Showing papers on "Ultrastructure published in 2008"

Ultrastructure of rapidly frozen and freeze-substituted germ tubes of an arbuscular mycorrhizal fungus and localization of polyphosphate

Abstract: In arbuscular mycorrhizas (AM), the supply of phosphorus from the fungi is one of the most important benefits to the host plant. Here we describe for the first time the ultrastructure and polyphosphate (poly P) distribution in rapidly frozen and freeze-substituted germ tubes of the AM fungus Gigaspora margarita. At the ultrastructural level, phosphorus distribution was analysed using energy-filtering transmission electron microscopy, and poly P was detected using an enzyme-affinity method. Semithin sections and live cells were also stained with 4',6-diamidino-2-phenylindole, which is not specific but fluoresces yellow when viewed under UV irradiation by binding with poly P. The cryotechnique method showed that extensive elongate ellipsoid vacuoles containing a uniform electron-opaque material occupied most of the cell volume. Combining the results of multiple methods revealed that poly P was localized in a dispersed form in vacuoles and in the outer fungal cell wall. These results show the significant potential of AM fungi for phosphorus storage based on its localization in the extensive complement of vacuoles in thick hyphae. The mechanism of translocation of poly P in tubular vacuoles, and the role of poly P in the cell wall, need to be elucidated.

Ultrastructure of Aeluropus littoralis leaf salt glands under NaCl stress

Abstract: The effects of salt uptake on the morphology and ultrastructure of leaf salt glands were investigated in Aeluropus littoralis plants grown for two months in the presence of 400 mM NaCl. The salt gland is composed of two linked cells, as observed in some other studied Poaceae species. The cap cell, which protrudes from the leaf surface, is smaller than the basal cell, which is embedded in the leaf mesophyll tissues and bears the former. The cuticle over the cap cell is frequently separated from the cell wall to form a cavity where salts accumulate prior to excretion. The basal cell cytoplasm contains an extensive intricate or partitioning membrane system that is probably involved in the excretion process, which is absent from the cap cell. The intricate membrane system seems to be elongated and heavily loaded with salt. The presence of 400 mM NaCl induced the disappearance of the collecting chamber over the glands and an increase in the number of vacuoles and their size in both gland cells. In the basal cell, salt greatly increased both the density and size of the intricate membrane system. The electron density of both gland cells observed under salt treatment reflects a high activity. All these changes probably constitute special adaptations for dealing with salt accumulation in the leaves. Despite the high salt concentration used, no serious damage occurred in A. littoralis salt gland ultrastructure, which consolidates the assumption that they are naturally designated for this purpose.

Effects of ultraviolet radiation and temperature on the ultrastructure of zoospores of the brown macroalga Laminaria hyperborea

Abstract: The interactive effects of an 8 h exposure to UV radiation and altered temperatures on the ultrastructure and germination of zoospores of the sublittoral brown alga Laminaria hyperborea (Gunn.) Foslie were investigated for the first time. Spores were exposed to four temperatures (2, 7, 12 and 17 degrees C) and three light regimes (PAR, PAR + UV-A, PAR + UV-A+UV-B). Freshly-released spores of L. hyperborea lack a cell wall and contain a nucleus with fine granular nucleoplasm and a nucleolus, one chloroplast, several mitochondria, dictyosomes and an endoplasmatic reticulum. Further, several kinds of so-called adhesive vesicles, lipid globuli and physodes containing UV-absorbing phlorotannins are embedded in the cytoplasm. No eye-spot is present. Physodes were found but they were rare and small. After an 8 h exposure to UV-B, the nucleoplasm had a mottled structure, chloroplasts contained plastoglobuli, the structure of the mitochondria changed from crista- to sacculus-type and germination was strongly inhibited at all temperatures. UV-A only had an impact on the ultrastructure at the highest temperature tested. The strongest effects were found at 17 degrees C, where germination was reduced to 35%, 32% and 9% after exposure to PAR, PAR+UV-A and PAR + UV-A + UV-B, respectively. This study indicates that UV-B radiation has strong damaging effects on the physiology and ultrastructure of zoospores of L. hyperborea. The results are important for developing scenarios for the effect of enhanced UV radiation and increasing temperatures caused by global climate changes.

In vivo immunogold labeling confirms large-scale chromatin folding motifs

Abstract: The difficulty in localizing specific cellular proteins by immuno-electron microscopy techniques limits applications of electron microscopy to cell biology. We found that in vivo immunogold labeling improves epitope accessibility, ultrastructural preservation and three-dimensional visualization, and allows correlated light and electron microscopy. We detected large-scale chromatin folding motifs within intact interphase nuclei of CHO cells and visualized the ultrastructure of DNA replication 'factories' labeled with GFP–proliferating cell nuclear antigen (PCNA).

Analyzing morphological and ultrastructural features in cell death.

Abstract: Diverse forms of cell death have initially been described thanks to their observation at the electron microscope. Morphological and ultrastructural features of necrosis, apoptosis, and autophagy, considered here as prototypic cell death processes, allow one to characterize and quantify early and late cytopathological changes occurring in cells undergoing degeneration. Both light microscopy and scanning electron microscopy can provide useful insights, for example, to quantitatively evaluate cell death or to characterize cell surface changes of the cells, respectively. However, transmission electron microscopy preparation allows distinguishing among different forms of cell death. This chapter describes in brief the methods used to characterize cell death forms, including membrane, nucleus, and organelle changes, and shows paradigmatic micrographs. In particular, morphogenetic changes occurring in mitochondria during apoptosis, that is, fission process or, conversely, vacuole formation during autophagy, are shown. Possible artifacts are also described. Ultrastructural analysis seems still to provide essential information for studies on cell death.

The effects of high-power microwaves on the ultrastructure of Bacillus subtilis.

Abstract: Aims: To investigate the microbicidal mechanisms of high-power microwave (2·0 kW) irradiation on Bacillus subtilis and to determine the effect of this procedure on the ultrastructure of the cell wall. Methods and Results: We performed viability test, examined cells using transmission electron microscopy (TEM), and measured the release of intracellular proteins and nucleic acids. The inactivation rate of B. subtilis by 2·0-kW microwave irradiation was higher than that of a domestic microwave (0·5 kW). Few proteins were released from either microwaved or boiled cells. However, the leakage of nucleic acids from 2·0-kW-microwaved cells was significantly higher than that of 0·5-kW-microwaved or boiled cells. Therefore, we examined ultrastructural alterations of microwaved or boiled cells to analyse the pattern of release of cytoplasmic contents. Although boiled cells did not show any ultrastructural changes on TEM, 2·0-kW-microwaved cells showed disruption of the cell wall. Conclusion: The microbicidal mechanisms of 2·0-kW microwave irradiation include damage to the microbial cell wall, breakage of the genomic DNA, and thermal coagulation of cytoplasmic proteins. Significance and Impact of the Study: TEM images showed that the cytoplasmic protein aggregation and cell envelope damage by microwave irradiation were different from the ultrastructural changes observed after boiling.

Ultrastructural and cytochemical studies on the infection process of Sclerotinia sclerotiorum in oilseed rape

Abstract: Stem rot, caused by Sclerotinia sclerotiorum (Lib.) de Bary, is one of the major diseases of oilseed rape worldwide. The infection process of S. sclerotiorum in leaves and stems and the alterations of cell wall components in the infected host tissues were examined by electron microscopy and cytochemical labelling techniques. One day after inoculating (dai) leaves and stems with fungal grown agar disks, dense mycelial networks were usually formed on the inoculated tissues. Then, the infection cushions of different size were developed. Mucilage produced by the pathogen covered mycelium and infection cushions. Hyphae forming infection cushions were often flattened and increased in diameter. After removing the infection cushions, the diameters of the numerous pores through which penetration pegs had entered the cuticle of leaves and stems were small and had almost the same diameter. Penetration of leaves and stems occurred 2 and 3 dai, respectively. Small changes in cuticle were observed. After penetration, hyphae of the pathogen extended between the cuticle and epidermal cell walls as well as inside the epidermal cell walls. Then inter- and intra-cellularly spreading hyphae were observed in the hemi- and ultra-thin sections by light- and transmission electron microscopy, 5 dai. Hyphae also colonized xylem and phloem. During colonization marked alterations in the host tissues were detected, including disorganization of cytoplasm, cell organelles, disintegration of cell walls and collapse of host cells. The enzyme- and immunogold-labelling investigations showed obvious degradation of cellulose, xylan and pectin in the host cell walls of infected tissues. The degradation of cell wall components suggests that the pathogen may secrete cell wall degrading enzymes (Cwdes) such as cellulases, xylanases and pectinases during infection and spreading in the oilseed rape tissues.

Ascophyllum and its symbionts. X. Ultrastructure of the interaction between A. nodosum (Phaeophyceae) and Mycophycias ascophylli (Ascomycetes)

Abstract: The symbiosis of a brown alga, Ascophyllum nodosum (L.) Le Jolis and its obligate fungal symbiont, Mycophycias ascophylli (Cotton) Kohlmeyer and Volkmann-Kohlmeyer, was studied using transmission electron microscopy. A high quality of cell preservation was achieved after propane-freezing and freeze substitution; this allowed us to observe the interaction of the symbiosis without extensive artifacts. The fungus was found in the middle portion of cortical-cell walls, and at the edge of medullary cells and air-bladder filaments, but never close to host cell protoplasm. Host cell-wall modification was limited to a short distance around the hyphae. A sheath with electron-dense materials around the fungus was found in the older hyphae, but not in the hyphal tips. A range of hyphal ultrastructure was observed from cells with dense cytoplasm, absent to slight vacuolation and with well-defined organelles, to highly vacuolated cells with little cytoplasm and poorly defined organelles, to senescent cells that were o...

First investigation of the collagen D-band ultrastructure in fossilized vertebrate integument

Abstract: The ultrastructure of dermal fibres of a 200 Myr thunniform ichthyosaur, Ichthyosaurus , specifically the 67 nm axial repeat D -banding of the fibrils, which characterizes collagen, is presented for the first time by means of scanning electron microscopy (SEM) analysis. The fragment of material investigated is part of previously described fossilized skin comprising an architecture of layers of oppositely oriented fibre bundles. The wider implication, as indicated by the extraordinary quality of preservation, is the robustness of the collagen molecule at the ultrastructural level, which presumably contributed to its survival during the initial processes of decomposition prior to mineralization. Investigation of the elemental composition of the sample by SEM–energy dispersive X-ray spectroscopy indicates that calcite and phosphate played important roles in the rapid mineralization and fine replication of the collagen fibres and fibrils. The exceedingly small sample used in the investigation and high level of information achieved indicate the potential for minimal damage to prized museum specimens; for example, ultrastructural investigations by SEM may be used to help resolve highly contentious questions, for example, ‘protofeathers’ in the Chinese dinosaurs.

Ultrastructure of Anterior Uterus of the Oviduct and the Stored Sperm in Female Soft-Shelled Turtle, Trionyx sinensis

Abstract: Ultrastructure of sperm storage in female soft-shelled turtle, Trionyx sinensis was examined under light and electron microscopes. Sperm storage tubules are restricted to the anterior of the uterus. These tubules developed either by folding or fusion of the oviductal mucosal folds and are lined by both ciliated and secretory cells. Ciliated cells are characterized by a few microvilli and prominent cilia in the apical membranes. A prominent feature of the secretory cell is the presence of secretory granules in the supranuclear region. The size, shape, and electron density of these granules vary markedly. The secretory product is released mainly by exocytosis into the oviductal lumen, where it appears as flocculent material. The unique structure in the base of the epithelium, the basal border of the cell -- the basal lamina -- and a blood vessel layer, is presumed to be a important barrier, by which the nourishment exchange and the microenvironment maintenance are ensured. The gland cell is presented with numerous, round, membrane-bound secretory granules of moderate to high electron densities. We divide these granules into three types according to their appearance: (1) membrane bounded granules with high-homogeneous electron density, (2) membrane bounded granules with moderate-homogeneous electron density, (3) membrane bounded, electron dense granules with concentric structures. These granules are presented as different stages of the secretions in the gland cell. The junction complexes are markedly distributed between cells, which are important in keeping stability and the microenvironment maintenance of the sperm storage tubules. Sperm stored in the tubules are heterogeneous in cytology. In addition to the mature sperm in the lumen, sperm with large chromatic granules are found, which are presumed to be immature sperm and are being in the process of nuclear condensation. Several spermatozoa in the tubules are exhibited with definitive indications of degeneration of the nuclei. The nuclear volume increases. The electron density of the central cores in mitochondria declines, combined with the deterioration of concentric membrane structure. Those changes are possibly due to the long time storage of the sperm in sperm storage tubules, and the leakage of reactive oxygen species is suggested to be a major cause. We conclude that the ultrastructure character of sperm storage in the oviduct of Trionyx sinensis is unique, in addition to having a basal function in secretion and the cilia swing, the tubules also provide an available microenvironment for the sperm to long time stored. The degenerative sperm in the tubules might be related to paternity-specific reproductive adaptations, and the sperm competition might occur during long time storage.

Electron microscopic study of the porcine choroid plexus epithelium.

Abstract: The choroid plexus (CP) is a highly vascularized organ in the brain ventricles which acts as the main producer of cerebrospinal fluid (CSF). A study of the surface ultrastructure of the porcine CP was performed using scanning and transmission electron microscopy. The vascular walls of the capillaries were fenestrated. Epiplexus cells of different morphology were abundant on top of the epithelial surface. Two types of epithelial cells were present, characterized by the presence or absence of microvilli. Some epithelial cells contained cilia while other cells had large secretory protrusions called blebs. In the choroid epithelium of the lateral ventricles, some cells with large depressions were present. Cells with peduncles, such as recently discovered in the buffalo, could not be recognized. The variability of the choroidal surface structures clearly indicates the active role of the CP in the formation and maintenance of the CSF and its components.

The venom gland of the scorpion species Euscorpius mingrelicus (Scorpiones: Euscorpiidae): morphological and ultrastructural characterization

Abstract: The histology and ultrastructure of venom glands in the scorpion Euscorpius mingrelicus (Kessler, 1874) are described and illustrated in the current study for the first time by employing light microscopy and transmission electron microscopy (TEM). The venom apparatus is composed of a pair of venom glands and a stinger, both situated in the last segment of the metasoma. The venom glands are completely separate but similar. The two glands are segregated within the telson by striated muscle bundles, and their outer surfaces are surrounded by a cuticle. An internal layer constitutes the secretory epithelium. This epithelium is made up of simple columnar cells. The nucleus and organelles involved in cellular synthetic activity are situated basally. In the apical portion, near the gland lumen, there are many secretory granules of different sizes, shapes and electron densities.

Cytoarchitecture of Utricularia nutritive tissue.

Abstract: Beginning with light microscopy studies in the late 19th century, the placental “nutritive tissue” in carnivorous plants of Utricularia spp. has been well described by several authors. Based on observations of direct contact between the embryo sac and the “nutritive tissue” and the lack of vascularization of the ovule, it has been suggested that this nutritive tissue plays a key role in the nutrition of the female gametophyte. To date, however, the structure of this tissue has received only scant attention. To fill this knowledge gap, we have characterized its anatomy and histochemistry in more detail and addressed the speculations of a number of earlier researchers. Nutritive tissue during the period of flower opening in three Utricularia species, each belonging to different sections and subgenera (Polypompholyx, Bivalvaria and Utricularia), was examined by light and, in particular, electron microscopy. In all of the investigated species, nutritive tissue cells differ from placental parenchyma cells in having no huge vacuole, no large amyloplasts with starch grains, and no protein inclusions in the nucleus. The funicular nutritive tissue in U. dichotoma consists of active cells with a secretory character, while U. sandersonii has a small placental nutritive tissue consisting of colenchymatous cells accumulating lipids. The most complex nutritive tissue occurs in aquatic U. intermedia, which occupies a derived position in the genus phylogeny. In this latter species, the cells of this tissue resemble meristematic cells in having a relatively large nucleus, thin cell walls, and reduced vacuoles, but the well-developed endoplasmic reticulum (ER) in some cells is similar to that in secretory cells. The cytoplasm is rich in microtubules, some of which are in close contact with the ER cisternae. We found very thick cell walls between nutritive tissue cells and parenchyma cells, but plasmodesmata between these types of cells are rare. Similarities in both the position and structure of nutritive tissue in Polypompholyx and section Pleiochasia support their classification together in one subgenus, based on results from a molecular study. The position and structure of the nutritive tissue in Utricularia spp. are related to the position of various species in the genus phylogeny.

Changes in cell wall ultrastructure induced by sudden flooding at 25°C in Pisum sativum (Fabaceae) primary roots

Abstract: Cellular degeneration is essential for many developmental and stress acclimation processes. Undifferentiated parenchymatous cells in the central vascular cylinder of pea primary roots degenerate under hypoxic conditions created by flat temperatures > 15 ° C, forming a long vascular cavity that seems to provide a conduit for longitudinal oxygen transport in the roots. We show that specifi c changes in the cell wall ultrastructure accompanied previously detected cytoplasmic and organellar degradation in the cavity-forming roots. The degenerating cells had thinner primary cell walls, less electron-dense middle lamellae, and less abundant cell wall homogalacturonans in altered patterns, compared to healthy cells of roots grown under cold, nonfl ooded conditions. Cellular breakdown and changes in wall ultrastructure, however, remained confi ned to cells within a 50- μ m radius around the root center, even after full development of the cavity. Cells farther away maintained cellular integrity and had signs of wall synthesis, perhaps from tight regulation of wall metabolism over short distances. These observations suggest that the cell degeneration might involve programmed cell death. We also show that warm, nonfl ooded or cold, fl ooded conditions that typically do not induce vascular cavity formation can also induce variations in cell wall ultrastructure.

Histology and ultrastructure of the salivary glands in Bulla striata (Mollusca, Opisthobranchia)

Abstract: . The ribbon-shaped salivary glands in Bulla striata were studied with light microscopy and transmission electron microscopy (TEM). Secretion is produced in tubules formed by two types of secretory cells, namely granular mucocytes and vacuolated cells, intercalated with ciliated cells. A central longitudinal duct lined by the same cell types collects the secretion and conducts it to the buccal cavity. In granular mucocytes, the nucleus is usually central and the secretory vesicles contain oval-shaped granular masses attached to the vesicle membrane. Glycogen granules can be very abundant, filling the space around the secretory vesicles. These cells are strongly stained by PAS reaction for polysaccharides. Their secretory vesicles are also stained by Alcian blue, revealing acidic mucopolysaccharides, and the tetrazonium reaction detects proteins in minute spots at the edge of the vesicles, corresponding to the granular masses observed in TEM. Colloidal iron staining for acidic mucopolysaccharides in TEM reveals iron particles in the electron-lucent region of the vesicles, while the granular masses are free of particles. In vacuolated cells, which are thinner and less abundant than the granular mucocytes, the nucleus is basal and the cytoplasm contains large electron-lucent vesicles. These vesicles are very weakly colored by light microscopy techniques, but colloidal iron particles could be observed within them. The golf tee-shaped ciliated cells contain some electron-dense lysosomes in the apical region. In these cells, the elongated nucleus is subapically located, and bundles of microfibrils are common in the slender cytoplasmic stalk that reaches the basal lamina. The morphological, histochemical, and cytochemical data showed some similarities between salivary glands in B. striata and Aplysia depilans. These similarities could reflect the phylogenetic relationship between cephalaspidean and anaspidean opisthobranchs or result from a convergent adaptation to an identical herbivorous diet.

Ultrastructural study of a tetratrichomonad isolated from pig fecal samples

Abstract: Trichomonads found in pigs include the commensal Tritrichomonas suis (more well known because of its synonymy to Tritrichomonas foetus, a trichomonad parasite of cattle and other animals) and Tetratrichomonas buttreyi, which appear similar to Tritrichomonas suis under the light microscope. A trichomonad isolated from pig fecal samples was subjected to scanning and transmission electron microscopy for ultrastructural study. The organism’s ultrastructure revealed features commonly found in trichomonads; however, features such as the number and length of flagella, type of undulating membrane, general body form, and shape and location of organelles such as the nucleus, Golgi complex, and hydrogenosomes indicated that the isolated trichomonad is not Tritrichomonas suis nor Tritrichomonas foetus. Polymerase chain reaction (PCR) corroborated these results. Moreover, the ultrastructure was similar to the ultrastructure of previously described tetratrichomonads. It is especially suggested that the isolate is T. buttreyi. These findings could be of significance in the differentiation among different porcine trichomonads in diagnostic procedures. In addition, this is the first known detailed ultrastructural study of T. buttreyi isolated from pigs; thus, this can serve as an aid for future comparison between porcine and bovine T. buttreyi.

Developmental and functional ultrastructure of ornithodiplostomum ptychocheilus diplostomula (trematoda: strigeoidea) during invasion of the brain of the fish intermediate host, pimephales promelas

Abstract: We examined tegumental development of the diplostomulum of Ornithodiplostomum ptychocheilus, with respect to structural transformations that have functional relevance to the invasion, migration, and site establishment processes in the brain of the fish second-intermediate host, Pimephales promelas. Using a combination of brightfield, scanning electron microscopy (SEM), transmission electron microscopy (TEM), and confocal microscopy (CM), we demonstrated that the diplostomula become established in the outer region of the optic lobes within 24–48 hr of penetration and continue to grow and transform over a period of 4–14 days. During this period, the J-shaped body consists of 2 distinct regions: (1) a highly motile prosoma with distinctive tegumental spines and (2) an opisthosoma, the tegument of which is elaborated into a dense uniform layer of long, thin microvilli. The prosoma is alternately invaginated into and everted from the opisthosoma, thus constituting a protrusible proboscis. By day 14 postinfecti...

Histology and ultrastructure of Aedes albopictus larval midgut infected with Bacillus thuringiensis var. israelensis.

Abstract: Histological and ultrastrucutural alterations in the midgut of Aedes albopictus larvae infected with Bacillus thuringiensis var. israelensis (Bti) were observed by light and transmission electron microscopy (TEM). Two formulations of Bti were used: granulated and powder, with 0.2% active ingredient in 90 larvae of Ae. albopictus distributed in three containers containing 30 larvae each (one control group and two test groups). The midgut epithelium of the control group presented flattened and elongated cells with mace-shape with a narrow base. Midgut epithelium cells' surface was convex and had a large circular nucleus located in the median-apical portion of the cell. These cells also presented a basal lamina with a small accumulation of extracellular fibrous matrix, thus characterizing a basal membrane, with a muscle layer and a peritoneal membrane more externally. After Bti ingestion, the larvae stopped/slowed their natural movements down in 5 min. After 30 min approximately, the swimming movements stopped completely. Internally, the intestinal cells showed a disorganization of the basal processes, dilatation and fragmentation of the rough endoplasmic reticulum, with intense cytoplasmic vacuolization. There were concentric dense laminas accumulated in the cytoplasm, and these residual membranous bodies were seen greatly increased in size after 60 min. Mitochondria, fragments of rough endoplasmic reticulum and other remainder organelles were surrounded and segregated from the cytoplasm by exocytosis. This article reports the histopathological alterations in the midgut of Ae. albopictus after infection with Bti and contributes to a better understanding of the mode of action of this bacterial strain used as bioinsecticide against mosquito larvae.

The morphology and ultrastructure of glandular and non-glandular trichomes of Pteronia incana (Asteraceae)

Abstract: The electron microscopical investigation of foliar appendages of Pteronia incana(Burm) has shown that there are two types of trichomes. The non-glandular type which consists of two-four cells forms a dense mass of long fibrous hairs, covering the entire surface of plant. The glandular trichome types which are club-oval shape and consist of several glandular cells. The gland cells of the glandular trichome are characterized by a dense cytoplasm containing osmophilic droplets, various organelles such as modified plastids, endoplasmic reticulum, a large nucleus with a dense cytosol. The secreted material accumulates in a cavity beneath a wall derived from separation of the cuticularized outer wall surface of the top tier of secretory cells and are released to the outside when the cavity ruptures. Only the apical pair of cells participates in secretion. Cells of both types possess plastids without thylakoids. These active compounds secreted by P. incana might be the reason why this plant is unpalatable to livestock. Key words: Pteronia incana, trichomes, oil glands, electron microscope

Ultrastructure of Didymocystis semiglobularis (Didymozoidae, Digenea) cysts in the gills of Pacific bluefin tuna (Thunnus orientalis)

Abstract: Tuna are active pelagic fish with an extraordinary migratory activity, well known for their unique physiology reflected in high metabolic rates. However, knowledge of microbial and environmental diseases is still limited. We have analyzed the ultrastructure of the digenean trematode Didymocystis semiglobularis isolated from the gill arch of Pacific bluefin tuna (Thunnus orientalis) by transmission electron microscopy (TEM). The parasite is demarcated from the rest of host tissue in a sac of host origin, composed of active fibroblast and scattered bundles of collagen tissue, with no macrophage accumulations. TEM micrographs reported in this study reveal a wide multilayered tissue isolating the host from the parasite capsule and more internally complex and compact layers dividing the parasite capsule from the body itself, which encapsulates eggs at different developmental stages. Since the size and shape of the parasite would imply host tissue activation at the site of infection, no histopathological changes were observed in the architecture of the tuna superficial layer. No degeneration or necrosis was observed in the upper layer of the host tissue.