew, Jerri L.

Subjects

CHINOOK salmon, CERATOMYXA shasta, ANIMAL mortality, ONCORHYNCHUS

Abstract

The article focuses on a study which developed a model for ceratomyxosis-induced mortality in Oncorhynchus tshawytscha, along with the identification of the parameters that are relevant to the persistence of myxozoan parasite Ceratomyxa shasta in Klamath River, California. The study also experimentally quantified actinospore dose and the parasite-induced mortality from such dose. Study authors described the myxospore transmission, polychaete infection and actinosphere transmission among O. tshawytscha. They concluded that their findings are relevant to understanding the ecological implications of environmental and genetic differences in ceratomyxosis-induced mortality in O. tshawytscha.

Published

2010