Your search keyword '"Penaeidae parasitology"' showing total 50 results

1. Immunofluorescence detection of Ecytonucleospora hepatopenaei (EHP) in Penaeus vannamei.

Author

Cho S, Schaefer DA, Mai HN, Riggs MW, and Dhar AK

Subjects

Animals, Enterocytozoon isolation & purification, Enterocytozoon genetics, Microsporidiosis diagnosis, Microsporidiosis veterinary, Sensitivity and Specificity, Penaeidae microbiology, Penaeidae parasitology, Antibodies, Monoclonal immunology, Fluorescent Antibody Technique methods

Abstract

Hepatopancreatic microsporidiosis (HPM), caused by the microsporidium Ecytonucleospora hepatopenaei (EHP) leads to retarded growth and enhanced susceptibility to other diseases in shrimp resulting in a major loss for the shrimp industry worldwide. It is little understood how EHP infects its host and hijacks its cellular machinery to replicate and exert clinical manifestations in infected shrimp. Since the initial record of HPM, histopathology and polymerase chain reaction (PCR)-based assays were developed for the detection of EHP to prevent spread of the disease. Availability of an antibody-based detection method would complement these existing diagnostic tools and be useful in studying EHP pathogenesis. We describe here an immunofluorescence assay (IFA) for detecting EHP using monoclonal antibodies (mAbs) that were originally developed against Cryptosporidium parvum, a coccidian parasite that infects calves (Bos taurus), other agriculturally important animals, and humans. Forty-one mAbs were screened and two mAbs, 3E2 and 3A12, were found to detect EHP successfully. The utility of these mAbs in detecting EHP was further assessed by testing 36 experimentally challenged EHP-infected shrimp (Penaeus vannamei). EHP-detection data from infected shrimp were compared by Hematoxylin and Eosin (H&E) histology, real-time PCR, and immunofluorescence. The data show IFA using mAbs 3E2 and 3A12 could successfully detect EHP and that the sensitivity of detection is comparable to H&E histology and quantitative PCR. Availability of mAbs that can detect EHP is expected to be immensely beneficial in HPM diagnosis. Since the pathobiology of C. parvum has been so widely studied, these cross-reactive mAbs may also aid in gaining some insight into EHP pathogenesis and disease., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could appear to influence the work reported in this study., (Copyright © 2024 Elsevier B.V. All rights reserved.)

Published

2024

2. The Use of the Internal Transcribed Spacer Region for Phylogenetic Analysis of the Microsporidian Parasite Enterocytozoon hepatopenaei Infecting Whiteleg Shrimp ( Penaeus vannamei ) and for the Development of a Nested PCR as Its Diagnostic Tool.

Author

Lee JH, Jeon HJ, Seo S, Lee C, Kim B, Kwak DM, Rhee MH, Piamsomboon P, Nuraini YL, Je CU, Park SY, Kim JH, and Han JE

Subjects

Animals, DNA, Fungal genetics, DNA Primers genetics, Feces microbiology, Feces parasitology, Sequence Analysis, DNA, Thailand, Enterocytozoon genetics, Enterocytozoon isolation & purification, Enterocytozoon classification, Penaeidae microbiology, Penaeidae parasitology, Phylogeny, DNA, Ribosomal Spacer genetics, Polymerase Chain Reaction methods, Microsporidiosis microbiology, Microsporidiosis diagnosis

Abstract

The increasing economic losses associated with growth retardation caused by Enterocytozoon hepatopenaei (EHP), a microsporidian parasite infecting penaeid shrimp, require effective monitoring. The internal transcribed spacer (ITS)-1 region, the non-coding region of ribosomal clusters between 18S and 5.8S rRNA genes, is widely used in phylogenetic studies due to its high variability. In this study, the ITS-1 region sequence (~600-bp) of EHP was first identified, and primers for a polymerase chain reaction (PCR) assay targeting that sequence were designed. A newly developed nested-PCR method successfully detected the EHP in various shrimp ( Penaeus vannamei and P. monodon ) and related samples, including water and feces collected from Indonesia, Thailand, South Korea, India, and Malaysia. The primers did not cross-react with other hosts and pathogens, and this PCR assay is more sensitive than existing PCR detection methods targeting the small subunit ribosomal RNA (SSU rRNA) and spore wall protein (SWP) genes. Phylogenetic analysis based on the ITS-1 sequences indicated that the Indonesian strain was distinct (86.2% nucleotide sequence identity) from other strains collected from Thailand and South Korea, and also showed the internal diversity among Thailand ( N = 7, divided into four branches) and South Korean ( N = 5, divided into two branches) samples. The results revealed the ability of the ITS-1 region to determine the genetic diversity of EHP from different geographical origins.

Published

2024

3. Shrimp injection with dsRNA targeting the microsporidian EHP polar tube protein reduces internal and external parasite amplification.

Author

Yuanlae S, Prasartset T, Reamtong O, Munkongwongsiri N, Panphloi M, Preechakul T, Suebsing R, Thitamadee S, Prachumwat A, Itsathitphaisarn O, Taengchaiyaphum S, and Kasamechotchung C

Subjects

Animals, Polymerase Chain Reaction methods, Proteomics, RNA, Double-Stranded, Microsporidia, Parasites, Penaeidae parasitology, Enterocytozoon

Abstract

The microsporidian Enterocytozoon hepatopenaei (EHP) is a major threat to shrimp health worldwide. Severe EHP infections in shrimp cause growth retardation and increase susceptibility to opportunistic infections. EHP produces spores with a chitin wall that enables them to survive prolonged environmental exposure. Previous studies showed that polar tube extrusion is a prerequisite for EHP infection, such that inhibiting extrusion should prevent infection. Using a proteomic approach, polar tube protein 2 of EHP (EhPTP2) was found abundantly in protein extracts obtained from extruded spores. Using an immunofluorescent antibody against EhPTP2 for immunohistochemistry, extruded spores were found in the shrimp hepatopancreas (HP) and intestine, but not in the stomach. We hypothesized that presence of EhPTP2 might be required for successful EHP spore extrusion. To test this hypothesis, we injected EhPTP2-specific double-stranded RNA (dsRNA) and found that it significantly diminished EHP copy numbers in infected shrimp. This indicated reduced amplification of EHP-infected cells in the HP by spores released from previously infected cells. In addition, injection of the dsRNA into EHP-infected shrimp prior to their use in cohabitation with naïve shrimp significantly (p < 0.05) reduced the rate of EHP transmission to naïve shrimp. The results revealed that EhPTP2 plays a crucial role in the life cycle of EHP and that dsRNA targeting EHP mRNA can effectively reach the parasite developing in host cells. This approach is a model for future investigations to identify critical genes for EHP survival and spread as potential targets for preventative and therapeutic measures in shrimp., (© 2024. The Author(s).)

Published

2024

4. Molecular and cellular characterization of four putative nucleotide transporters from the shrimp microsporidian Enterocytozoon hepatopenaei (EHP).

Author

Thepmanee O, Munkongwongsiri N, Prachumwat A, Saksmerprome V, Jitrakorn S, Sritunyalucksana K, Vanichviriyakit R, Chanarat S, Jaroenlak P, and Itsathitphaisarn O

Subjects

Animals, Nucleotides, Phylogeny, Microsporidia, Enterocytozoon genetics, Penaeidae parasitology

Abstract

Microsporidia are obligate intracellular parasites that lost several enzymes required in energy production. The expansion of transporter families in these organisms enables them to hijack ATP from hosts. In this study, nucleotide transporters of the microsporidian Enterocytozoon hepatopenaei (EHP), which causes slow growth in economically valuable Penaeus shrimp, were characterized. Analysis of the EHP genome suggested the presence of four putative nucleotide transporter genes, namely EhNTT1, EhNTT2, EhNTT3, and EhNTT4. Sequence alignment revealed four charged amino acids that are conserved in previously characterized nucleotide transporters. Phylogenetic analysis suggested that EhNTT1, 3, and 4 were derived from one horizontal gene transfer event, which was independent from that of EhNTT2. Localization of EhNTT1 and EhNTT2 using immunofluorescence analysis revealed positive signals within the envelope of developing plasmodia and on mature spores. Knockdown of EhNTT2 by double administration of sequence specific double-stranded RNA resulted in a significant reduction in EHP copy numbers, suggesting that EhNTT2 is crucial for EHP replication in shrimp. Taken together, the insight into the roles of NTTs in microsporidian proliferation can provide the biological basis for the development of alternative control strategies for microsporidian infection in shrimp., (© 2023. The Author(s).)

Published

2023

5. Detection of a novel microsporidium with intranuclear localization in farmed Penaeus vannamei from Latin America.

Author

Dhar AK, Cruz-Flores R, Mai HN, Aranguren Caro LF, Intriago P, and Romero X

Subjects

Animals, Latin America, Phylogeny, RNA, Ribosomal, Microsporidia, Unclassified genetics, Penaeidae parasitology, Enterocytozoon genetics

Abstract

Microsporidia are emerging intracellular parasites of most known animal phyla in all ecological niches. In shrimp aquaculture, the microsporidium Enterocytozoon hepatopenaei (EHP) is a major cause of concern inflicting tremendous losses to shrimp producers in southeast Asia. During a histopathological examination of Penaeus vannamei samples originating in a country from Latin America presenting slow growth, we observed abnormal nuclei in the epithelial cells of the hepatopancreas. A PCR screening of the samples using DNA isolated from paraffin embedded tissues for the SSU rRNA gene of EHP provided a 149 bp amplicon. In situ hybridization using the SSU rRNA gene probe provided a positive signal in the nuclei instead of the cytoplasm. Sequence analysis of the SSU rRNA gene product revealed a 91.3 %, 89.2 % and 85.4 % sequence identity to Enterocytozoon bieneusi, E. hepatopenaei and Enterospora canceri respectively. Furthermore, phylogenetic analysis revealed the newly discovered microsporidium clustered with E. bieneusi. Considering the intranuclear location of the novel microsporidium and the differences in the sequence of the SSU rRNA, we tentatively consider this parasite a new member of the genus Enterospora sp. The pathogenicity and distribution of the shrimp Enterospora sp. are currently unknown. Our future efforts are focused on the characterization and development of diagnostic tools for this parasite to understand if it acts as an emergent pathogen that might require surveillance to prevent its spread., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 Elsevier Inc. All rights reserved.)

Published

2023

6. Detection of Enterocytozoon hepatopenaei (EHP) (microsporidia) in several species of potential macrofauna-carriers from shrimp (Penaeus vannamei) ponds in Malaysia.

Author

Wan Sajiri WMH, Kua BC, and Borkhanuddin MH

Subjects

Animals, Ponds, Malaysia, Phylogeny, Microsporidia, Penaeidae parasitology, Enterocytozoon genetics

Abstract

Infection by the microsporidian parasite Enterocytozoon hepatopenaei (EHP) has become a significant problem in the shrimp cultivation industry in Asian countries like Thailand, China, India, Vietnam, Indonesia, and Malaysia. The outbreak of this microsporidian parasite is predominantly related to the existence of macrofauna-carriers of EHP. However, information about potential macrofauna-carriers of EHP in rearing ponds is still limited. In this study, the screening of EHP in potential macrofauna-carriers was conducted in farming ponds of Penaeus vannamei in three states in Malaysia, namely Penang, Kedah, and Johor. A total of 82 macrofauna specimens (phyla: Arthropoda, Mollusca, and Chordata) were amplified through a polymerase chain reaction (PCR) assay targeting genes encoding spore wall proteins (SWP) of EHP. The PCR results showed an average prevalence of EHP (82.93%) from three phyla (Arthropoda, Mollusca and Chordata). The phylogenetic tree generated from the macrofauna sequences was revealed to be identical to the EHP-infected shrimp specimens from Malaysia (MW000458, MW000459, and MW000460), as well as those from India (KY674537), Thailand (MG015710), Vietnam (KY593132), and Indonesia (KY593133). These findings suggest that certain macrofauna species in shrimp ponds of P. vannamei are carriers of EHP spores and could be potential transmission vectors. This study provides preliminary information for the prevention of EHP infections that can be initiated at the pond stage by eradicating macrofauna species identified as potential vectors., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 Elsevier Inc. All rights reserved.)

Published

2023

7. Comparative transcriptome analysis of non-germinated and germinated spores of Enterocytozoon hepatopenaei (EHP) in vitro.

Author

Dou Y, Zhang L, Shen H, Zhang S, Cao X, Qiao Y, Jiang G, Cheng J, Wan X, Fan X, Li H, Wang L, Shi W, Qin Y, and Sun X

Subjects

Animals, Transcriptome, Gene Expression Profiling, Spores, Penaeidae parasitology, Enterocytozoon genetics

Abstract

Enterocytozoon hepatopenaei (EHP), an obligate intracellular parasite classified as microsporidia, is an emerging pathogen with a significant impact on the global shrimp aquaculture industry. The understanding of how microsporidia germinate has been a key factor in exploring its infection process. However, the germination process of EHP was rarely reported. To gain insight into the germination process, we conducted a high-throughput sequencing analysis of purified EHP spores that had undergone in vitro germination treatment. This analysis revealed 137 differentially expressed genes, with 84 up-regulated and 53 down-regulated genes. While the functions of some of the genes remain unknown, this study provides important data on the transcriptomic changes before and after EHP germination, which can aid in further studies on the EHP infection mechanism., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 Elsevier Inc. All rights reserved.)

Published

2023

8. Ontogenetic and spatial variability in parasite communities of white shrimp Penaeus setiferus (Decapoda: Penaeidae).

Author

Zuidema SR, de Buron I, Kingsley-Smith PR, Hill-Spanik KM, Fanani N, and Kendrick MR

Subjects

Animals, Larva, Penaeidae parasitology, Parasites, Oligohymenophorea, Cestoda

Abstract

Understanding the combined effects of multi-parasite infections on their hosts is necessary for documenting parasite impacts and is particularly important for developing effective management strategies for economically important organisms. The white shrimp Penaeus setiferus supports important recreational and commercial fisheries along the southeastern and Gulf coasts of the United States and occupies an important ecological niche in estuarine and offshore habitats throughout these regions. The goal of this study was to identify and assess ontogenetic and spatial variation in white shrimp parasite communities and their relation to shrimp health. We used a series of trawl surveys in tidal creek and open water habitats of an estuary in the southeastern USA to collect and identify parasites of white shrimp using morphological and DNA sequencing techniques. Parasite communities in white shrimp were composed of organisms belonging to 6 classes: Conoidasida (gregarines), Oligohymenophorea (apostome and sessilid ciliates), Microsporea (meiodihaplophasids), Chromadorea (rhabditids), Cestoda (cyclophyllideans, lecanocephalideans and trypanorhynchs) and Trematoda (plagiorchiids). Parasite communities differed significantly among white shrimp life stages and localities. Furthermore, the health condition known as black gill occurred in some shrimp and was significantly related to parasite community structure. Infection metrics for the apostome ciliate Hyalophysa lynni , the trypanorhynch larvae Prochristianella sp. and the rhabditid larvae Hysterothylacium sp. were significantly different between shrimp exhibiting and not exhibiting black gill. These results highlight the importance of understanding parasite communities and the potential interactive effects of multiple parasite infections on shrimp health.

Published

2023

9. First report of microsporidians in the non-native shrimp Neocaridina davidi from a temperate European stream.

Author

Schneider R, Prati S, Grabner D, and Sures B

Subjects

Animals, Polymerase Chain Reaction veterinary, Rivers, Decapoda, Enterocytozoon genetics, Microsporidia, Penaeidae parasitology

Abstract

The release of ornamental pets outside their native range can directly or indirectly impact the recipient community, e.g. via the co-introduction of associated pathogens. However, studies on parasites associated with non-native species, in particular freshwater decapods, have focused mainly on a limited set of pathogens. Here we provide data for the first time on microsporidian parasites of the non-native ornamental shrimp Neocaridina davidi, collected in a stream in Germany. Furthermore, we confirm an ongoing range expansion of the warm-adapted N. davidi from thermally polluted colder water. In the investigated shrimps, the microsporidian parasite Enterocytozoon hepatopenaei and an unknown microsporidian isolate were detected, raising concerns about their transmission potential and pathogenicity on native crustacean species.

Published

2022

10. Haplosporidium acetes n. sp. infecting the hepatopancreas of jelly prawns Acetes sibogae australis from Moreton Bay, Australia.

Author

Diggles BK, Bass D, Bateman KS, Chong R, Daumich C, Hawkins KA, Hazelgrove R, Kerr R, Moody NJG, Ross S, and Stentiford GD

Subjects

Animals, Australia, Hepatopancreas, Phylogeny, Haplosporida, Microsporidia, Penaeidae parasitology

Abstract

Wild Acetes sibogae australis from northern Moreton Bay, Australia displaying opacity of the hepatopancreas were sampled and examined histologically, revealing infection by multinucleate plasmodia of a haplosporidian-like parasite in the epithelial cells of the hepatopancreas. A morphological and phylogenetic investigation identified the parasite as a novel species of the order Haplosporida, and the parasite is described as Haplosporidium acetes n. sp. This is the first report of disease caused by a haplosporidian in wild Australian decapod crustaceans, and the first record of haplosporidiosis in sergestid shrimp. Infections of H. acetes were observed in all cell types (R, B, F and E) within the hepatopancreas. Infected epithelial cells became hypertrophied as they filled with haplosporidian parasites and, in heavy infections, caused almost complete displacement of normal hepatopancreas tissue. Although sporulation was not observed, infected jelly prawns appeared terminally diseased. Infections became grossly evident in around 5% of wild prawns during early autumn at a time of year when jelly prawn populations decline rapidly with decreasing water temperatures, however histopathology indicated at least 13% of apparently normal jelly prawns were also infected. Further studies are required in order to determine if this parasite influences jelly prawn population dynamics. In addition, we report co-infection of a novel microsporidian parasite in the Enterocytozoon Group Microsporidia (EGM) infecting nuclei of hepatopancreatic epithelial cells. The microsporidian was phylogenetically distinct from Enterocytozoon hepatopenaei (EHP) known to infect penaeid shrimp in Asia., (Copyright © 2022 Elsevier Inc. All rights reserved.)

Published

2022

11. Experimental reproduction of White Feces Syndrome in whiteleg shrimp, Penaeus vannamei.

Author

Aranguren Caro LF, Mai HN, Cruz-Florez R, Marcos FLA, Alenton RRR, and Dhar AK

Subjects

Animals, Aquaculture methods, Enterocytozoon pathogenicity, Feces microbiology, Gastrointestinal Tract, In Situ Hybridization, Models, Animal, Polymerase Chain Reaction, Prevalence, Seafood microbiology, Vibrio parahaemolyticus pathogenicity, Penaeidae microbiology, Penaeidae parasitology

Abstract

White Feces Syndrome (WFS) is an emergent disease of penaeid shrimp (Penaeus monodon and P. vannamei) that is identified by the presence of floating white fecal strings on pond water in grow-out ponds. Although the clinical manifestations of WFS are well defined, the underling etiology remains obscure. WFS has been associated with several enteric pathogens, including Enterocytozoon hepatopenaei (EHP). The association is based on studies that found areas where WFS has been reported, the prevalence and severity of EHP infection are high. In this study, we describe an experimental reproduction of WFS in P. vannamei pre-infected with EHP and challenged with a unique isolate of Vibrio parahaemolyticus isolated from the gastrointestinal tract of a shrimp displaying WFS. Upon laboratory challenge, shrimp displaying white fecal strings and white discoloration of the gastrointestinal tract were analyzed by histopathology, in-situ hybridization and quantitative PCR. Histological analysis confirmed the lesions of EHP and septic hepatopancreatic necrosis in the hepatopancreas of shrimp exposed to both pathogens. Quantitative PCR showed shrimp infected with both EHP and V. parahaemolyticus had a significantly higher load of EHP compared to shrimp infected with EHP alone. This is the first demonstration of experimental reproduction of WFS under laboratory conditions when animals are infected with EHP and V. parahaemolyticus concurrently. The data revealed a synergistic relation between EHP and V. parahaemolyticus isolate that led to the manifestation of WFS. We propose the gross signs of WFS can be used as an indicator of the presence of EHP infection in association with a particular strain of an enteric Vibrio spp. in countries where EHP is endemic., Competing Interests: The authors have declared that no competing interests exist.

Published

2021

12. The shrimp microsporidian Enterocytozoon hepatopenaei (EHP): Biology, pathology, diagnostics and control.

Author

Chaijarasphong T, Munkongwongsiri N, Stentiford GD, Aldama-Cano DJ, Thansa K, Flegel TW, Sritunyalucksana K, and Itsathitphaisarn O

Subjects

Animals, Aquaculture, Enterocytozoon physiology, Hepatopancreas parasitology, Life History Traits, Penaeidae parasitology

Abstract

Disease is a major limiting factor in the global production of cultivated shrimp. The microsporidian parasite Enterocytozoon hepatopenaei (EHP) was formally characterized in 2009 as a rare infection of the black tiger shrimp Penaeus monodon. It remained relatively unstudied until mid-2010, after which infection with EHP became increasingly common in the Pacific whiteleg shrimp Penaeus vannamei, by then the most common shrimp species farmed in Asia. EHP infects the hepatopancreas of its host, causing hepatopancreatic microsporidiosis (HPM), a condition that has been associated with slow growth of the host in aquaculture settings. Unlike other infectious disease agents that have caused economic losses in global shrimp aquaculture, EHP has proven more challenging because too little is still known about its environmental reservoirs and modes of transmission during the industrial shrimp production process. This review summarizes our current knowledge of the EHP life cycle and the molecular strategies that it employs as an obligate intracellular parasite. It also provides an analysis of available and new methodologies for diagnosis since most of the current literature on EHP focuses on that topic. We summarize current knowledge of EHP infection and transmission dynamics and currently recommended, practical control measures that are being applied to limit its negative impact on shrimp cultivation. We also point out the major gaps in knowledge that urgently need to be bridged in order to improve control measures., (Copyright © 2020. Published by Elsevier Inc.)

Published

2021

13. Transcriptome analysis of pacific white shrimp (Penaeus vannamei) intestines and hepatopancreas in response to Enterocytozoon hepatopenaei (EHP) infection.

Author

Yang LG, Wang Y, Wang Y, Fang WH, Feng GP, Ying N, Zhou JY, and Li XC

Subjects

Animals, Gene Expression Profiling, Hepatopancreas parasitology, High-Throughput Nucleotide Sequencing, Intestines parasitology, Penaeidae parasitology, Enterocytozoon physiology, Penaeidae genetics, Transcriptome

Abstract

Penaeus vannamei is the most economically important species of shrimp cultured worldwide. Enterocytozoon hepatopenaei (EHP) is an emerging pathogen that severely affects the growth and development of shrimps. In this study, the transcriptome differences between EHP-infected and uninfected shrimp were investigated through next-generation sequencing. The unigenes were assembled with the reads from all the four libraries. The differentially expressed genes (DEGs) of intestines and hepatopancreas were analyzed. There were 2,884 DEGs in the intestines and 2,096 DEGs in the hepatopancreas. The GO and KEGG enrichment analysis indicated that DEGs were significantly enriched in signaling pathways associated with nutritional energy metabolism and mobilizing autoimmunity. Moreover, the results suggested the downregulation of key genes in energy synthesis pathways contributed greatly to shrimp growth retardation; the upregulation of immune-related genes enhanced the resistance of shrimp against EHP infection. This study provided identified genes and pathways associated with EHP infection revealing the molecular mechanisms of growth retardation., (Copyright © 2021 Elsevier Inc. All rights reserved.)

Published

2021

14. The economics of shrimp disease.

Author

Asche F, Anderson JL, Botta R, Kumar G, Abrahamsen EB, Nguyen LT, and Valderrama D

Subjects

Animals, Penaeidae virology, Aquaculture economics, Penaeidae microbiology, Penaeidae parasitology

Abstract

Shrimp is not only one of the world's most valuable aquaculture species, but also a species that encounter high economic losses due to diseases. Diseases are sufficiently important to influence global supply and prices for longer periods. Profitability is the driving force behind shrimp farming and high profits associated with the absence of disease largely determines where shrimp production does take place; i.e. prevalence of disease leads to geographic relocation. In this paper, a basic economic model for the impact of the disease on a shrimp farm is provided and a Monte Carlo simulation is provided to illustrate the impact of disease on economic risk. Improved technologies, knowledge, and governance are important elements utilized in the mitigation of diseases in various shrimp producing countries. Economic aspects such as profitability in the absence and presence of diseases and cost of treatment determines the global production of shrimp along with shaping technologies and production systems., (Copyright © 2020. Published by Elsevier Inc.)

Published

2021

15. Association of the alga Cladogonium sp. with a multifactorial disease outbreak in dwarf shrimp (Neocaridina davidi).

Author

Bauer J, Jung-Schroers V, Teitge F, Adamek M, and Steinhagen D

Subjects

Animals, Disease Outbreaks, Penaeidae parasitology

Abstract

This study outlines a multifactorial disease outbreak in a population of the freshwater shrimp Neocaridina davidi, with the focus on a rarely described parasitic alga. Within this multifactorial disease outbreak, low but consistent mortality was observed. During microscopic examination, an infection of the shrimp with bacterial and fungal-like agents was diagnosed. Furthermore, the green alga Cladogonium sp. was found in pleopodal regions. The alga compromised the body surface of the shrimp, and its rhizoids penetrated the chitin shell and reached into the subcutaneous tissue. This might be a first indication of a parasitic lifestyle. In addition to a morphological description, sequencing data are presented which allow the taxonomic classification of the organism within the order Trentepohliales.

Published

2021

16. Abdominal pain secondary to neuroinvasive Angiostrongylus cantonensis; first European case. Some reflections on emerging parasitosis.

Author

Valerio Sallent L, Moreno Santabarbara P, and Roure Díez S

Subjects

Animals, Europe epidemiology, Female, Humans, Strongylida Infections epidemiology, Symptom Assessment, Young Adult, Abdominal Pain parasitology, Angiostrongylus cantonensis, Penaeidae parasitology, Strongylida Infections complications, Travel-Related Illness

Published

2021

17. Development of a PCR assay for the effective detection of Enterocytozoon hepatopenaei (EHP) and investigation of EHP prevalence in Shandong Province, China.

Author

Hou ZH, Yu JY, Wang JJ, Li T, Chang LR, Fang Y, and Yan DC

Subjects

Animals, Aquaculture, China, Sensitivity and Specificity, Enterocytozoon isolation & purification, Penaeidae parasitology, Polymerase Chain Reaction methods

Abstract

Enterocytozoon hepatopenaei (EHP), a recently reported pathogen in the penaeid shrimp, is spreading widely and seriously threatening Penaeus (Litopenaeus) vannamei aquaculture. This study aimed to develop a new and more sensitive polymerase chain reaction (PCR) method for the effective detection of EHP. An EHP PCR assay with a pair of primers specifically amplifying a 358 bp EHP DNA fragment was developed, which was demonstrated to be capable of detecting as low as 2 × 10 1 copies of EHP and is specific for EHP without cross reaction with DNA samples prepared from five common shrimp pathogens, including white spot syndrome virus (WSSV), infectious hypodermal and haematopoietic virus (IHHNV), hepatopancreatic parvovirus (HPV), infectious myonecrosis virus (IMNV), and yellow head virus (YHV). This new assay is more specific and more sensitive than the previously published EHP PCR methods. With the PCR assay developed in this study, we investigated the prevalence of EHP in four areas of Shandong, China by testing a total of 639 shrimp samples collected from Yantai, Binzhou, Dongying, and Weifang. The results showed that the EHP positive rate reached 51.2%, indicating that EHP is prevalent in shrimp culture in China., (Copyright © 2021 Elsevier Inc. All rights reserved.)

Published

2021

18. Single nucleotide polymorphism associated with disease resistance in Penaeus vannamei.

Author

Mangabeira-Silva IS, Soares PET, and Lanza DCF

Subjects

Animals, Arthropod Proteins metabolism, Penaeidae microbiology, Penaeidae parasitology, Penaeidae virology, Arthropod Proteins genetics, Penaeidae genetics, Polymorphism, Single Nucleotide

Abstract

Despite the considerable number of genetic markers published for Penaeus vannamei, the classification of these markers and their standardization in specific databases is still insufficient. As a consequence, access to these markers is difficult, hampering their application in genetic association studies. In this study, all previously described single nucleotide polymorphisms (SNPs) related to resistance for P. vannamei were revised, and 512 SNPs were identified and classified in detail. We observed that most of the SNPs occurred in the proteins including Toll like receptors 1 and 3, hemocyanin large and small subunits, and anti-lipopolysaccharide factors 1 and 2, allowing to propose to use them as targets in association studies involving resistance in P. vannamei. Additionally, the potential effects of the most frequent non-synonymous coding SNPs in the secondary structure of the main target proteins were evaluated using an in silico approach. These data can serve as the starting point for the development of new genetic and computational tools as well as for the design of new association studies that involve resistance in P. vannamei., (Copyright © 2020 Elsevier Inc. All rights reserved.)

Published

2020

19. Development of a cost-efficient micro-detection slide system for the detection of multiple shrimp pathogens.

Author

Cao Z, Dong X, Zou PZ, Wan XY, Li C, and Huang J

Subjects

Animals, Nucleic Acid Amplification Techniques veterinary, Nucleic Acids analysis, Animal Diseases diagnosis, Animal Diseases microbiology, Animal Diseases parasitology, Animal Diseases virology, Nucleic Acid Amplification Techniques methods, Penaeidae microbiology, Penaeidae parasitology, Penaeidae virology

Abstract

In view of the current demand for rapid detection and identification of pathogens, point-of-care testing (POCT) with fast portability, low consumption, and increased sensitivity and specificity has become more and more popular. The emerging nucleic acid isothermal amplification technology (NAIAT) has shown potential advantages in the development of rapid microbial detection. In this study, a micro-detection slide system was developed based on the NAIAT of various nucleic acids of shrimp pathogens. The system included a micro-detection slide with 48 identical detecting cells precoated with all detection reagents, except the sample template. The process of producing the micro-detection slides mainly combined super-hydrophobic/super-oleophobic and super-hydrophilic materials to obtain separated spaces for detection, and aerosol pollution was eliminated in the form of water-in-oil. The micro-detection slide system was capable of simultaneously detecting 4 groups of samples and 8 important shrimp pathogens and is a relatively low-cost, portable, and high-throughput nucleic acid (RNA and DNA) detection technology. The establishment of this technology will provide key technical support for the construction of biosecurity systems for healthy shrimp culture., Competing Interests: Declaration of competing interest The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2020 Elsevier Inc. All rights reserved.)

Published

2020

20. Hyalophysa lynni n. sp. (Ciliophora, Apostomatida), a new pathogenic ciliate and causative agent of shrimp black gill in penaeid shrimp.

Author

Landers SC, Lee RF, Walters TL, Walker AN, Powell SA, Patel MK, and Frischer ME

Subjects

Animals, Gills parasitology, Host Specificity, Life Cycle Stages, Oligohymenophorea cytology, Oligohymenophorea genetics, RNA, Ribosomal, 18S genetics, Species Specificity, Oligohymenophorea classification, Penaeidae parasitology

Abstract

The parasitic ciliate causing shrimp black gill (sBG) infections in penaeid shrimp has been identified. The sBG ciliate has a unique life cycle that includes an encysted divisional stage on the host's gills. The ciliature of the encysted trophont stage has been determined and is quite similar to that of the closely related apostomes Hyalophysa bradburyae and H. chattoni. Hyalophysa bradburyae is a commensal ciliate associated with freshwater caridean shrimp and crayfish, while H. chattoni is a common commensal found on North American marine decapods. Based on 18S rRNA gene sequence comparisons, the sBG ciliate is more closely related to the marine species H. chattoni than to the freshwater species H. bradburyae. The unique life cycle, morphology, 18S rRNA gene sequence, hosts, location, and pathology of the sBG ciliate distinguish this organism as a new species, Hyalophysa lynni n. sp., (Copyright © 2020 Elsevier GmbH. All rights reserved.)

Published

2020

21. A comparative study of Enterocytozoon hepatopenaei (EHP) challenge methods in Penaeus vannamei.

Author

Mai HN, Cruz-Flores R, Aranguren Caro LF, White BN, and Dhar AK

Subjects

Administration, Oral, Animals, Aquaculture, Injections, Intramuscular, Enterocytozoon physiology, Host-Parasite Interactions, Parasitology methods, Penaeidae parasitology

Abstract

The microsporidium Enterocytozoon hepatopenaei (EHP) is considered as an emerging pathogen threating the shrimp industry worldwide. It is an intracellular parasite that has been associated with retarded growth syndrome and white feces syndrome in shrimp. Although the impact of EHP to the shrimp industry is well known, many aspects of host-pathogen interactions are not well understood. A major limitation in the study of EHP is the lack of a reliable method to produce large quantities of inoculum rapidly and reproducibly. The present study was designed to compare different challenge methods including intramuscular injection, oral administration, co-habitation, hepatopancreas (HP) injection and reverse gavage. The results showed that the HP injection and the reverse gavage are two promising methods to infect shrimp rapidly and generate inoculum in a reproducible manner starting with a limited amount of inoculum. Therefore, the HP injection and reverse gavage were chosen for a scale-up study. Histopathology results showed that EHP proliferated in the epithelial cells of the HP in shrimp challenged via direct injection of inoculum into HP and reverse gavage treatments. In accordance with the histopathology results, the qPCR data showed that EHP loads in the challenged shrimp increased significantly with the HP injection and reverse gavage methods. Furthermore, the histopathological and quantification results indicate that HP injection and reverse gavage are two novel methods that can be used in EHP-challenge studies and for rapidly generating viable EHP inoculum., (Copyright © 2020 Elsevier Inc. All rights reserved.)

Published

2020

22. MicroRNA and mRNA interactions coordinate the immune response in non-lethal heat stressed Litopenaeus vannamei against AHPND-causing Vibrio parahaemolyticus.

Author

Boonchuen P, Maralit BA, Jaree P, Tassanakajon A, and Somboonwiwat K

Subjects

Animals, Disease Resistance, Gene Expression Regulation, Gene Regulatory Networks, Heat-Shock Response, Immunity, Innate, Penaeidae genetics, Penaeidae immunology, Sequence Analysis, RNA veterinary, Gene Expression Profiling veterinary, MicroRNAs genetics, Penaeidae parasitology, RNA, Messenger genetics, Vibrio parahaemolyticus immunology

Abstract

While Vibrio parahaemolyticus (VP AHPND ) has been identified as the cause of early mortality syndrome (EMS) or acute hepatopancreatic necrosis disease (AHPND) in shrimp, mechanisms of host response remain unknown. Understanding these processes is important to improve farming practices because this understanding will help to develop methods to enhance shrimp immunity. Pre-treatment of shrimp with 5-minute chronic non-lethal heat stress (NLHS) for 7 days was found to significantly increase Litopenaeus vannamei survival against VP AHPND infection. To elucidate the mechanism involved, mRNA and miRNA expression profiles from the hemocyte of L. vannamei challenged with VP AHPND after NLHS with corresponding control conditions were determined by RNA-Seq. A total of 2,664 mRNAs and 41 miRNAs were differentially expressed after the NLHS treatment and VP AHPND challenge. A miRNA-mRNA regulatory network of differentially expressed miRNAs (DEMs) and differentially expressed genes (DEGs) was subsequently constructed and the interactions of DEMs in regulating the NLHS-induced immune-related pathways were identified. Transcriptomic data revealed that miRNA and mRNA interactions contribute to the modulation of NLHS-induced immune responses, such as the prophenoloxidase-activating system, hemocyte homeostasis, and antimicrobial peptide production, and these responses enhance VP AHPND resistance in L. vannamei.

Published

2020

23. A simple filter paper-based method for transporting and storing Enterocytozoon hepatopenaei DNA from infected Litopenaeus vannamei tissues.

Author

Karthikeyan K, Saranya R, Bharath R, Vidya R, Itami T, and Sudhakaran R

Subjects

Animals, Aquaculture, Enterocytozoon genetics, Specimen Handling instrumentation, DNA, Protozoan analysis, Enterocytozoon isolation & purification, Penaeidae parasitology, Specimen Handling methods

Abstract

The microsporidian parasite Enterocytozoon hepatopenaei (EHP) causes a significant negative impact in shrimp aquaculture. A diagnostic procedure for detecting EHP in shrimp was developed, but transportation of the infected shrimp samples from the farm / hatcheries to the laboratory is burdensome and preservation of the tissues is problematic. Here, we developed a simple method of transporting nucleic acid without preservatives using the Flinders Technology Associates filter card (FTA matrix card; Whatman). DNA can be stored and extracted without the need for centrifugation and hazardous chemicals. EHP infected shrimp homogenate was spotted on a FTA matrix card and stored at room temperature. Storage stability was confirmed by analysis at different time points and we efficiently recovered DNA up to 6 months post spotting. The recovery efficiency of FTA-DNA was compared with the existing DNA extraction methods DNeasy® Blood & Tissue kit method and Guanidine hydrochloride method. The efficiency of extraction and sensitivity of the DNA in the FTA card confirmed that recovery of EHP-DNA from the FTA matrix was superior to with other methods., (Copyright © 2019 Elsevier Inc. All rights reserved.)

Published

2020

24. Distribution of the parasitic isopod Tachaea chinensis in China.

Author

Xu W, Han Z, Xing Y, Li X, Zhao Y, Chen Q, and Li Y

Subjects

Animals, China epidemiology, Crustacea, Palaemonidae genetics, Palaemonidae parasitology, Penaeidae genetics, Phylogeny, RNA, Ribosomal, 16S genetics, Demography methods, Isopoda genetics, Penaeidae parasitology

Abstract

Tachaea chinensis Thielemann, 1910 (Isopoda: Corallanidae) is a branchial ectoparasite that attaches onto shrimps and prawns. However, the distribution of T. chinensis in China, especially its epidemiology, remains unclear. We determined the prevalence of T. chinensis on the ridgetail white prawn (Exopalaemon carinicauda Holthuis, 1950) in Jiangsu Province. Fifty ponds in 10 shrimp farms were assessed. Isopod species were identified by morphological features and mitochondrial 16S rRNA gene analysis. A literature review was performed to determine the geographical distribution of T. chinensis in China. Published data revealed that T. chinensis was geographically distributed throughout five provinces in China, including Liaoning, Tianjin, Henan, Hubei, and Guangxi. A total of 998 T. chinensis were collected from 50 ridgetail white prawn ponds in Yancheng City and Rudong County. Tachaea chinensis prevalence ranged from 0.98% to 4.42% in Yancheng City and 0.62% to 0.92% in Rudong County. This is the first study to investigate the geographical distribution of T. chinensis in China and determine the prevalence of T. chinensis on the ridgetail white prawn in Jiangsu Province. Overall, we provide available data that fill gaps in the epidemiology of T. chinensis.

Published

2019

25. A Vibrio owensii strain as the causative agent of AHPND in cultured shrimp, Litopenaeus vannamei.

Author

Liu L, Xiao J, Zhang M, Zhu W, Xia X, Dai X, Pan Y, Yan S, and Wang Y

Subjects

Animals, Genes, Bacterial genetics, RNA, Ribosomal, 16S analysis, Bacterial Toxins genetics, Penaeidae parasitology, Seafood parasitology, Vibrio genetics

Abstract

The causative agent of shrimp AHPND was identified as specific Vibrio parahaemolyticus strains, which harbor a virulent plasmid that contains the toxic genes pirA and B (pirAB). Herein, a Vibrio bacterium was isolated from shrimp in Shanghai. This bacterium was identified as Vibrio owensii using 16S rRNA gene phylogeny, whole genome sequencing and comparative analysis. The V. owensii cells are rod-shape (1.86 ± 0.15 µm) with a single polar flagellum (4 µm). In addition, V. owensii form mauve colonies with jagged edges on CHROMagar plates. The pirAB genes on the plasmid revealed 100% sequence similarity to that of AHPND V. parahaemolyticus, and the encoded proteins were detected in the culture media. Subculture of V. owensii showed that the pirAB genes are unstable, and their loss rate is approximately 22% and reaches a dynamic equilibrium after the fifth generation. Upon immersion bioassay, the cumulative mortality of V. owensii (pirAB + )-infected shrimp was up to 100% within 4 days, and typical AHPND clinical signs were observed. Approximately 10 5  CFU/hepatopancreas of V. owensii cells were observed in the pirAB + -infected shrimp based on both culture-dependent and -independent assay. Our results indicate that the expression of pirAB in the V. owensii strain is responsible for AHPND., (Copyright © 2018 Elsevier Inc. All rights reserved.)

Published

2018

26. Quantitative detection method of Enterocytozoon hepatopenaei using TaqMan probe real-time PCR.

Author

Liu YM, Qiu L, Sheng AZ, Wan XY, Cheng DY, and Huang J

Subjects

Animals, DNA, Ribosomal analysis, DNA, Fungal analysis, Enterocytozoon, Penaeidae parasitology, Real-Time Polymerase Chain Reaction methods

Abstract

A TaqMan probe and a pair of specific primers were selected from the small subunit ribosomal DNA (SSU rDNA) sequence of Enterocytozoon hepatopenaei (EHP); this real-time PCR assay was developed and optimized. It showed a good linearity in detecting standards of EHP SSU rDNA fragments from 4 × 10 2 to 4 × 10 8 copies/reaction using the established method. The detection limit of the qPCR method was as low as 4 × 10 1 copies per reaction, which was higher than the conventional PCR and SYBR Green I-based EHP qPCR reported. Using the qPCR assay, EHP was detected in four batches of slow-growing Penaeus vannamei specimens collected from Tianjin and Zhejiang Province in China was detected using qPCR. The results showed that all the hepatopancreas from the slow-growing P. vannamei specimens were detected as EHP-positive. EHP copies of hepatopancreas in some batches had a negative correlation with the body mass index (BMI) of shrimps; however, not all batches of specimens had this negative correlation between EHP copies of hepatopancreas and BMI. This qPCR technique is sensitive, specific and easy to perform (96 tests in <3 h), which provides technical support for the detection and prevention of EHP., (Copyright © 2017 Elsevier Inc. All rights reserved.)

Published

2018

27. Decay of the glycolytic pathway and adaptation to intranuclear parasitism within Enterocytozoonidae microsporidia.

Author

Wiredu Boakye D, Jaroenlak P, Prachumwat A, Williams TA, Bateman KS, Itsathitphaisarn O, Sritunyalucksana K, Paszkiewicz KH, Moore KA, Stentiford GD, and Williams BAP

Subjects

Animals, Base Sequence, Biological Evolution, Enterocytozoon genetics, Enterocytozoon pathogenicity, Humans, Microsporidiosis parasitology, Phylogeny, Sequence Analysis, DNA, Enterocytozoon metabolism, Genome, Protozoan genetics, Glycolysis genetics, Hexokinase genetics, Host-Parasite Interactions physiology, Oxidative Phosphorylation, Penaeidae parasitology

Abstract

Glycolysis and oxidative phosphorylation are the fundamental pathways of ATP generation in eukaryotes. Yet in microsporidia, endoparasitic fungi living at the limits of cellular streamlining, oxidative phosphorylation has been lost: energy is obtained directly from the host or, during the dispersive spore stage, via glycolysis. It was therefore surprising when the first sequenced genome from the Enterocytozoonidae - a major family of human and animal-infecting microsporidians - appeared to have lost genes for glycolysis. Here, we sequence and analyse genomes from additional members of this family, shedding new light on their unusual biology. Our survey includes the genome of Enterocytozoon hepatopenaei, a major aquacultural parasite currently causing substantial economic losses in shrimp farming, and Enterospora canceri, a pathogen that lives exclusively inside epithelial cell nuclei of its crab host. Our analysis of gene content across the clade suggests that Ent. canceri's adaptation to intranuclear life is underpinned by the expansion of transporter families. We demonstrate that this entire lineage of pathogens has lost glycolysis and, uniquely amongst eukaryotes, lacks any obvious intrinsic means of generating energy. Our study provides an important resource for the investigation of host-pathogen interactions and reductive evolution in one of the most medically and economically important microsporidian lineages., (© 2017 Society for Applied Microbiology and John Wiley & Sons Ltd.)

Published

2017

28. Laboratory cohabitation challenge model for shrimp hepatopancreatic microsporidiosis (HPM) caused by Enterocytozoon hepatopenaei (EHP).

Author

Salachan PV, Jaroenlak P, Thitamadee S, Itsathitphaisarn O, and Sritunyalucksana K

Subjects

Animals, Host-Parasite Interactions, Polymerase Chain Reaction, Enterocytozoon physiology, Hepatopancreas parasitology, Penaeidae parasitology

Abstract

Background: Enterocytozoon hepatopenaei (EHP) causes hepatopancreatic microsporidiosis (HPM) in shrimp. It is probably endemic in Australasia and was first characterized and named from the giant or black tiger shrimp Penaeus monodon from Thailand in 2009. Later, it was also found to infect exotic Penaeus vannamei imported for cultivation in Asia. HPM is not normally associated with shrimp mortality, but information from shrimp farmers indicates that it is associated with significant growth retardation that is not clearly noticeable until 2-3 months of cultivation. In order to study modes of HPM transmission and to test possible control measures, a laboratory challenge model was needed that would mimic the mode of infection in shrimp ponds., Results: We describe successful transmission in a cohabitation model with natural E. hepatopenaei (EHP)-infected shrimp in closed, perforated plastic containers placed in aquaria together with free-swimming, uninfected shrimp. After a period of 14 days all the free-swimming shrimp tested positive by PCR (approximately 60% with heavy infections evident by 1-step PCR positive test results) and gave positive histological and in situ hybridization results for E. hepatopenaei (EHP) in the hepatopancreas., Conclusions: A laboratory cohabitation model for studying E. hepatopenaei (EHP) has been developed and used to confirm that E. hepatopenaei (EHP) can be directly transmitted horizontally among shrimp via water. The model will facilitate studies on methods to prevent the E. hepatopenaei (EHP) transmission.

Published

2017

29. Dense populations of the microsporidian Enterocytozoon hepatopenaei (EHP) in feces of Penaeus vannamei exhibiting white feces syndrome and pathways of their transmission to healthy shrimp.

Author

Tang KFJ, Han JE, Aranguren LF, White-Noble B, Schmidt MM, Piamsomboon P, Risdiana E, and Hanggono B

Subjects

Animals, Aquaculture, Enterocytozoon, Feces microbiology, Polymerase Chain Reaction, Penaeidae parasitology, Shellfish parasitology

Abstract

White feces syndrome (WFS) is an emerging problem for penaeid shrimp farming industries in SE Asia countries, Thailand, Malaysia, Vietnam, Indonesia, China, and in India. This occurrence of this syndrome is usually first evidenced by the appearance of white fecal strings floating on surface of the shrimp ponds. The gross signs of affected shrimp include the appearance of a whitish hindgut and loose carapace, and it is associated with reduced feeding and growth retardation. To investigate the nature of the white feces syndrome, samples of white feces and shrimp hepatopancreas tissue were collected from Penaeus vannamei in affected farms in Indonesia, and these were examined histologically. Within the white feces, we found densely packed spores of the microsporidian Enterocytozoon hepatopenaei (abbreviated as EHP) and relatively fewer numbers of rod-shaped bacteria. From WFS ponds, hepatopancreas samples form 30 individual shrimp were analyzed by histology and in situ hybridization. The results showed that all of the shrimp examined were infected with EHP accompanied by septic hepatopancreatic necrosis (SHPN). Midgut epithelial cells were also infected and this increased the number of tissue types being affected by EHP. By PCR, EHP was detected in all the samples analyzed from WFS-affected ponds, but not in those sampled from healthy shrimp ponds. To determine the modes of transmission for this parasite, we performed feeding and cohabitation bioassays, the results showed that EHP can be transmitted through per os feeding of EHP-infected hepatopancreas tissue to healthy shrimp and through cohabitation ofinfected and healthy shrimp. In addition, we found the use of Fumagillin-B, an antimicrobial agent, was ineffective in either reducing or eliminating EHP in infected shrimp., (Copyright © 2016 Elsevier Inc. All rights reserved.)

Published

2016

30. Detection of a new microsporidium Perezia sp. in shrimps Penaeus monodon and P. indicus by histopathology, in situ hybridization and PCR.

Author

Han JE, Tang KF, Pantoja CR, Lightner DV, Redman RM, and Le Groumellec M

Subjects

Animals, Host-Parasite Interactions, In Situ Hybridization, Microsporidia genetics, Microsporidia isolation & purification, Polymerase Chain Reaction methods, Microsporidia physiology, Penaeidae parasitology

Abstract

Samples of microsporidia-infected shrimps exhibiting clinical signs of cotton shrimp disease were collected from Madagascar, Mozambique, and the Kingdom of Saudi Arabia from 2005 to 2014. The tails of the infected shrimps appeared opaque and whitish; subsequent histological examination revealed the presence of cytoplasmic inclusions and mature spores in tissues of the muscle, hepatopancreas, gills, heart, and lymphoid organ. PCR analysis targeting the small subunit rDNA (SSU rDNA) from infected samples resulted in the amplification of a 1.2 kbp SSU rDNA sequence fragment 94% identical to the corresponding region in the genome of the microsporidian Perezia nelsoni, which infects populations of Penaeus setiferus in the USA. Its SSU rDNA sequence was 100% identical among isolates from Madagascar and Saudi Arabia, indicating that shrimps from the Red Sea and Indian Ocean were infected with the same microsporidium, the novel Perezia sp. A 443 bp fragment of the SSU rDNA sequence was cloned, labeled with digoxigenin and subjected to an in situ hybridization assay with tissue sections of Perezia sp.-infected Penaeus monodon from Madagascar and Mozambique, and P. indicus from Saudi Arabia. The probe hybridized to the mature spores in the hepatopancreas and muscle from which the spores had been obtained for DNA isolation. This assay was specific, showing no reaction to another microsporidium, Enterocytozoon hepatopenaei (EHP), infecting the hepatopancreas of shrimp P. stylirostris cultured in SE Asian countries. We also developed an SSU rDNA-based PCR assay, specific for the novel Perezia sp. This PCR did not react to EHP, nor to genomic DNA of shrimp and other invertebrates.

Published

2016

31. Development of in situ hybridization and PCR assays for the detection of Enterocytozoon hepatopenaei (EHP), a microsporidian parasite infecting penaeid shrimp.

Author

Tang KF, Pantoja CR, Redman RM, Han JE, Tran LH, and Lightner DV

Subjects

Animals, Genes, Fungal, Enterocytozoon isolation & purification, In Situ Hybridization methods, Penaeidae parasitology, Polymerase Chain Reaction methods

Abstract

A microsporidian parasite, Enterocytozoon hepatopenaei (abbreviated as EHP), is an emerging pathogen for penaeid shrimp. EHP has been found in several shrimp farming countries in Asia including Vietnam, Thailand, Malaysia, Indonesia and China, and is reported to be associated with growth retardation in farmed shrimp. We examined the histological features from infected shrimp collected from Vietnam and Brunei, these include the presence of basophilic inclusions in the hepatopancreas tubule epithelial cells, in which EHP is found at various developmental stages, ranging from plasmodia to mature spores. By a PCR targeting the 18S rRNA gene, a 1.1kb 18S rRNA gene fragment of EHP was amplified, and this sequence showed a 100% identity to EHP found in Thailand and China. This fragment was cloned and labeled with digoxigenin-11-dUTP, and in situ hybridized to tissue sections of infected Penaeus vannamei (from Vietnam) and P. stylirostris (Brunei). The results of in situ hybridization were specific, the probe only reacted to the EHP within the cytoplasmic inclusions, not to a Pleistophora-like microsporidium that is associated with cotton shrimp disease. Subsequently, we developed a PCR assay from this 18S rRNA gene region, this PCR is shown to be specific to EHP, did not react to 2 other parasitic pathogens, an amoeba and the cotton shrimp disease microsporidium, nor to genomic DNA of various crustaceans including polychaetes, squids, crabs and krill. EHP was detected, through PCR, in hepatopancreatic tissue, feces and water sampled from infected shrimp tanks, and in some samples of Artemia biomass., (Copyright © 2015 Elsevier Inc. All rights reserved.)

Published

2015

32. Review of Dscam-mediated immunity in shrimp and other arthropods.

Author

Ng TH, Chiang YA, Yeh YC, and Wang HC

Subjects

Animals, Bacteria immunology, Host-Pathogen Interactions immunology, Humans, Immunity, Innate, Immunologic Memory, Penaeidae microbiology, Penaeidae parasitology, Protein Isoforms physiology, White spot syndrome virus 1 immunology, Arthropod Proteins physiology, Cell Adhesion Molecules physiology, Penaeidae immunology

Abstract

Although true adaptive immunity is only found in vertebrates, there is increasing evidence that shrimp and other arthropods exhibit immune specificity and immune memory. The invertebrate immune response is now called "innate immunity with specificity" or "immune priming", and its underlying mechanisms are still unclear. However, while vertebrate antibodies have no invertebrate homolog, the Down syndrome cell adhesion molecule (Dscam), which is a hypervariable protein created by alternative splicing, can function as a pathogen-specific recognizing molecule in arthropods. Here we review our current understanding of the Dscam-mediated immune responses in arthropods, especially in shrimp, and show that Dscam may be involved in both general innate immunity and the pathogen-specific immune response., (Copyright © 2014 Elsevier Ltd. All rights reserved.)

Published

2014

33. Histopathological survey of potential biomarkers for the assessment of contaminant related biological effects in species of fish and shellfish collected from Kuwait Bay, Arabian Gulf.

Author

Stentiford GD, Massoud MS, Al-Mudhhi S, Al-Sarawi MA, Al-Enezi M, and Lyons BP

Subjects

Animals, Bays, Biomarkers analysis, Data Collection, Female, Flounder metabolism, Hepatopancreas drug effects, Hepatopancreas pathology, Male, Penaeidae parasitology, Biomarkers metabolism, Environmental Monitoring, Flatfishes metabolism, Liver drug effects, Liver pathology, Penaeidae drug effects, Penaeidae metabolism, Water Pollutants, Chemical metabolism, Water Pollutants, Chemical toxicity

Abstract

The marine environment in Kuwait is dominated by Kuwait Bay, a shallow, depositional habitat vital for the breeding and propagation of marine organisms. The bay receives effluent inputs from industrial centres, ports, sewage outflows along with discharges from power and desalination plants. The major classes of pollutant discharged into the bay include petroleum hydrocarbons, metals, nutrients, cooling water and hyper-saline water. Further, the bay has been historically impacted by a deliberate release of oil and contamination with ordnance and shipwrecks during the 1991 Gulf war. With an aim to establish an integrated pollution effects monitoring programme in Kuwait, this paper describes the application of a quality assured approach to conduct a histopathology baseline survey in oriental sole (Synaptura orientalis) and the large-toothed flounder (Pseudorhombus arsius), which are two potential sentinel flatfish species present in the Arabian Gulf. Liver and gonadal histopathology revealed a range of pathologies similar to those previously observed in European and American pollution effects surveys that utilise flatfish (including pathology markers indicative of possible carcinogenesis and endocrine disruption). Further, we extended these studies to invertebrates (Jinga prawn, Metapenaeus affinis and the grooved tiger prawn, Penaeus semisulcatus) found within the Arabian Gulf. Such baseline data is essential before attempts are made to develop integrated monitoring programmes that aim to assess the health of fish and shellfish in relation to chemical contamination., (Crown Copyright © 2014. Published by Elsevier Ltd. All rights reserved.)

Published

2014

34. White feces syndrome of shrimp arises from transformation, sloughing and aggregation of hepatopancreatic microvilli into vermiform bodies superficially resembling gregarines.

Author

Sriurairatana S, Boonyawiwat V, Gangnonngiw W, Laosutthipong C, Hiranchan J, and Flegel TW

Subjects

Animals, Digestive System parasitology, Digestive System ultrastructure, Epithelial Cells parasitology, Epithelial Cells pathology, Epithelial Cells ultrastructure, Hepatopancreas parasitology, Hepatopancreas ultrastructure, Microscopy, Electron, Microscopy, Electron, Transmission, Microvilli parasitology, Protozoan Infections parasitology, Syndrome, Apicomplexa physiology, Digestive System pathology, Feces parasitology, Hepatopancreas pathology, Microvilli pathology, Penaeidae parasitology

Abstract

Accompanying acute hepatopancreatic necrosis disease (AHPND) in cultivated Asian shrimp has been an increasing prevalence of vermiform, gregarine-like bodies within the shrimp hepatopancreas (HP) and midgut. In high quantity they result in white fecal strings and a phenomenon called white feces syndrome (WFS). Light microscopy (LM) of squash mounts and stained smears from fresh HP tissue revealed that the vermiform bodies are almost transparent with widths and diameters proportional to the HP tubule lumens in which they occur. Despite vermiform appearance, they show no cellular structure. At high magnification (LM with 40-100x objectives), they appear to consist of a thin, outer membrane enclosing a complex of thicker, inter-folded membranes. Transmission electron microscopy (TEM) revealed that the outer non-laminar membrane of the vermiform bodies bore no resemblance to a plasma membrane or to the outer layer of any known gregarine, other protozoan or metazoan. Sub-cellular organelles such as mitochondria, nuclei, endoplasmic reticulum and ribosomes were absent. The internal membranes had a tubular sub-structure and occasionally enclosed whole B-cells, sloughed from the HP tubule epithelium. These internal membranes were shown to arise from transformed microvilli that peeled away from HP tubule epithelial cells and then aggregated in the tubule lumen. Stripped of microvilli, the originating cells underwent lysis. By contrast, B-cells remained intact or were sloughed independently and whole from the tubule epithelium. When sometimes engulfed by the aggregated, transformed microvilli (ATM) they could be misinterpreted as cyst-like structures by light microscopy, contributing to gregarine-like appearance. The cause of ATM is currently unknown, but formation by loss of microvilli and subsequent cell lysis indicate that their formation is a pathological process. If sufficiently severe, they may retard shrimp growth and may predispose shrimp to opportunistic pathogens. Thus, the cause of ATM and their relationship (if any) to AHPND should be determined.

Published

2014

35. The endemic copepod Calanus pacificus californicus as a potential vector of white spot syndrome virus.

Author

Mendoza-Cano F, Sánchez-Paz A, Terán-Díaz B, Galván-Alvarez D, Encinas-García T, Enríquez-Espinoza T, and Hernández-López J

Subjects

Animals, Disease Vectors, Copepoda virology, Penaeidae parasitology, Penaeidae virology, White spot syndrome virus 1 isolation & purification

Abstract

The susceptibility of the endemic copepod Calanus pacificus californicus to white spot syndrome virus (WSSV) was established by the temporal analysis of WSSV VP28 transcripts by quantitative real-time PCR (qRT-PCR). The copepods were collected from a shrimp pond located in Bahia de Kino Sonora, Mexico, and challenged per os with WSSV by a virus-phytoplankton adhesion route. Samples were collected at 0, 24, 48 and 84 h postinoculation (hpi). The VP28 transcripts were not detected at early stages (0 and 24 hpi); however, some transcript accumulation was observed at 48 hpi and gradually increased until 84 hpi. Thus, these results clearly show that the copepod C. pacificus californicus is susceptible to WSSV infection and that it may be a potential vector for the dispersal of WSSV. However, further studies are still needed to correlate the epidemiological outbreaks of WSSV with the presence of copepods in shrimp ponds.

Published

2014

36. Pathways for transmission of angiostrongyliasis and the risk of disease associated with them.

Author

Cowie RH

Subjects

Animals, Anura parasitology, Brachyura parasitology, Cooking, Eosinophilia parasitology, Humans, Meningitis parasitology, Mucus parasitology, Penaeidae parasitology, Strongylida Infections complications, Vegetables parasitology, Water parasitology, Angiostrongylus cantonensis, Food Parasitology, Shellfish parasitology, Snails parasitology, Strongylida Infections prevention & control, Strongylida Infections transmission

Abstract

Angiostrongylus cantonensis, the rat lungworm, is a major cause of eosinophilic meningitis in humans. This short paper reviews what is known about the pathways of infection and assesses the probable importance of each in causing disease. Rats are the definitive hosts. People can become infected by eating, both deliberately and inadvertently, raw or under-cooked intermediate hosts (snails or slugs) or paratenic hosts such as freshwater shrimp, crabs and frogs. Food preparation prior to cooking can leave debris from which infection can also occur. It may be possible to become infected by consuming snail/slug slime (mucus) on produce or by transferring mucus from hands to mouth after handling snails/slugs. Infection from consuming drinking water contaminated by snails/slugs and infection via open wounds may be theoretically possible but no cases have been reported. The severity of the disease is probably related to the number of infective larvae ingested as well as to the precise location of the worms in the host and the host's inflammatory response. Strategies for reducing human infection should include snail and slug control to reduce chances of accidental ingestion, cooking of intermediate and paratenic hosts, and public education on food preparation.

Published

2013

37. Polypocephalus sp. infects the nervous system and increases activity of commercially harvested white shrimp (Litopenaeus setiferus).

Author

Carreon N, Faulkes Z, and Fredensborg BL

Subjects

Animals, Behavior, Animal, Host-Parasite Interactions, Motor Activity, Cestoda physiology, Penaeidae parasitology, Penaeidae physiology

Abstract

Larval tapeworms (Polypocephalus sp.) reside within the central nervous system of decapod crustaceans. Living within the nervous system would seem to create an excellent opportunity for the parasites to manipulate the behavior of their hosts, so we tested the hypothesis that behavior of white shrimp ( Litopenaeus setiferus ) would be correlated with the level of parasitic infection. We videorecorded the behavior of L. setiferus for 8 hr, then examined the nervous system and digestive glands for parasite infection. Larval Polypocephalus sp. were found in the nerve cord, often in large numbers, but only very rarely in the digestive gland, which was typically infected by the larval stage of the nematode, Hysterothylacium sp. There were significantly more Polypocephalus larvae in the abdominal and thoracic ganglia than the subesophageal ganglia and brain. Walking, but not swimming, was significantly and positively related to the number of Polypocephalus sp. lodged in nervous tissue, as well as shrimp carapace length. Polypocephalus sp. is 1 of only a few parasites residing inside the host nervous system and it may, therefore, be suitable for investigating mechanisms of parasite manipulation of invertebrate host behavior.

Published

2011

38. Survey of protozoan, helminth and viral infections in shrimp Litopenaeus setiferus and prawn Macrobrachium acanthurus native to the Jamapa River region, Mexico.

Author

Domínguez-Machín ME, Hernández-Vergara MP, Jiménez-García I, Simá-Alvarez R, and Rodríguez-Canul R

Subjects

Animals, Ciliophora classification, Ciliophora isolation & purification, Helminths classification, Helminths isolation & purification, Larva, Mexico, White spot syndrome virus 1 isolation & purification, Palaemonidae parasitology, Palaemonidae virology, Penaeidae parasitology, Penaeidae virology

Abstract

We surveyed protozoan and metazoan parasites as well as white spot syndrome virus (WSSV) and infectious hypodermal hematopoietic necrosis virus (IHHNV) in white shrimp Litopenaeus setiferus and the palaemonid prawn Macrobrachium acanthurus native to the lower Jamapa River region of Veracruz, Mexico. The presence of parasites and the infection parameters were evaluated in 113 palaemonid prawns collected during the northwind (n = 45), rainy (n = 38) and dry seasons (n = 30) between October 2007 and July 2008, and in 91 shrimp collected in the rainy season between May and June 2008. In L. setiferus, ciliates of the subclass Apostomatia (Ascophrys sp.) were evident in gills, and third-stage larvae of the nematode Physocephalus sexalatus were evident in the stomach. Cestodes of the genus Prochristianella were evident in the hepatopancreas, while some gregarines of the genus Nematopsis, as well as unidentified larval cestodes, were observed in the intestine. Histology identified Ascophrys sp. in association with gill necrosis and tissue melanization. Slight inflammation was observed in intestinal epithelium near cestode larvae. In M. acanthurus, epibionts of the protozoans Epistylis sp., Acineta sp. and Lagenophrys sp. were observed under uropods, periopods and pleopods. An unidentified ciliate of the Apostomatia was also found in the gills, and Nematopsis was identified in the intestine. No histopathology was observed in association with these parasites. Moreover, neither WSSV nor IHHNV were detected by the polymerase chain reaction (PCR) in any of the L. setiferus or M. acanthurus analysed.

Published

2011

39. Epidemiological investigation of Clonorchis sinensis infection in freshwater fishes in the Pearl River Delta.

Author

Chen D, Chen J, Huang J, Chen X, Feng D, Liang B, Che Y, Liu X, Zhu C, Li X, and Shen H

Subjects

Animals, China, Clonorchiasis epidemiology, Clonorchiasis parasitology, Fishes parasitology, Penaeidae parasitology, Prevalence, Rivers, Clonorchiasis veterinary, Clonorchis sinensis isolation & purification, Fish Diseases epidemiology, Fish Diseases parasitology

Abstract

Pearl River Delta region is a high clonorchiasis-endemic area in China. However, no complete epidemiological data exist regarding its infection in freshwater fishes, an important epidemic factor for Clonorchis sinensis. The present study collected freshwater fishes and shrimps from 32 sites of nine cities in the Pearl River Delta, and the encysted metacercariae of C. sinensis were detected by digesting these specimens with artificial gastric juice. The mean infection rate of freshwater fishes was 37.09% (2,160/5,824) with a mean number of 14.269 encysted metacercariae in every infected fish and 0.460 encysted metacercariae in every gram of fish meat. Of these freshwater fishes, 5,219 were domesticated, and the infection rate was 36.69% with a mean number of 10.743 encysted metacercariae in every infected fish and 0.312 encysted metacercariae in every gram of fish meat; the other 605 were wild, and the infection rate was 40.50% with a mean number of 41.829 encysted metacercariae in every infected fish and 8.812 encysted metacercariae in every gram of fish meat. A total of 228 shrimps were examined, and 3.07% of them were infected with a mean number of 1.00 encysted metacercariae in every infected shrimp. Pseudorasbora parva and Ctenopharyngodon idellus had the highest infection rate and degree of infection in the fishes studied. The results demonstrated a high incidence of C. sinensis infection in freshwater fishes and shrimps within Pearl River Delta region and a great difference in the infection rate among different collection sites and different fish species.

Published

2010

40. Quantification of Anisakis simplex allergens in fresh, long-term frozen, and cooked fish muscle.

Author

Rodríguez-Mahillo AI, González-Muñoz M, de las Heras C, Tejada M, and Moneo I

Subjects

Allergens immunology, Allergens isolation & purification, Animals, Anisakis isolation & purification, Antigens, CD metabolism, Antigens, Helminth immunology, Antigens, Helminth isolation & purification, Basophils immunology, Basophils metabolism, Bivalvia parasitology, Fish Products adverse effects, Fish Products analysis, Fish Products parasitology, Fishes growth & development, Food Hypersensitivity blood, Food Hypersensitivity diet therapy, Food Hypersensitivity immunology, Food Hypersensitivity parasitology, Food Inspection methods, Food Parasitology, Helminth Proteins analysis, Helminth Proteins immunology, Helminth Proteins isolation & purification, Humans, Immunoglobulin E immunology, Limit of Detection, Muscles chemistry, Muscles parasitology, Penaeidae parasitology, Platelet Membrane Glycoproteins metabolism, Seafood adverse effects, Shellfish adverse effects, Shellfish analysis, Shellfish parasitology, Temperature, Tetraspanin 30, Tissue Extracts adverse effects, Tissue Extracts chemistry, Tissue Extracts immunology, Allergens analysis, Anisakis immunology, Antigens, Helminth analysis, Fishes parasitology, Food Handling, Seafood analysis, Seafood parasitology

Abstract

Fish-borne parasitic zoonoses such as Anisakiasis were once limited to people living in countries where raw or undercooked fish is traditionally consumed. Nowadays, several factors, such as the growing international markets, the improved transportation systems, the population movements, and the expansion of ethnic ways of cooking in developed countries, have increased the population exposed to these parasites. Improved diagnosis technology and a better knowledge of the symptoms by clinicians have increased the Anisakiasis cases worldwide. Dietary recommendations to Anisakis-sensitized patients include the consumption of frozen or well-cooked fish, but these probably do not defend sensitized patients from allergen exposure. The aim of our work was to develop a sensitive and specific method to detect and quantify Anisakis simplex allergens in fish muscle and its derivatives. Protein extraction was made in saline buffer followed by preparation under acid conditions. A. simplex antigens were detected by IgG immunoblot and quantified by dot blot. The allergenic properties of the extracts were assessed by IgE immunoblotting and basophil activation test. We were able to detect less than 1 ppm of A. simplex antigens, among them the allergen Ani s 4, in fish muscle with no cross-reactions and with a recovery rate of 82.5%. A. simplex antigens were detected in hakes and anchovies but not in sardines, red mullets, or shellfish. We detected A. simplex allergens in cooked hakes and also in hake stock. We proved that A. simplex allergens are preserved in long-term frozen storage (-20 degrees C +/- 2 degrees C for 11 months) of parasitized hakes. Basophil activation tests have proven the capability of the A. simplex-positive fish extracts to induce allergic symptoms.

Published

2010

41. Identification of Parapenaeopsis stylifera, a new host for Epipenaeon ingens.

Author

Gopalakrishnan A, Rajkumar M, Ravichandran S, Trilles JP, and Vasanthan TM

Subjects

Animals, Host-Parasite Interactions, Isopoda physiology, Penaeidae parasitology

Abstract

Epipenaeon ingens (Isopoda: Bopyridae) is reported for the first time from Parapenaeopsis stylifera (Decapoda: Penaeidae) in South India. According to the month the parasitic prevalence ranged from 0.0 to 2.9%. A characteristic bulge of the branchial chamber growth retardation and degenerated sex organs were observed in the infested shrimp.

Published

2009

42. Fine structure of a septate gregarine trophozoite in the black tiger shrimp Penaeus monodon.

Author

Poulpanich N and Withyachumnarnkul B

Subjects

Animals, Intestines parasitology, Microscopy, Electron, Scanning, Microscopy, Electron, Transmission, Trophozoites ultrastructure, Apicomplexa physiology, Apicomplexa ultrastructure, Penaeidae parasitology

Abstract

Gregarines are parasitic protozoa that occasionally parasitize the gut lumen of penaeid shrimp and other crustaceans. Here we describe the morphology of gregarine trophozoites found in the black tiger shrimp Penaeus monodon using light microscopy (LM) and scanning (SEM) and transmission (TEM) electron microscopy. Using LM with fresh preparations and with paraffin sectioning followed by hematoxylin-eosin staining, several trophozoites were discovered in the foregut and midgut, and gametocysts were found in the hindgut. Trophozoites existed both as solitary individuals and in association and exhibited either caudofrontal or lateral patterns. They were cylindrical in shape, 60 to 300 microm long by 10 to 60 microm wide, and consisted of 2 parts: a small anterior portion known as a protomerite, which was separated by a septum from a larger posterior portion known as a deutomerite. Under SEM, both the protomerite and deutomerite were found to be entirely covered with longitudinal, parallel pellicular folds 0.1 microm thick. Under TEM, the deutomerite was seen to contain a nucleus with a single eccentric nucleolus and several areas of peripherally located chromatin. The cytoplasm of both the protomerite and deutomerite contained abundant vesicles and granules of different sizes. The pellicle consisted of a double layer of electron-dense membranes separated by an electron-lucent area 30 nm wide and containing a microfilament. A few microfilaments were also observed in the cytoplasm underneath the pellicle, possibly serving as locomotive apparatus for the parasite. Based on its morphology, this gregarine appears similar to those of the genus Nematopsis.

Published

2009

43. Enterocytozoon hepatopenaei sp. nov. (Microsporida: Enterocytozoonidae), a parasite of the black tiger shrimp Penaeus monodon (Decapoda: Penaeidae): Fine structure and phylogenetic relationships.

Author

Tourtip S, Wongtripop S, Stentiford GD, Bateman KS, Sriurairatana S, Chavadej J, Sritunyalucksana K, and Withyachumnarnkul B

Subjects

Animals, Genes, Fungal, Host-Parasite Interactions physiology, Microscopy, Electron, Transmission, Microsporidiosis genetics, Phylogeny, Polymerase Chain Reaction, Enterocytozoon physiology, Enterocytozoon ultrastructure, Microsporidiosis parasitology, Microsporidiosis veterinary, Penaeidae parasitology

Abstract

A new microsporidian species, Enterocytozoon hepatopenaei sp. nov., is described from the hepatopancreas of the black tiger shrimp Penaeus monodon (Crustacea: Decapoda). Different stages of the parasite are described, from early sporogonal plasmodia to mature spores in the cytoplasm of host-cells. The multinucleate sporogonal plasmodia existed in direct contact with the host-cell cytoplasm and contained numerous small blebs at the surface. Binary fission of the plasmodial nuclei occurred during early plasmodial development and numerous pre-sporoblasts were formed within the plasmodium. Electron-dense disks and precursors of the polar tubule developed in the cytoplasm of the plasmodium prior to budding of early sporoblasts from the plasmodial surface. Mature spores were oval, measuring 0.7x1.1microm and contained a single nucleus, 5-6 coils of the polar filament, a posterior vacuole, an anchoring disk attached to the polar filament, and a thick electron-dense wall. The wall was composed of a plasmalemma, an electron-lucent endospore (10nm) and an electron-dense exospore (2nm). DNA primers designed from microsporidian SSU rRNA were used to amplify an 848bp product from the parasite genome (GenBank FJ496356). The sequenced product had 84% identity to the matching region of SSU rRNA from Enterocytozoon bieneusi. Based upon ultrastructural features unique to the family Enterocytozoonidae, cytoplasmic location of the plasmodia and SSU rRNA sequence identity 16% different from E. bieneusi, the parasite was considered to be a new species, E. hepatopenaei, within the genus Enterocytozoon.

Published

2009

44. Superoxide dismutase activity in juvenile Litopenaeus vannamei and Nodipecten subnodosus exposed to the toxic dinoflagellate Prorocentrum lima.

Author

Campa-Córdova AI, Núñez-Vázquez EJ, Luna-González A, Romero-Geraldo MJ, and Ascencio F

Subjects

Animals, Artemia parasitology, Biological Assay, Hepatopancreas parasitology, Mice, Muscles parasitology, Pectinidae parasitology, Penaeidae parasitology, Time Factors, Up-Regulation, Dinoflagellida pathogenicity, Hepatopancreas enzymology, Muscles enzymology, Pectinidae enzymology, Penaeidae enzymology, Protozoan Proteins metabolism, Superoxide Dismutase metabolism

Abstract

The toxic effect of the dinoflagellate Prorocentrum lima on juvenile American whiteleg shrimp Litopenaeus vannamei and giant lion-paw scallop Nodipecten subnodosus was evaluated. Organisms were exposed to three densities (500, 2000, or 5000 cells mL(-1)), superoxide dismutase activity and soluble protein in the hepatopancreas and muscle were determined at 1, 6, 24 and 48 h after challenge. Shrimp exposed at 5000 cells mL(-1) significantly increased SOD activity in the hepatopancreas at 1 h post-challenge, whereas enzymatic activity in muscle significantly increased at 24 h at all densities. Scallops exposed to 500 and 2000 cells mL(-1) showed significant SOD activity increase in hepatopancreas at 24 and 12 h, respectively. Mortality at 48 h was 100% in scallops exposed to 5000 cells mL(-1). Shrimp showed higher levels of SOD activity than scallops. Soluble protein content in the shrimp hepatopancreas was significantly higher at densities of 500 and 2000 cells mL(-1) at 6 and 1 h, respectively. Soluble protein content in the scallop hepatopancreas was higher than control values at 1 h after challenge. In this study, 500 cells mL(-1) was enough to trigger SOD activity in two benthic species exposed to the toxic dinoflagellate P. lima.

Published

2009

45. Characterization of a rediscovered haplosporidian parasite from cultured Penaeus vannamei.

Author

Nunan LM, Lightner DV, Pantoja CR, Stokes NA, and Reece KS

Subjects

Animals, Base Sequence, Haplosporida genetics, Haplosporida isolation & purification, Hepatopancreas parasitology, Hepatopancreas pathology, In Situ Hybridization, Molecular Sequence Data, Phylogeny, Sequence Homology, Nucleic Acid, Genes, rRNA genetics, Haplosporida pathogenicity, Haplosporida ultrastructure, Penaeidae parasitology

Abstract

Mortalities of Penaeus vannamei, cultured in ponds in Belize, Central America, began during the last part of the grow-out cycle during the cold weather months from September 2004 through February 2005. Tissue squashes of infected hepatopancreata and histological examination of infected shrimp revealed that the mortalities might have been caused by an endoparasite. To confirm the diagnosis, DNA was extracted from ethanol preserved hepatopancreata and the small-subunit rRNA gene was sequenced. The 1838 bp sequence was novel and phylogenetic analysis placed the P. vannamei parasite within the phylum Haplosporidia as a sister taxon to a clade that includes Bonamia and Minchinia species. In situ hybridization was performed using anti-sense DNA probes that were designed to hybridize specifically with the parasite's nucleic acid. This organism presents similar characteristics to those of a haplosporidian that infected cultured P. vannamei imported from Nicaragua into Cuba, as described by Dyková et al. (1988; Fish Dis 11:15-22).

Published

2007

46. Opportunities for training in shrimp diseases.

Author

Lightner DV and Redman RM

Subjects

Animals, Communicable Disease Control, Global Health, Aquaculture education, Education trends, Health Education methods, Penaeidae microbiology, Penaeidae parasitology, Penaeidae virology

Abstract

Opportunities for formal training in shrimp diseases were not available 30 years ago. This was because the shrimp farming industry was in its infancy with few significant disease issues and even fewer shrimp disease specialists investigating the causes of production losses. In 2006, more than two million metric tons of the marine penaeid shrimp were farmed, accounting for more than half of the world's supply. With most of the world's shrimp fisheries at maximum sustainable yields, the ratio of farmed to fished shrimp appears likely to continue to increase. The remarkable growth of sustainable shrimp farming was made possible through the development of methods to diagnose and manage disease in the world's shrimp farms. This occurred as the result of the development of training opportunities in shrimp disease diagnosis and control methods and the application of that knowledge, by an ever increasing number of shrimp diseases specialists, to disease management at shrimp farms. The first type of formal training to become generally available to the industry was in the form of special short courses and workshops. The first of these, which was open to international participants, was given at the University of Arizona in 1989. Since that first course several dozen more special short courses and workshops on shrimp diseases have been given by the University of Arizona. Dozens more special courses and workshops on shrimp diseases have been given by other groups, including other universities, industry cooperatives, governments and international aid agencies, in a wide range of countries (and languages) where shrimp farming constitutes an important industry. In parallel, graduate study programs leading to post graduate degrees, with shrimp disease as the research topic, have developed while formal courses in shrimp diseases have not become widely available in veterinary or fisheries college curricula in the USA and Europe, such courses are appearing in university programs located in some of the shrimp farming countries of SE Asia. The trend towards more formal training programs in shrimp diseases and disease management is likely to continue as the industry continues to mature and become increasingly sustainable.

Published

2007

47. The pink shrimp Farfantepenaeus duorarum, its symbionts and helminths as bioindicators of chemical pollution in Campeche Sound, Mexico.

Author

Vidal-Martínez VM, Aguirre-Macedo ML, Del Rio-Rodríguez R, Gold-Bouchot G, Rendón-von Osten J, and Miranda-Rosas GA

Subjects

Animals, Geologic Sediments chemistry, Host-Parasite Interactions, Life Cycle Stages, Mexico, Seawater, Symbiosis, Water Pollution, Ciliophora physiology, Environmental Monitoring methods, Helminths physiology, Metals, Heavy adverse effects, Penaeidae parasitology, Water Pollutants, Chemical adverse effects

Abstract

The pink shrimp Farfantepenaeus duorarum may acquire pollutants, helminths and symbionts from their environment. Statistical associations were studied between the symbionts and helminths of F. duorarum and pollutants in sediments, water and shrimps in Campeche Sound, Mexico. The study area spatially overlapped between offshore oil platforms and natural shrimp mating grounds. Spatial autocorrelation of data was controlled with spatial analysis using distance indices (SADIE) which identifies parasite or pollutant patches (high levels) and gaps (low levels), expressing them as clustering indices compared at each point to produce a measure of spatial association. Symbionts included the peritrich ciliates Epistylis sp. and Zoothamnium penaei and all symbionts were pooled. Helminths included Hysterothylacium sp., Opecoeloides fimbriatus, Prochristianella penaei and an unidentified cestode. Thirty-five pollutants were identified, including polycyclic aromatic hydrocarbons (PAHs), polychlorinated biphenyls (PCBs), pesticides and heavy metals. The PAHs (2-3 ring) in water, unresolved complex mixture (UCM), Ni and V in sediments, and Zn, Cr and heptachlor in shrimps were significantly clustered. The remaining pollutants were randomly distributed in the study area. Juvenile shrimps acquired pesticides, PAHs (2-3 rings) and Zn, while adults acquired PAHs (4-5 rings), Cu and V. Results suggest natural PAH spillovers, and continental runoff of dichlorodiphenyltrichloroethane (DDT), PCBs and PAHs (2-3 ring). There were no significant associations between pollutants and helminths. However, there were significant negative associations of pesticides, UCM and PCBs with symbiont numbers after controlling shrimp size and spatial autocorrelation. Shrimps and their symbionts appear to be promising bioindicators of organic chemical pollution in Campeche Sound.

Published

2006

48. Microsporidians in penaeid shrimp along the west coast of Madagascar.

Author

Toubiana M, Guelorget O, Bouchereau JL, Lucien-Brun H, and Marques A

Subjects

Animals, Host-Parasite Interactions, Madagascar, Microscopy, Electron, Scanning, Seawater, Microsporidia, Unclassified physiology, Penaeidae parasitology, Spores ultrastructure

Abstract

Three species of penaeid shrimp, Fenneropenaeus indicus, Penaeus monodon and P. semisulcatus, found in trawler catches off the west coast of Madagascar were infected with microsporidian parasites. The infections were evident as muscular lesions with a cottony appearance when abundant. Spore size (2.6 x 1.6 microm) and morphology (ovoid) for the parasites infecting both F. indicus and P. semisulcatus were not significantly different, suggesting that they might be the same microsporidian species. Spore size (1.4 x 1.1 microm) and morphology (sub-globose to ovoid) in P. monodon infections were significantly different from those in the other 2 shrimp species, suggesting that it was a different parasite. The presence of microsporidians in this biogeographical zone means that there is a potential risk of infections of cultured shrimp in farms situated in the vicinity. This must be assessed by increasing current knowledge of the parasites.

Published

2004

49. Abundance of potentially pathogenic micro-organisms in Penaeus monodon larvae rearing systems in India.

Author

Vaseeharan B and Ramasamy P

Subjects

Animals, Artemia microbiology, Baculoviridae isolation & purification, Gammaproteobacteria isolation & purification, India, Larva microbiology, Oligohymenophorea isolation & purification, Penaeidae growth & development, Seawater microbiology, Vibrio isolation & purification, Aquaculture, Penaeidae microbiology, Penaeidae parasitology, Shellfish microbiology, Vibrio pathogenicity

Abstract

Monodon baculovirls (MBV), external fouling organisms (EFO) and bacteria (especially Vibrio species) were monitored during 1996-1997 at nine different Penaeus monodon rearing hatcheries in India. Total cultivable heterotrophic bacteria, Vibrio-like-bacteria, presumptive Vibrio harveyi, Vibrio anguillarum, Vibrio vulnificus counts were determined from shrimp eggs, post larvae, rearing tank water, source sea water, feed (Artemia nauplii and microencapsulated feed). The MBV infected post larvae and their environment showed higher Vibrio-like-bacteria than uninfected post larvae. An overwhelming predominance of presumptive Vibrio harveyi and Vibrio anguillarum was observed in post larval rearing tank water, MBV infected and uninfected post larvae. Vibrio-like-bacteria in Artemia nauplii clearly showed the possible source of these pathogenic bacteria in the hatchery environments. Quantitative analysis of Vibrio-like-bacteria in hatcheries revealed that when the Vibrio-like-bacteria increases to 2 x 10(2) CFU mortality of the post larvae occurs. Abundance of these micro-organisms in hatchery samples indicated that they are opportunistic pathogens which can invade the shrimp tissue, subsequently cause disease when the post larvae were under stressful conditions.

Published

2003

50. Mortalities of Penaeus japonicus prawns associated with microsporidean infection.

Author

Hudson DA, Hudson NB, and Pyecroft SB

Subjects

Animals, Microsporidia ultrastructure, Microsporidiosis microbiology, Microsporidiosis mortality, Queensland epidemiology, Spores, Disease Outbreaks veterinary, Microsporidia isolation & purification, Microsporidiosis veterinary, Penaeidae parasitology

Published

2001