The cytogenetics of Acanthocephala is a neglected area in the study of this group of endoparasites. Chromosome number and/or karyotypes are known for only 12 of the 1,270 described species, and molecular cytogenetic data are limited to rDNA mapping in two species. The standard karyological technique and mapping of 18S rRNA and H3 histone genes on the chromosomes of Acanthocephalus anguillae individuals from three populations, one of which originated from the unfavorable environmental conditions of the Zemplínska Šírava reservoir in eastern Slovakia, were applied for the first time. All specimens had 2n = 7/8 (male/female); n = 1m + 1m-sm + 1a + 1a (X). Fluorescence in situ hybridization (FISH) revealed three loci of 18S rDNA on two autosomes and dispersion of H3 histone genes on all autosomes and the X chromosome. In addition to the standard A chromosome set, 34% of specimens from Zemplínska Šírava possessed a small acrocentric B chromosome, which was always found to be univalent, with no pairing observed between the B chromosome and the A complement. The B chromosome had a small amount of heterochromatin in the centromeric and telomeric regions of the chromosomal arms and showed two clusters of H3 genes. It is well known that an environment permanently polluted with chemicals leads to an increased incidence of chromosomal rearrangements. As a possible scenario for the B chromosome origin, we propose chromosomal breaks due to the mutagenic effect of pollutants in the aquatic environment. The results are discussed in comparison with previous chromosome data from Echinorhynchida species.

TITLE: Analyse chromosomique et présence de chromosomes B chez le parasite de poisson Acanthocephalus anguillae (Palaeacanthocephala, Echinorhynchida). ABSTRACT: La cytogénétique des Acanthocephala est un domaine négligé dans l’étude de ce groupe d’endoparasites. Le nombre de chromosomes et/ou les caryotypes ne sont connus que pour 12 des 1270 espèces décrites, et les données cytogénétiques moléculaires se limitent à la cartographie de l’ADNr chez deux espèces. La technique caryologique standard et la cartographie des gènes de l’ARNr 18S et de l’histone H3 ont été appliquées pour la première fois sur les chromosomes d’individus d’Acanthocephalus anguillae provenant de trois populations, dont l’une dans les conditions environnementales défavorables du réservoir de Zemplínska Šírava dans l’est de la Slovaquie. Tous les spécimens avaient 2n = 7/8 (mâle/femelle); n = 1m + 1m-sm + 1a + 1a (X). La technique FISH a révélé trois locus d’ADNr 18S sur deux autosomes et une dispersion des gènes de l’histone H3 sur tous les autosomes et sur le chromosome X. En plus de l’ensemble standard de chromosomes A, 34 % des spécimens de Zemplínska Šírava possédaient un petit chromosome B acrocentrique, qui s’est toujours révélé univalent, sans aucun appariement observé entre le chromosome B et le complément A. Le chromosome B avait une petite quantité d’hétérochromatine dans les régions centromériques et télomériques des bras chromosomiques et présentait deux groupes de gènes H3. Il est bien connu qu’un environnement pollué en permanence par des produits chimiques entraîne une incidence accrue de réarrangements chromosomiques. Comme scénario possible pour l’origine du chromosome B, nous proposons des cassures chromosomiques dues à l’effet mutagène des polluants du milieu aquatique. Les résultats sont discutés en comparaison avec les données chromosomiques précédentes des espèces d’Echinorhynchida.

• Keywords
• 18S rDNA, B chromosomes, Fluorescence in situ hybridization, H3 histone, Karyotype, PCB pollution,
• MeSH
• Acanthocephala * genetics   MeSH
• Histones genetics   MeSH
• In Situ Hybridization, Fluorescence methods   MeSH
• Karyotype MeSH
• Humans MeSH
• Chromosome Mapping methods   MeSH
• Parasites * genetics   MeSH
• DNA, Ribosomal genetics   MeSH
• Animals MeSH
• Check Tag
• Humans MeSH
• Male MeSH
• Female MeSH
• Animals MeSH
• Publication type
• Journal Article MeSH
• Names of Substances
• Histones MeSH
• DNA, Ribosomal MeSH

BACKGROUND: Monogeneans, in general, show a range of unique adaptations to a parasitic lifestyle, making this group enormously diverse. Due to their unique biological properties, diplozoid monogeneans represent an attractive model group for various investigations on diverse biological interactions. However, despite numerous studies, there are still gaps in our knowledge of diplozoid biology and morphofunctional adaptations. RESULTS: In this study, we provide a comprehensive microscopic analysis of systems/structures involved in niche searching, sensing and self-protection against the host environment, and excretory/secretory processes in Eudiplozoon nipponicum. Freeze-etching enabled us to detect syncytium organisational features not visible by TEM alone, such as the presence of a membrane subjacent to the apical plasma membrane (separated by a dense protein layer) and a lack of basal plasma membrane. We located several types of secretory/excretory vesicles and bodies, including those attached to the superficial membranes of the tegument. Giant unicellular glands were seen accumulating predominantly in the apical forebody and hindbody haptor region. Muscle layer organisation differed from that generally described, with the outer circular and inner longitudinal muscles being basket-like interwoven by diagonal muscles with additional perpendicular muscles anchored to the tegument. Abundant muscles within the tegumentary ridges were detected, which presumably assist in fixing the parasite between the gill lamellae. Freeze-etching, alongside transmission electron and confocal microscopy with tubulin labelling, enabled visualisation of the protonephridia and nervous system, including the peripheral network and receptor innervation. Three types of receptor were identified: 1) uniciliated sensory endings with a subtle (or missing) tegumentary rim, 2) obviously raised uniciliated receptors with a prominent tegumentary rim (packed with massive innervation and muscles) and 3) non-ciliated papillae (restricted to the hindbody lateral region). CONCLUSIONS: This study points to specific morphofunctional adaptations that have evolved in diplozoid monogeneans to confront their fish host. We clearly demonstrate that the combination of different microscopic techniques is beneficial and can reveal hidden differences, even in much-studied model organisms such as E. nipponicum.

• Keywords
• Excretory system, Freeze-etching, Host-parasite interactions, Immunofluorescence, Musculature, Nervous system, Secretion, Sensory structures, Tegument, Ultrastructure,
• Publication type
• Journal Article MeSH

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.

• MeSH
• Ectoparasitic Infestations parasitology   MeSH
• Host-Parasite Interactions MeSH
• Microscopy, Confocal MeSH
• Microscopy, Electron, Scanning MeSH
• Platyhelminths anatomy & histology   pathogenicity   MeSH
• Fishes parasitology   MeSH
• Animals MeSH
• Check Tag
• Animals MeSH
• Publication type
• Journal Article MeSH
• Research Support, Non-U.S. Gov't MeSH

BACKGROUND: Species of Diplozoon Palombi, 1949 (Monogenea: Diplozoidae) are blood-feeding ectoparasites mainly parasitising the gills of cyprinid fishes. Although these parasites have been the subject of numerous taxonomic, phylogenetic and ecological studies, the ultrastructure of the surface and haptor attachment structures remains almost unknown. In this study, we used transmission electron microscopy to examine the ultrastructure of attachment clamps and neodermal surface of Paradiplozoon homoion (Bychowsky & Nagibina, 1959), family Diplozoidae Palombi, 1949, thereby broadening our knowledge of platyhelminth biology. RESULTS: The hindbody surface of P. homoion is distinctly ridged, each ridge being supported by several muscle fibers and equipped with scales on the surface plasma membrane. Such structures have not been recorded previously in species of the family Diplozoidae. Comparisons of the surface structure of different body parts revealed slight differences in the thickness and number of organelles. Each of the clamps has a flattened bowl-like structure composed of sclerites, movable skeletal-like structures that are anchored by robust, radially oriented muscle bundles. The base of the posterior median plate sclerites is equipped with glandular cells possessing secretory vesicles. CONCLUSION: This study brings detailed ultrastructural data for the surface and haptoral attachment clamps of P. homoion and provides new insights into the ultrastructure of Diplozoidae. Glandular cells at the base of the attachment clamps responsible for sclerite development in diplozoid species were observed for the first time. Our findings support the hypothesis that the structure of particular neodermal compartments is similar within the Platyhelminthes. On the other hand, the diplozoid glandular system and the mechanism of sclerite development clearly merits further attention.

• Keywords
• Attachment clamps, Neodermis, Paradiplozoon homoion, Tegument, Ultrastructure,
• MeSH
• Cyprinidae parasitology   MeSH
• Phylogeny MeSH
• Trematode Infections parasitology   veterinary   MeSH
• Fish Diseases parasitology   MeSH
• Microscopy, Electron, Transmission MeSH
• Trematoda isolation & purification   physiology   ultrastructure   MeSH
• Gills parasitology   MeSH
• Animals MeSH
• Check Tag
• Animals MeSH
• Publication type
• Journal Article MeSH

Diplozoons are representatives of blood-feeding ectoparasites from the family Diplozoidae (Polyopisthocotylea, Monogenea). Although these worms have been the subject of numerous taxonomical, phylogenetic, and ecological studies, the detailed study of their excretory system has remained relatively neglected. Our observations focused on the morphological and ultrastructural features of the excretory apparatus of four diplozoid species: Diplozoon paradoxum, Eudiplozoon nipponicum, Paradiplozoon bliccae, and Paradiplozoon homoion. Observations were obtained using two microscope methods: light microscopy, equipped with differential interference contrast (Nomarski DIC) and transmission electron microscopy (TEM). The ultrastructure of two basic compartments which forms the excretory apparatus, flame cells with filtration apparatus, and canal cells forming the protonephridial ducts is revealed in this study. A unique consecutive sequence of longitudinal semi-thin sections of the excretory pore of E. nipponicum is visualized there for the first time.

• Keywords
• Diplozoidae, Excretory system, Flame cell, Monogenea, Protonephridia, Ultrastructure,
• MeSH
• Species Specificity MeSH
• Trematoda ultrastructure   MeSH
• Animals MeSH
• Check Tag
• Animals MeSH
• Publication type
• Journal Article MeSH
• Research Support, Non-U.S. Gov't MeSH