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1.
Int J Mol Sci ; 21(16)2020 Aug 16.
Article in English | MEDLINE | ID: mdl-32824343

ABSTRACT

The mechanisms of action of silver nanoparticles (AgNPs) in monogenean parasites of the genus Cichlidogyrus were investigated through a microarray hybridization approach using genomic information from the nematode Caenorhabditis elegans. The effects of two concentrations of AgNPs were explored, low (6 µg/L Ag) and high (36 µg/L Ag). Microarray analysis revealed that both concentrations of AgNPs activated similar biological processes, although by different mechanisms. Expression profiles included genes involved in detoxification, neurotoxicity, modulation of cell signaling, reproduction, embryonic development, and tegument organization as the main biological processes dysregulated by AgNPs. Two important processes (DNA damage and cell death) were mostly activated in parasites exposed to the lower concentration of AgNPs. To our knowledge, this is the first study providing information on the sub-cellular and molecular effects of exposure to AgNPs in metazoan parasites of fish.


Subject(s)
Anthelmintics/toxicity , Caenorhabditis elegans/drug effects , Metal Nanoparticles/toxicity , Platyhelminths/drug effects , Transcriptome , Animals , Caenorhabditis elegans Proteins/genetics , Caenorhabditis elegans Proteins/metabolism , Cell Death , DNA Damage , Platyhelminths/pathogenicity , Silver/chemistry , Tilapia/parasitology
2.
J Parasitol ; 106(2): 276-282, 2020 04 01.
Article in English | MEDLINE | ID: mdl-32294759

ABSTRACT

Heterobothrium okamotoi, a monogenean gill parasite, exhibits high host specificity for the tiger puffer, Takifugu rubripes, and it has been experimentally verified that the parasite cannot colonize either closely related species such as the grass puffer Takifugu niphobles or distantly related fish such as the red seabream Pagrus major. Previously, we demonstrated in T. rubripes that immunoglobulin M (IgM) with d-mannose affinity induced deciliation of the oncomiracidia, the first step of parasitism, indicating that the parasite utilizes the molecule as a receptor for infection. In the present study, we purified mannose-specific IgM from 2 nonhost species, T. niphobles and P. major, by affinity and gel-filtration chromatography techniques and compared their deciliation-inducing activity against H. okamotoi oncomiracidia. The IgM of the former showed activity, whereas the latter had no effect, suggesting that in addition to d-mannose-binding ability, the crystallizable fragment domain of IgM, which is not part of the antigen-binding domain, plays an important role in host recognition by the oncomiracidia, such as direct binding to the parasites. It also suggests that the host specificity of H. okamotoi is relatively low upon initial recognition, and the specificity is established by exclusion in nonhosts during a later stage.


Subject(s)
Ectoparasitic Infestations/veterinary , Fish Diseases/parasitology , Immunoglobulin M/physiology , Mannose/immunology , Platyhelminths/immunology , Takifugu/parasitology , Amino Acid Sequence , Animals , Blotting, Western , Cilia/immunology , Cloning, Molecular , DNA, Complementary/genetics , DNA, Complementary/immunology , Ectoparasitic Infestations/immunology , Ectoparasitic Infestations/parasitology , Electrophoresis, Polyacrylamide Gel , Fish Diseases/immunology , Gene Expression , Gills/parasitology , Host Specificity , Hydrogen-Ion Concentration , Immunoglobulin M/blood , Immunoglobulin M/genetics , Immunoglobulin M/isolation & purification , Mucous Membrane/chemistry , Mucous Membrane/immunology , Mucous Membrane/parasitology , Platyhelminths/pathogenicity , Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization , Takifugu/immunology , Trematode Infections/immunology , Trematode Infections/parasitology , Trematode Infections/veterinary
3.
BMC Genomics ; 20(1): 200, 2019 Mar 11.
Article in English | MEDLINE | ID: mdl-30866816

ABSTRACT

BACKGROUND: Monogenean flatworms are the main fish ectoparasites inflicting serious economic losses in aquaculture. The polyopisthocotylean Sparicotyle chrysophrii parasitizes the gills of gilthead sea bream (GSB, Sparus aurata) causing anaemia, lamellae fusion and sloughing of epithelial cells, with the consequent hypoxia, emaciation, lethargy and mortality. Currently no preventive or curative measures against this disease exist and therefore information on the host-parasite interaction is crucial to find mitigation solutions for sparicotylosis. The knowledge about gene regulation in monogenean-host models mostly comes from freshwater monopysthocotyleans and almost nothing is known about polyopisthocotyleans. The current study aims to decipher the host response at local (gills) and systemic (spleen, liver) levels in farmed GSB with a mild natural S. chrysophrii infection by transcriptomic analysis. RESULTS: Using Illumina RNA sequencing and transcriptomic analysis, a total of 2581 differentially expressed transcripts were identified in infected fish when compared to uninfected controls. Gill tissues in contact with the parasite (P gills) displayed regulation of fewer genes (700) than gill portions not in contact with the parasite (NP gills) (1235), most likely due to a local silencing effect of the parasite. The systemic reaction in the spleen was much higher than that at the parasite attachment site (local) (1240), and higher than in liver (334). NP gills displayed a strong enrichment of genes mainly related to immune response and apoptosis. Processes such as apoptosis, inflammation and cell proliferation dominated gills, whereas inhibition of apoptosis, autophagy, platelet activation, signalling and aggregation, and inflammasome were observed in spleen. Proteasome markers were increased in all tissues, whereas hypoxia-related genes were down-regulated in gills and spleen. CONCLUSIONS: Contrasting forces seem to be acting at local and systemic levels. The splenic down-regulation could be part of a hypometabolic response, to counteract the hypoxia induced by the parasite damage to the gills and to concentrate the energy on defence and repair responses. Alternatively, it can be also interpreted as the often observed action of helminths to modify host immunity in its own interest. These results provide the first toolkit for future studies towards understanding and management of this parasitosis.


Subject(s)
Fish Proteins/genetics , Helminthiasis, Animal/genetics , Platyhelminths/pathogenicity , Sea Bream/parasitology , Sequence Analysis, RNA/veterinary , Animals , Autophagy , Cell Proliferation , Fisheries , Gene Expression Profiling/veterinary , Gene Expression Regulation , Gills/parasitology , High-Throughput Nucleotide Sequencing/veterinary , Host-Parasite Interactions , Liver/parasitology , Sea Bream/genetics , Spleen/parasitology
4.
Semin Cell Dev Biol ; 87: 79-94, 2019 03.
Article in English | MEDLINE | ID: mdl-29694837

ABSTRACT

Planarian flatworms possess pluripotent stem cells (neoblasts) that are able to differentiate into all cell types that constitute the adult body plan. Consequently, planarians possess remarkable regenerative capabilities. Transcriptomic studies have revealed that gene expression is coordinated to maintain neoblast pluripotency, and ensure correct lineage specification during differentiation. But as yet they have not revealed how this regulation of expression is controlled. In this review, we propose that planarians represent a unique and effective system to study the epigenetic regulation of these processes in an in vivo context. We consolidate evidence suggesting that although DNA methylation is likely present in some flatworm lineages, it does not regulate neoblast function in Schmidtea mediterranea. A number of phenotypic studies have documented the role of histone modification and chromatin remodelling complexes in regulating distinct neoblast processes, and we focus on four important examples of planarian epigenetic regulators: Nucleosome Remodeling Deacetylase (NuRD) complex, Polycomb Repressive Complex (PRC), the SET1/MLL methyltransferases, and the nuclear PIWI/piRNA complex. Given the recent advent of ChIP-seq in planarians, we propose future avenues of research that will identify the genomic targets of these complexes allowing for a clearer picture of how neoblast processes are coordinated at the epigenetic level. These insights into neoblast biology may be directly relevant to mammalian stem cells and disease. The unique biology of planarians will also allow us to investigate how extracellular signals feed into epigenetic regulatory networks to govern concerted neoblast responses during regenerative polarity, tissue patterning, and remodelling.


Subject(s)
Epigenomics/methods , Planarians , Platyhelminths/pathogenicity , Pluripotent Stem Cells/metabolism , Animals , Cell Differentiation
5.
PLoS One ; 13(2): e0192285, 2018.
Article in English | MEDLINE | ID: mdl-29414983

ABSTRACT

Diplozoidae (Monogenea) are blood-feeding freshwater fish gill ectoparasites with extraordinary body architecture and a unique sexual behaviour in which two larval worms fuse and transform into one functioning individual. In this study, we describe the body organisation of Paradiplozoon homoion adult stage using a combined approach of confocal laser scanning and electron microscopy, with emphasis on the forebody and hindbody. Special attention is given to structures involved in functional adaptation to ectoparasitism, i.e. host searching, attachment and feeding/metabolism. Our observations indicate clear adaptations for blood sucking, with a well-innervated mouth opening surrounded by sensory structures, prominent muscular buccal suckers and a pharynx. The buccal cavity surface is covered with numerous tegumentary digitations that increase the area in contact with host tissue and, subsequently, with its blood. The buccal suckers and the well-innervated haptor (with sclerotised clamps controlled by noticeable musculature) cooperate in attaching to and moving over the host. Putative gland cells accumulate in the region of apical circular structures, pharynx area and in the haptor middle region. Paired club-shaped sacs lying laterally to the pharynx might serve as secretory reservoirs. Furthermore, we were able to visualise the body wall musculature, including peripheral innervation, the distribution of uniciliated sensory structures essential for reception of external environmental information, and flame cells involved in excretion. Our results confirm in detail that P. homoion displays a range of sophisticated adaptations to an ectoparasitic life style, characteristic for diplozoid monogeneans.


Subject(s)
Ectoparasitic Infestations/parasitology , Platyhelminths/anatomy & histology , Animals , Fishes/parasitology , Host-Parasite Interactions , Microscopy, Confocal , Microscopy, Electron, Scanning , Platyhelminths/pathogenicity
6.
An. acad. bras. ciênc ; 89(4): 2997-3003, Oct.-Dec. 2017. graf
Article in English | LILACS | ID: biblio-886867

ABSTRACT

ABSTRACT Monogenoidea pathogenic activity can elicit various histological responses in fish. Species of Ligophorus are specific parasites of mullets, and its relationship with host fish may result in a moderate pathogenic action. In order to ascertain this relationship, estuarine mullets (Mugil liza) were collected in an estuary, reared in laboratory, for three weeks, and forwarded for histological and parasitological analyses. Ligophorus uruguayense (Monogenoidea) infestation in the gills of the mullets was identified. The severe infestation by only one species of Monogenoidea may result from the specificity of these parasites to mullets. Mullets submitted to histological analysis exhibited respiratory epithelium detachment; mild, moderate and severe hyperplasia of the respiratory epithelium; atrophy; and telangiectasia of the gills. This is the first study reporting that mullets highly infested by Monogenoidea can show mild (100%) to severe (20%) gill changes with a distinct frequency of occurrence. Because of the high prevalence of mild alterations observed, it is possible to accept that L. uruguayense is moderately pathogenic to M. liza, even during high prevalence and intensity of infestation, as a result of its specificity.


Subject(s)
Animals , Male , Female , Platyhelminths/pathogenicity , Trematode Infections/parasitology , Smegmamorpha/parasitology , Gills/parasitology , Trematode Infections/pathology , Brazil , Smegmamorpha/classification
7.
An Acad Bras Cienc ; 89(4): 2997-3003, 2017.
Article in English | MEDLINE | ID: mdl-29069138

ABSTRACT

Monogenoidea pathogenic activity can elicit various histological responses in fish. Species of Ligophorus are specific parasites of mullets, and its relationship with host fish may result in a moderate pathogenic action. In order to ascertain this relationship, estuarine mullets (Mugil liza) were collected in an estuary, reared in laboratory, for three weeks, and forwarded for histological and parasitological analyses. Ligophorus uruguayense (Monogenoidea) infestation in the gills of the mullets was identified. The severe infestation by only one species of Monogenoidea may result from the specificity of these parasites to mullets. Mullets submitted to histological analysis exhibited respiratory epithelium detachment; mild, moderate and severe hyperplasia of the respiratory epithelium; atrophy; and telangiectasia of the gills. This is the first study reporting that mullets highly infested by Monogenoidea can show mild (100%) to severe (20%) gill changes with a distinct frequency of occurrence. Because of the high prevalence of mild alterations observed, it is possible to accept that L. uruguayense is moderately pathogenic to M. liza, even during high prevalence and intensity of infestation, as a result of its specificity.


Subject(s)
Gills/parasitology , Platyhelminths/pathogenicity , Smegmamorpha/parasitology , Trematode Infections/parasitology , Animals , Brazil , Female , Male , Smegmamorpha/classification , Trematode Infections/pathology
8.
Infect Genet Evol ; 45: 33-39, 2016 11.
Article in English | MEDLINE | ID: mdl-27507427

ABSTRACT

The Atlantic salmon, Salmo salar L., in the Tornio River in the Northern Baltic Sea basin accommodates a monogenean ectoparasite, Gyrodactylus salaris. The aim of the study was to understand the population structure of apparently co-adapted host-parasite system: no parasite-associated mortality has been reported. The parasite burden among salmon juveniles (parr) was monitored along 460km of the river in 2000-2009. Among the parr, 33.0% were infected (nfish=1913). The genetic structure of the parasite population was studied by sequencing an anonymous nuclear DNA marker (ADNAM1, three main genotypes) and mitochondrial CO1 (three clades, six haplotypes). During the ten years, the parasite population was strongly and stably genetically differentiated among up- and downstream nurseries (nADNAM1=411, FST=0.579; nCO1=443, FST=0.534). Infection prevalence among the smolts migrating to sea was higher than in the sedentary parr populations (82.2%, nfish=129). The spatial differentiation observed among the sedentary juveniles was reflected temporally in the smolt run: parasite genotypes dominating the upper part of the river arrived later than downstream dwellers (medians June 4 and June 2) to the trap 7km from the river mouth. The nuclear and mitochondrial markers were in stable disequilibrium which was not relaxed in the contact zone or among the smolts where the parasite clones often met on individual fish. Only five parasite specimens on smolts (nworms=217) were putative recent sexual recombinants. The contribution of extant salmon hatcheries into the infection was negligible. The host salmon population in Tornio River is known to show significant spatial differentiation (FST=0.022). The stable spatial genetic structure of the parasite against the high physical mobility suggested a possibility of local co-adaptation of the host-parasite subpopulations.


Subject(s)
Fish Diseases , Helminthiasis, Animal , Host-Parasite Interactions/genetics , Platyhelminths , Salmo salar , Animals , Atlantic Ocean , Baltic States , DNA, Helminth/genetics , DNA, Mitochondrial/genetics , Fish Diseases/genetics , Fish Diseases/parasitology , Helminthiasis, Animal/genetics , Helminthiasis, Animal/parasitology , Phylogeny , Platyhelminths/genetics , Platyhelminths/pathogenicity , Rivers , Salmo salar/genetics , Salmo salar/parasitology
9.
Int J Parasitol ; 46(9): 545-54, 2016 08.
Article in English | MEDLINE | ID: mdl-27155331

ABSTRACT

We examined the global mitochondrial phylogeography of Gyrodactylus arcuatus, a flatworm ectoparasite of three-spined stickleback Gasterosteus aculeatus. In accordance with the suggested high divergence rate of 13%/million years, the genetic variation of the parasite was high: haplotype diversity h=0.985 and nucleotide diversity π=0.0161. The differentiation among the parasite populations was substantial (Φst=0.759), with two main allopatric clades (here termed Euro and North) accounting for 54% of the total genetic variation. The diversity center of the Euro clade was in the Baltic Sea, while the North clade was spread across the Barents and White Seas. A single haplotype within the North clade was found in the western and eastern Pacific Ocean. Divergence of main clades was estimated to be circa 200 thousand years ago. Each main clade was further divided into six distinct subclades, estimated to have diverged in isolation since 135 thousand years ago. This second division corresponds approximately to the Eemian interglacial predating the last glacial maximum. A demographic expansion of the subclades is associated with colonisation of northern Europe since the last glacial maximum, circa 15-40 thousand years ago. The parasite phylogeny is most likely explained by sequential isolated bottlenecks and expansions in numerous allopatric refugia. The postglacial intermingling and high variation in the marine parasite populations, separately in the Baltic and Barents Seas, suggest low competition of divergent parasite matrilines, coupled with a large population size and high rate of dispersal of hosts. The genetic contribution of the assumed refugial fish populations maintaining the parasite during the last glacial maximum was not detected among the marine sticklebacks, which perhaps were infected after range expansion.


Subject(s)
Fresh Water/parasitology , Platyhelminths/classification , Platyhelminths/genetics , Smegmamorpha/parasitology , Animals , DNA, Mitochondrial/genetics , Europe , Evolution, Molecular , Haplotypes , Pacific Ocean , Phylogeny , Phylogeography , Platyhelminths/pathogenicity , Refugium
10.
Exp Parasitol ; 167: 32-7, 2016 Aug.
Article in English | MEDLINE | ID: mdl-27130704

ABSTRACT

Inbreeding can threaten population persistence by reducing disease resistance through the accelerated loss of gene diversity (i.e. heterozygosity). Such inbreeding depression can affect many different fitness-related traits, including survival, reproductive success, and parasite susceptibility. Empirically quantifying the effects of inbreeding on parasite resistance is therefore important for ex-situ conservation of vertebrates. The present study evaluates the disease susceptibility of individuals bred under three different breeding regimes (inbred, crossed with full siblings; control, randomly crossed mating; and fully outbred). Specifically, we examined the relationship between inbreeding coefficient (F-coefficient) and susceptibility to Gyrodactylus turnbulli infection in a live bearing vertebrate, the guppy Poecilia reticulata. Host-breeding regime significantly affected the trajectories of parasite population growth on individual fish. Inbred fish showed significantly higher mean parasite intensity than fish from the control and outbred breeding regimes, and in addition, inbred fish were slower in purging their gyrodactylid infections. We discuss the role of inbreeding on the various arms of the immune system, and argue that the increased disease susceptibility of inbred individuals could contribute to the extinction vortex. This is one of the first studies to quantify the effects of inbreeding and breeding regime on disease susceptibility in a captive bred vertebrate of wild origin, and it highlights the risks faced by small (captive-bred) populations when exposed to their native parasites.


Subject(s)
Fish Diseases/parasitology , Genetic Predisposition to Disease/genetics , Inbreeding , Platyhelminths/pathogenicity , Poecilia/parasitology , Trematode Infections/veterinary , Animals , Fish Diseases/immunology , Genetic Drift , Loss of Heterozygosity/genetics , Poecilia/genetics , Random Allocation , Trematode Infections/immunology , Trematode Infections/parasitology
11.
PLoS One ; 10(3): e0120081, 2015.
Article in English | MEDLINE | ID: mdl-25793530

ABSTRACT

Mitochondrial genomes (mitogenomes) are useful and relatively accessible sources of molecular data to explore and understand the evolutionary history and relationships of eukaryotic organisms across diverse taxonomic levels. The availability of complete mitogenomes from Platyhelminthes is limited; of the 40 or so published most are from parasitic flatworms (Neodermata). Here, we present the mitogenomes of two free-living flatworms (Tricladida): the complete genome of the freshwater species Crenobia alpina (Planariidae) and a nearly complete genome of the land planarian Obama sp. (Geoplanidae). Moreover, we have reanotated the published mitogenome of the species Dugesia japonica (Dugesiidae). This contribution almost doubles the total number of mtDNAs published for Tricladida, a species-rich group including model organisms and economically important invasive species. We took the opportunity to conduct comparative mitogenomic analyses between available free-living and selected parasitic flatworms in order to gain insights into the putative effect of life cycle on nucleotide composition through mutation and natural selection. Unexpectedly, we did not find any molecular hallmark of a selective relaxation in mitogenomes of parasitic flatworms; on the contrary, three out of the four studied free-living triclad mitogenomes exhibit higher A+T content and selective relaxation levels. Additionally, we provide new and valuable molecular data to develop markers for future phylogenetic studies on planariids and geoplanids.


Subject(s)
Evolution, Molecular , Genome, Helminth , Genome, Mitochondrial , Platyhelminths/genetics , Animals , Base Sequence , GC Rich Sequence , Molecular Sequence Data , Mutation , Phylogeny , Platyhelminths/classification , Platyhelminths/pathogenicity , Selection, Genetic , Virulence/genetics
12.
J Parasitol ; 100(6): 743-55, 2014 Dec.
Article in English | MEDLINE | ID: mdl-25260074

ABSTRACT

Aquaculture is the fastest-growing segment of food production and is expected to supply a growing portion of animal protein for consumption by humans. Because industrial aquaculture developed only recently compared to industrial agriculture, its development occurred within the context of a growing environmental awareness and acknowledgment of environmental issues associated with industrial farming. As such, parasites and diseases have become central criticisms of commercial aquaculture. This focus on parasites and diseases, however, has created a nexus of opportunities for research that has facilitated considerable scientific advances in the fields of parasitology and aquaculture. This paper reviews Myxobolus cerebralis , Lepeophtheirus salmonis , white spot syndrome virus, and assorted flatworms as select marquee aquaculture pathogens, summarizes the status of the diseases caused by each and their impacts on aquaculture, and highlights some of the significant contributions these pathogens have made to the science of parasitology and aquaculture.


Subject(s)
Aquaculture , Fish Diseases/parasitology , Parasitic Diseases, Animal/parasitology , Seafood/supply & distribution , Animals , Copepoda/growth & development , Copepoda/pathogenicity , Decapoda/virology , Fishes , Helminthiasis, Animal/parasitology , Host-Parasite Interactions , Humans , Life Cycle Stages , Myxobolus/growth & development , Myxobolus/pathogenicity , Platyhelminths/pathogenicity , Salmonidae/parasitology , White spot syndrome virus 1/pathogenicity
13.
J R Soc Interface ; 11(91): 20130814, 2014 Feb 06.
Article in English | MEDLINE | ID: mdl-24284893

ABSTRACT

Riverine fish are subjected to heterogeneous flow velocities and turbulence and may use this to their advantage by selecting regions that balance energy expenditure for station holding while maximizing energy gain through feeding opportunities. This study investigated microhabitat selection by guppies Poecilia reticulata in terms of flow characteristics generated by hemisphere boulders in an open channel flume. Velocity and turbulence influenced the variation in swimming behaviour with respect to size, sex and parasite intensity. With increasing body length, fish swam further and more frequently between boulder regions. Larger guppies spent more time in the areas of high-velocity and low-turbulence regions beside the boulders, whereas smaller guppies frequented the low-velocity and high-turbulence regions directly behind the boulders. Male guppies selected the regions of low velocity, indicating possible reduced swimming ability owing to hydrodynamic drag imposed by their fins. With increasing Gyrodactylus turnbulli burden, fish spent more time in regions with moderate velocity and lowest turbulent kinetic energy which were the most spatially and temporally homogeneous in terms of velocity and turbulence. These findings highlight the importance of heterogeneous flow conditions in river channel design owing to the behavioural variability within a species in response to velocity and turbulence.


Subject(s)
Platyhelminths/pathogenicity , Poecilia/physiology , Poecilia/parasitology , Acoustics , Animals , Behavior, Animal , Body Size , Doppler Effect , Ecosystem , Energy Metabolism , Female , Fish Diseases/parasitology , Host-Parasite Interactions , Male , Models, Statistical , Movement , Parasite Load , Swimming
14.
Braz. j. biol ; 73(4): 871-878, 1jan. 2013. tab
Article in English | LILACS, VETINDEX | ID: biblio-1468156

ABSTRACT

This study aimed at identifying and quantifying the parasites of wild and cultured dusky grouper Epinephelus marginatus. During a year and thereby all four seasons, 20 wild and 20 cultured groupers were examined for the presence of parasites, except in the last season, in which 19 wild and 20 cultured fish were examined, totalling 159 groupers analysed from Ubatuba, southeastern Brazil. Prevalence, mean intensity of infection, mean abundance and mean relative dominance were calculated. Five species of parasites were identified in fish from both origins: Pseudorhabdosynochus beverleyburtonae (Monogenea), Neobenedenia melleni (Monogenea), Pseudempleurosoma sp. (Monogenea), Helicometrina nimia (Digenea) and larvae of Contracaecum sp. (Nematoda). The prevalence of ectoparasites, in most cases, was higher than endoparasites. The most abundant parasite was the monogenea Pseudorhabdosynochus beverleyburtonae in both wild and cultured fish, along all seasons. Neobenedenia melleni was observed in wild and cultured fish in all seasons, with a gradual increase in the number of parasites from the coldest to the hottest seasons, with the highest prevalence and mean intensity in the summer. Helicometrina nimia was found in all seasons in both wild and cultured fish, except for summer, where its presence was detected only in wild fish. Pseudempleurosoma sp. and larvae of Contracaecum sp. showed low prevalence occurring in wild and cultured fish in the autumn and spring, respectively. This study revealed high intensities of potentially pathogenic parasites that could favour disease outbreaks in culture conditions.


Este estudo teve como objetivo identificar e quantificar os parasitos da garoupa verdadeira Epinephelus marginatus selvagem e cultivada. Durante um ano, nas quatro estações, 20 garoupas selvagens e 20 cultivadas foram examinadas quanto à presença de parasitos, exceto na última estação, em que foram examinados 19 peixes selvagens e 20 cultivados, totalizando 159 peixes examinados em Ubatuba, Sudeste do Brasil. A prevalência, intensidade média de infecção, abundância média and dominância média relativa foram calculados. Cinco espécies de parasitos foram identificadas nos peixes de ambas as origens: Pseudorhabdosynochus beverleyburtonae (Monogenea), Neobenedenia melleni (Monogenea), Pseudempleurosoma sp. (Monogenea), Helicometrina nimia (Digenea) e larvas de Contracaecum sp. (Nematoda). A prevalência de ectoparasitos foi, na maioria das vezes, maior do que a de endoparasitos. O parasito mais abundante foi o monogenea Pseudorhabdosynochus beverleyburtonae em ambos os peixes selvagens e cultivados, durante todas as estações. Neobenedenia melleni foi observado e, peixes selvagens e cultivados em todas as estações, com aumento gradativo no número de parasitos das estações mais frias para as mais quentes, com as maiores prevalências e intensidades médias no verão. Helicometrina nimia foi encontrado em todas as estações em ambos os peixes selvagens e cultivados, exceto no verão, em que foi observada sua presença apenas em peixes selvagens. Pseudempleurosoma sp. e larvas de Contracaecum sp. apresentaram baixas prevalências, ocorrendo em peixes selvagens e cultivados no outono e na primavera, respectivamente. Este estudo revelou altas intensidades de parasitos potencialmente patogênicos que podem favorecer surtos de doenças em situações de cultivo.


Subject(s)
Animals , Seasons , Nematoda/pathogenicity , Fishes/parasitology , Platyhelminths/pathogenicity , Brazil
15.
Parasitol Res ; 112(1): 199-205, 2013 Jan.
Article in English | MEDLINE | ID: mdl-23052760

ABSTRACT

As part of a biological inventory of the Rio Lacantún basin in the Biosphere Reserve of Montes Azules from Chiapas State (southeastern, Mexico), the following monogenoid ectoparasites infecting the external surface of the anal opening and the gill lamellae of the freshwater fish Astyanax aeneus (Characidae) in ten streams were found: Cacatuocotyle chajuli sp. nov. (anus), Cacatuocotyle exiguum sp. nov., and Cacatuocotyle sp. (gill lamellae). C. chajuli is differentiated from its single congener, Cacatuocotyle paranaensis (Boeger et al. Syst Parasitol 36:75-78, 1997), from the gills of Characidium lanei (Characidae) from Paraná Brazil, in having a noticeably V-shaped haptoral bar and larger hooks and anchors. C. exiguum differs from these two latter species in the size of its anchors. Illustrations and data on morphological and biometric variability of individual specimens of C. chajuli and C. exiguum from different streams are provided. The present data support the statement about three species of Astyanax, which harbor the richest monogenoidean diversity in the Neotropics with a total of 18 species reported up to now. Occurrences of species of Cacatuocotyle on different sites of infection on three distant host species [including a Neotropical cichlid (Cichlidae) species] suggest that these monogenoideans switching to new hosts can result in the availability of potential hosts within the same habitat instead of showing signs of preferential switching between closely related hosts or on their respective microhabitats.


Subject(s)
Cestode Infections/veterinary , Characidae/parasitology , Fish Diseases/parasitology , Platyhelminths/classification , Platyhelminths/pathogenicity , Anal Canal/parasitology , Animals , Cestode Infections/parasitology , Gills/parasitology , Mexico , Microscopy , Platyhelminths/anatomy & histology , Platyhelminths/isolation & purification
16.
PLoS One ; 7(7): e39506, 2012.
Article in English | MEDLINE | ID: mdl-22808040

ABSTRACT

Theory predicts that sexual reproduction promotes disease invasion by increasing the evolutionary potential of the parasite, whereas asexual reproduction tends to enhance establishment success and population growth rate. Gyrodactylid monogeneans are ubiquitous ectoparasites of teleost fish, and the evolutionary success of the specious Gyrodactylus genus is thought to be partly due to their use of various modes of reproduction. Gyrodactylus turnbulli is a natural parasite of the guppy (Poecilia reticulata), a small, tropical fish used as a model for behavioural, ecological and evolutionary studies. Using experimental infections and a recently developed microsatellite marker, we conclusively show that monogenean parasites reproduce sexually. Conservatively, we estimate that sexual recombination occurs and that between 3.7-10.9% of the parasites in our experimental crosses are hybrid genotypes with ancestors from different laboratory strains of G. turnbulli. We also provide evidence of hybrid vigour and/or inter-strain competition, which appeared to lead to a higher maximum parasite load in mixed infections. Finally, we demonstrate inbreeding avoidance for the first time in platyhelminths which may influence the distribution of parasites within a host and their subsequent exposure to the host's localized immune response. Combined reproductive modes and inbreeding avoidance may explain the extreme evolutionary diversification success of parasites such as Gyrodactylus, where host-parasite coevolution is punctuated by relatively frequent host switching.


Subject(s)
Cestode Infections/veterinary , Fish Diseases/parasitology , Hybridization, Genetic , Platyhelminths/genetics , Poecilia/parasitology , Animals , Biological Evolution , Cestode Infections/parasitology , Female , Genetic Fitness , Genotyping Techniques , Host-Parasite Interactions , Male , Microsatellite Repeats , Platyhelminths/growth & development , Platyhelminths/pathogenicity , Reproduction , Species Specificity
17.
PLoS One ; 6(8): e22634, 2011.
Article in English | MEDLINE | ID: mdl-21897838

ABSTRACT

BACKGROUND: Infection incidence increases with the average number of contacts between susceptible and infected individuals. Contact rates are normally assumed to increase linearly with host density. However, social species seek out each other at low density and saturate their contact rates at high densities. Although predicting epidemic behaviour requires knowing how contact rates scale with host density, few empirical studies have investigated the effect of host density. Also, most theory assumes each host has an equal probability of transmitting parasites, even though individual parasite load and infection duration can vary. To our knowledge, the relative importance of characteristics of the primary infected host vs. the susceptible population has never been tested experimentally. METHODOLOGY/PRINCIPAL FINDINGS: Here, we examine epidemics using a common ectoparasite, Gyrodactylus turnbulli infecting its guppy host (Poecilia reticulata). Hosts were maintained at different densities (3, 6, 12 and 24 fish in 40 L aquaria), and we monitored gyrodactylids both at a population and individual host level. Although parasite population size increased with host density, the probability of an epidemic did not. Epidemics were more likely when the primary infected fish had a high mean intensity and duration of infection. Epidemics only occurred if the primary infected host experienced more than 23 worm days. Female guppies contracted infections sooner than males, probably because females have a higher propensity for shoaling. CONCLUSIONS/SIGNIFICANCE: These findings suggest that in social hosts like guppies, the frequency of social contact largely governs disease epidemics independent of host density.


Subject(s)
Behavior, Animal , Cestode Infections/veterinary , Fish Diseases/epidemiology , Fish Diseases/transmission , Platyhelminths/pathogenicity , Poecilia/parasitology , Animals , Cestode Infections/epidemiology , Cestode Infections/transmission , Female , Interpersonal Relations , Male , Time Factors
18.
Parasitology ; 138(13): 1778-92, 2011 Nov.
Article in English | MEDLINE | ID: mdl-21767431

ABSTRACT

One of the major threats to biodiversity involves biological invasions with direct consequences on the stability of ecosystems. In this context, the role of parasites is not negligible as it may enhance the success of invaders. The red-eared slider, Trachemys scripta elegans, has been globally considered among the worst invasive species. Since its introduction through the pet trade, T. s. elegans is now widespread and represents a threat for indigenous species. Because T. s. elegans coexists with Emys orbicularis and Mauremys leprosa in Europe, it has been suggested it may compete with the native turtle species and transmit pathogens. We examined parasite transfer from American captive to the two native species that co-exist in artificial pools of a Turtle Farm in France. As model parasite species we used platyhelminth worms of the family Polystomatidae (Monogenea) because polystomes have been described from American turtles in their native range. Phylogenetic relationships among polystomes parasitizing chelonian host species that are geographically widespread show patterns of diversification more complex than expected. Using DNA barcoding to identify species from adult and/or polystome eggs, several cases of host switching from exotic to indigenous individuals were illustrated, corroborating that parasite transmission is important when considering the pet trade and in reintroduction programmes to reinforce wild populations of indigenous species.


Subject(s)
Animals, Wild/parasitology , Helminthiasis, Animal/transmission , Host-Parasite Interactions , Introduced Species , Phylogeny , Platyhelminths/pathogenicity , Turtles/parasitology , Animals , Electron Transport Complex IV/genetics , Fresh Water , Helminthiasis, Animal/epidemiology , Helminthiasis, Animal/parasitology , Platyhelminths/classification , Platyhelminths/genetics , Platyhelminths/physiology , Polymerase Chain Reaction , Sequence Analysis, DNA , Species Specificity
19.
Folia Parasitol (Praha) ; 58(1): 27-34, 2011 Mar.
Article in English | MEDLINE | ID: mdl-21539136

ABSTRACT

Parasites with high host specificity maximally depend on their hosts, which should increase the likelihood of coevolution. However, coevolution requires reciprocal selection exerted by the host and the parasite, and thus a considerable level of parasite virulence. In species of the monogenean ectoparasite genus Gyrodactylus consecutive generations are confronted with a single host, which may constrain the evolution of virulence. Transmission, which is often important in the ecology of Gyrodactylus species, may have the opposite effect, but may also lead to the avoidance of coevolutionary arms races. We investigated the potential outcome of coevolution between Gyrodactylus gasterostei Gläser, 1974 and its host, the three-spined stickleback (Gasterosteus aculeatus L.) by determining the strength of genotype by genotype (GxG) interactions on two levels: within and between sympatric and allopatric host populations. To do so, we compared the parasite's infection dynamics on laboratory-reared sympatric (Belgian) and allopatric (German) hosts. We found that a parasite line successfully infected a range of sympatric host genotypes (represented by families), while it failed to establish on allopatric hosts. Phylogeographic studies suggest that neutral genetic divergence between the host populations cannot explain this dramatic difference. Provided that this result can be generalised towards other parasite lines, we conclude that coevolution in this host-parasite system is more likely to lead to local adaptation on the population level than to GxG interactions within populations.


Subject(s)
Fish Diseases/parasitology , Host Specificity , Platyhelminths/pathogenicity , Smegmamorpha/parasitology , Trematode Infections/veterinary , Adaptation, Physiological , Animals , Biological Evolution , Ecology , Phylogeography , Platyhelminths/physiology , Time Factors , Trematode Infections/parasitology , Virulence
20.
Naturwissenschaften ; 97(11): 997-1002, 2010 Nov.
Article in English | MEDLINE | ID: mdl-20853096

ABSTRACT

Platydemus manokwari is a broadly distributed invasive terrestrial flatworm that preys heavily on land snails and has been credited with the demise of numerous threatened island faunas. We examined whether P. manokwari tracks the mucus trails of land snail prey, investigated its ability to determine trail direction, and evaluated prey preference among various land snail species. A plastic treatment plate with the mucus trail of a single species and a control plate without the trail were placed side by side at the exit of cages housing P. manokwari. All trials were then videotaped overnight. The flatworms moved along plates with mucus trails, but did not respond to plates without trails, blank control (distilled water), or with conspecific flatworm trails. When presented at the midpoint of a snail mucus trail, the flatworms followed the trail in a random direction. The flatworms showed a preference when choosing between two plates, each with a mucus trail of different land snail species. Our results suggest that P. manokwari follows snail mucus trails based on chemical cues to increase the chance of encountering prey; however, trail-tracking behavior showed no directionality.


Subject(s)
Platyhelminths/pathogenicity , Predatory Behavior , Snails/parasitology , Animals , Feeding Behavior , Planarians/physiology
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