Haemocyte morphology and function in the Akoya Pearl Oyster, Pinctada imbricata

The morphology and cytochemistry of Pinctada imbricata haemocytes were studied in vitro. Three distinct blood cell types were identified; hyalinocytes, granulocytes, and serous cells. Haemocytes were classified based on the presence/absence of granules, and nucleus to cytoplasm ratio. Granulocytes were the most common cell type (62 ± 2.81%), followed by hyalinocytes (36 ± 2.35%), and serous cells (2 ± 0.90%). Granulocytes, and hyalinocytes were found to be immunologically active, with the ability to phagocytose Congo red stained yeast. Of the cells involved in phagocytosis, granulocytes were the most active with 88.8 ± 3.9% of these haemocytes engulfing yeast. Cytochemical stains (phenoloxidase, peroxidase, superoxide, melanin, neutral red) showed that enzymes associated with phagocytic activity were localised in granules within granulocytes. Based on their affinities for Giemsa/May-Grünwald stain, haemocytes were also defined as either acidic, basic or neutral. Hyalinocytes and serous cells were found to be eosinophilic, whilst granulocytes were either basophilic (large granulocytes), eosinophilic (small granulocytes) or a combination of the two (combination granulocytes). Light, differential interference contrast and epi-fluorescence microscopy identified three sub-populations of granulocytes based on size and granularity; small (4.00-5.00 μm in diameter, with small granules (0.05-0.5 μm in diameter), large (5.00-9.00 μm in diameter, with large granules (0.50-2.50 μm in diameter) and combination (5.00-9.00 μm in diameter, with both large and small granules). These observations demonstrate that P. imbricata have a variety of morphologically and functionally specialized haemocytes, many of which maybe associated with immunological functions.     

Immune Defenses of the Invasive Apple Snail Pomacea canaliculata (Caenogastropoda,Ampullariidae): Phagocytic Hemocytes in the Circulation and the Kidney

Hemocytes in the circulation and kidney islets, as well as their phagocytic responses to microorganisms and fluorescent beads, have been studied in Pomacea canaliculata, using flow cytometry, light microscopy (including confocal laser scanning microscopy) and transmission electron microscopy (TEM). Three circulating hemocyte types (hyalinocytes, agranulocytes and granulocytes) were distinguished by phase contrast microscopy of living cells and after light and electron microscopy of fixed material. Also, three different populations of circulating hemocytes were separated by flow cytometry, which corresponded to the three hemocyte types. Hyalinocytes showed a low nucleus/cytoplasm ratio, and no apparent granules in stained material, but showed granules of moderate electron density under TEM (L granules) and at least some L granules appear acidic when labeled with LysoTracker Red. Both phagocytic and non-phagocytic hyalinocytes lose most (if not all) L granules when exposed to microorganisms in vitro. The phagosomes formed differed whether hyalinocytes were exposed to yeasts or to Gram positive or Gram negative bacteria. Agranulocytes showed a large nucleus/cytoplasm ratio and few or no granules. Granulocytes showed a low nucleus/cytoplasm ratio and numerous eosinophilic granules after staining. These granules are electron dense and rod-shaped under TEM (R granules). Granulocytes may show merging of R granules into gigantic ones, particularly when exposed to microorganisms. Fluorescent bead exposure of sorted hemocytes showed phagocytic activity in hyalinocytes, agranulocytes and granulocytes, but the phagocytic index was significantly higher in hyalinocytes.Extensive hemocyte aggregates (''islets'') occupy most renal hemocoelic spaces and hyalinocyte-like cells are the most frequent component in them. Presumptive glycogen deposits were observed in most hyalinocytes in renal islets (they also occur in the circulation but less frequently) and may mean that hyalinocytes participate in the storage and circulation of this compound. Injection of microorganisms in the foot results in phagocytosis by hemocytes in the islets, and the different phagosomes formed are similar to those in circulating hyalinocytes. Dispersed hemocytes were obtained after kidney collagenase digestion and cell sorting, and they were able to phagocytize fluorescent beads. A role for the kidney as an immune barrier is proposed for this snail.     

Hemocytes of Bulinus truncatus rohlfsi (Mollusca: Gastropoda)

Two basic cell types occur in the hemolymph of Bulinus truncatus rohlfsi: granulocytes and hyalinocytes. Granulocytes are divided into three subtypes: (1) Granulocytes I, which account for 19% of the hemocytes, are small, young amoebocytes with 1–20 filopodia and small numbers of cytoplasmic granules, including some lysosomes; (2) granulocytes II, which account for 78% of the cells, are large, fully developed amoebocytes that possess 1–20 filopodia and many granules, both acidophilic and basophilic, including numerous lysosomes, phagosomes, and mitochondria; and (3) spent granulocytes, which are rare, have few filopodia, large accumulations of glycogen granules and prominent vacuoles in addition to lysosomes in the cytoplasm. These three subtypes of granulocytes probably represent ontogenetic stages within a single cell line. In addition, granulocytes with 40 or more filopodia and little ectoplasm, found in only 1 of 45 snails examined, probably reflect a pathologic condition. Hyalinocytes, which account for 3% of all hemocytes, are similar in size to mature granulocytes, but have few or no cytoplasmic granules and lack filopodia and glycogen granules. Total hemocyte concentration in hemolymph is 328,000 ± 188,000 cells/ml.     

Categorization of hemocytes of three gastropod species Trachea vittata (Muller), Pila globosa (Swainson) and Indoplanorbis exustus (Dehays)

Light microscopic observations were made on the hemocytes of three gastropod species namely Trachea vittata, Indoplanorbis exustus and Pila globosa. It revealed two basic types of hemocytes. They are agranulocytes and granulocytes. Agranulocytes are hyalinocytes which are round, unspread hemocytes and have a large nucleo-cytoplasmic ratio. Granulocytes are spreading hemocytes, forming numerous pseudopodia. For the purpose of differential counting, we present a categorization of the granulocytes into three sub-categories based on cell dimensions, nucleo-cytoplasmic ratio, distribution of granules in the cytoplasm and position of the nucleus. The smaller granulocytes are younger cells, and are termed Granulocytes I (Progranulocytes). The larger ones are fully developed cells that have been differentiated into Granulocyte II (basophilic) and Granulocyte III (eosinophilic).     

Characterization of subpopulations and immune-related parameters of hemocytes in the green-lipped mussel Perna viridis

The green-lipped mussel Perna viridis is distributed widely in the estuarine and coastal areas of the Indo-Pacific region and extensively cultured as an inexpensive protein source. Morphology and immunological activities of hemocytes of P. viridis were investigated using flow cytometry and light and electron microscopy. Three major types of hemocytes were identified in the hemolymph, including dense-granulocyte, semi-granulocyte (small and large size) and hyalinocyte. Other hemocytes, which occurred in low numbers, included granulocytes with different electron-dense/lucent granules and hemoblast-like cells. Based on flow cytometry, two subpopulations were identified. Granulocytes were larger cells, and the more abundant, containing numerous granules in the cytoplasm, and hyalinocytes were the smaller and less abundant with the fewest granules. Flow cytometry revealed that the granulocytes were more active in cell phagocytosis, contained the higher lysosomal content, and showed higher esterase activity and reactive oxygen species (ROS) generation compared with hyalinocytes. Immune functions assessed by the flow cytometry indicated that the granulocytes were the main hemocytes involved in the cellular defence in P. viridis.     

Sydney rock oyster (Saccostrea glomerata) hemocytes: morphology and function

In this study, three major hemocyte types were identified in the Sydney rock oyster. They were characterized primarily by light and electron microscopy based on the presence or absence of granules and nucleus to cytoplasm ratios. Hemoblast-like cells were the smallest cell type 4.0+/-0.4microm and comprised 15+/-3% of the hemocyte population. They had large nuclei and scanty basic cytoplasm. This cell type also had some endoplasmic reticuli and mitochondria. The second major type were hyalinocytes. Hyalinocytes represented 46+/-6% of all hemocytes. They were large cells (7.1+/-1.0microm) that had low nucleus:cytoplasm ratios and agranular basic or acidic cytoplasm. Hyalinocytes had the ability to phagocytose yeast cells and formed the core of hemocyte aggregates associated with agglutination. Four discrete sub-populations of hyalinocytes were identified. The third major cell type were the granulocytes, comprising 38+/-1% of the hemocyte population. These cells were large (9.3+/-0.3microm) and were characterized by cytoplasm containing many acidic or basic granules. Granulocytes were more phagocytic than hyalinocytes and they formed the inner layer of hemocytes during the encapsulation of fungal hyphae. Five discrete sub-populations of granulocytes were identified based on the types of granules in their cytoplasm. Flow cytometry showed that the hemocytes of rock oysters could be divided into between two and four major cell types based on their light scattering properties. The most common of the cell types identified by flow cytometry corresponded to hyalinocytes and granulocytes. Cytochemical assays showed that most enzymes associated with immunological activity were localized in granulocytes. Their granules contained acid phosphatase, peroxidase, phenoloxidase, superoxide and melanin. Hyalinocytes were positive only for acid phosphatase. All of these observations suggest that Sydney rock oysters have a broad variety of functionally specialized hemocytes, many of which are involved in host defense.     

Haemocytes of the cockle Cerastoderma glaucum: morphological characterisation and involvement in immune responses

For the first time, morpho-functional characterisation of haemocytes from the cockle Cerastoderma glaucum was performed to identify circulating cell types and to study their involvement in immune responses. Haemocyte mean number was 5.5 (x 10(5)) cells/mL haemolymph. Two main haemocyte types were found in haemolymph: granulocytes (85%), about 10 microm in diameter and with evident cytoplasmic granules, and hyalinocytes (15%), 8 to 14 microm in diameter, with a few or no granules. Most of the cytoplasmic granules stained in vivo with Neutral Red, indicating that they were lysosomes. On the basis of haemocyte staining properties, granulocytes and hyalinocytes were further classified as basophils and acidophils. Acidophil hyalinocytes were the largest haemocyte type (about 14 microm in diameter) and had an eccentric nucleus and a large cytoplasmic vacuole. Both granulocytes and hyalinocytes (except acidophils) were able to phagocytise yeast cells, although the basal phagocytic index was very low (about 2%). It increased significantly (up to 26%) after pre-incubation of yeast in cell-free haemolymph, suggesting that haemolymph has opsonising properties. Haemocytes also produced superoxide anion. Moreover, both granulocytes and hyalinocytes (except acidophils) were positive for some important hydrolytic and oxidative enzymes. Lysozyme-like activity was recorded in both cell-free haemolymph and haemocyte lysate, although enzyme activity in cell lysate was significantly higher. Results indicate that haemocytes from C. glaucum are effective cells in immune responses.     

Morphological characterization and functional immune response of the carpet shell clam (Ruditapes decussatus) haemocytes after bacterial stimulation

The morphology and functionality of Ruditapes decussatus haemocytes have been characterized by light microscopy and flow cytometry, leading to the identification of three different cellular subpopulations. Granulocytes were the largest cells, the hyalinocytes were smaller and contained fewer granules and the intermediate cells showed a size similar to hyalinocytes and a higher number of granules. The phagocytosis of different particles and the associated production of oxygen radicals were measured by flow cytometric methods. Granulocytes were the most active cells, followed by the intermediate cells and hyalinocytes. The effect of stimulation of haemocytes with lipopolysaccharide (LPS), with a heat inactivated bacterial mixture or with the infection of Vibrio splendidus on the cell viability and the expression of selected immune-related genes were studied. While significant low levels of damaged cells were registered in LPS-stimulated cells, the treatment with dead bacteria or V. splendidus reduced cell viability 1 h, 3 h and 6 h after treatment. The stimulation of haemocytes with LPS and dead bacteria induced changes in the expression of defender against cell death (DAD-1), thrombin, prosaposin, inhibitor of apoptosis (IAP), factor B and C3 complement component.     

Interaction of molluscs and foreign substances: The morphology and behavior of hemolymph cells of the American oyster, Crassostrea virginica, in vitro

Hemolymph cells of Crassostrea virginica have been studied in the living state with apochromatic and brightfield-phase contrast microscopy and in the fixed and stained state with brightfield and Nomarski optics. Cells of two size populations have been recognized. The large cells are of two classes: granulocytes and fibrocytes. Granulocytes commonly include mixtures of acidophilic, basophilic, and refractile granules and are believed to be of one general type. Fibrocytes are subcategorized as being of the primary and secondary types, with the first enclosing lobate nuclei and the second enclosing spherical or ovoid nuclei. The small cells, designated as hyalinocytes, are either agranular or slightly granular.     

Acid phosphatase in granulocytic capsules formed in strains of Biomphalaria glabrata totally and partially resistant to Schistosoma mansoni

Cheng T. C. and Garrabrant T. A. 1977. Acid phosphatase in granulocytic capsules formed in strains of Biomphalaria glabrata totally and partially resistant to Schistosoma mansoni. International Journal for Parasitology7: 467–472. Acid phosphatase (EC 3.1.3.2, orthophosphoric monoester phosphohydrolase) has been demonstrated cytochemically in isolated granulocytes from the hemolymph of three strains of Biomphalaria glabrata. This enzyme was not detected in hyalinocytes. By employing acid phosphatase as a marker, it was determined that the cells comprising the capsule surrounding Schislosoma mansoni mother sporocysts in a totally and partially resistant strain of B. glabrata are granulocytes.The process of encapsulation of S. mansoni mother sporocysts in resistant B. glabrata was traced for 72 h post-penetration by miracidia and has been ascertained to involve two stages: (1) enlargement of the granuloma around intact sporocysts, followed by (2) disintegration of the parasite and a decrease in the size of the granuloma. There is an increase in the level of acid phosphatase activity within granulocytes comprising the granuloma during the second stage.Host cellular responses to S. mansoni mother sporocysts does not occur in susceptible snails.     

In vitro culture of mantle tissue of the abalone Haliotis varia Linnaeus

The study is aimed at developing a technology for the production of in vitro pearl through tissue culture of mantle of the abalone, Haliotis varia Linnaeus, as the production of free and spherical pearls in vivo is rather difficult in abalones. In the basic study, the cell yield was intensified from the explant after 24h incubation. Among the cells liberated, the granulocytes were dominant over hyalinocytes. The size of granulocytes ranged from 3 to 16 microm and of hyalinocytes from 13 to 18 microm. Fibroblast-like cells appeared in cultures after day 2. Both granulocytes and hyalinocytes developed pseudopodial-like extensions in all directions and formed organic matrix. Granulocytes contained granules in the cytoplasm. Specific granules were responsible for nucleation of crystals. Some crystals exhibited green colour resembling mother of pearl of abalone. scanning electron microscope (SEM) study revealed the oolitic amorphous state and rhombohedral state of crystals. Its analysis through energy dispersive X-ray microanalyzer (EDS) indicated the presence of calcium. The rhombohedral crystals under polarized light showed its high birefringence (0.18) and uniaxial optically negative calcite nature with high content of calcium. A mean survival of cells was found to be 102 days in T 25 flasks and 32 days in petri dishes. Growth of cells was studied. Thirty percent of cultures were found to have contaminated during the study. The study provides basic knowledge in the development of a technology for in vitro pearl production.     

Hemolymph cells of the bivalve mollusc Mercenaria mercenaria: an electron microscopical study.

The hemolymph cells of Mercenaria mercenaria were studied with the transmission electron microscope. Three morphological types of cells, granulocytes, hyalinocytes, and fibrocytes, are distinguishable and their fine structural characteristics are described. However, as a result of analyzing the fine structural features of the so-called fibrocytes of M. mercenaria, i.e., the inclusion of large aggregates of glycogen granules in their cytoplasm and the occurrence of primary phagosomes enclosing partially degraded exogenous material and digestive lamellae, it is suggested that fibrocytes are actually granulocytes which are at the terminal phase of their physiologic cycle relative to the degradation of phagocytized nonself materials. The cytoplasmic granules of M. mercenaria granulocytes are structurally different from those of Crassostrea virginica in that they are delimited by a unit membrane, rather than by a complex wall, and include a homogenously electron-dense material. Lipidlike droplets are reported from both granulocytes and hyalinocytes of M. mercenaria for the first time.     

Morphological and cytoenzymatic characterization of haemocytes of the venus clam Chamelea gallina

A morphological and enzymatic characterization of Chamelea gallina haemocytes was carried out as a prerequisite for further studies on venus clam immunobiology. Two main types of circulating haemocytes were identified (1) hyalinocytes (79.2%), agranular cells with a central nucleus surrounded by a little cytoplasm, and (2) granulocytes (16.5%), smaller granular cells with smaller nuclei. Small cells with a strongly basophilic nucleus and a thin layer of peripheral cytoplasm, probably undifferentiated blast cells (4.3%), were also observed. Both granulocytes and hyalinocytes can assume a spreading or round morphology. The enzymatic activities of haemocytes were also investigated. Some of the granulocytes and hyalinocytes were positive for hydrolytic enzymes, suggesting a role for these cells in phagocytosis; no oxidative enzymes were detected in C. gallina haemocytes. Granulocytes and hyalinocytes can easily adhere to the substratum and exhibit a low phagocytosis activity towards foreign particles (6.3%), whereas the fraction of cells containing ingested material significantly increased after pre-incubation of test particles with cell-free haemolymph, which suggests the presence of opsonin(s) in the haemolymph.     

Encapsulation response of the marine prosobranch Cerithidea californica to natural infections of Renicola buchanani sporocysts (Trematoda: Renicolidae)

A hyalinocyte-mediated encapsulation reaction is elicited by sporocysts of Renicola buchanani infecting the anterior mantle region of Cerithidea californica. Three phases of capsule formation are recognized: (1) an initial aggregating of hyalinocytes around each sporocyst in which pseudopodia from encapsulating cells loosely interdigitate with the parasite's tegumental microvilli, (2) the infiltrating of numerous hyalinocytes to form a dense matrix of cells which lies in close contact with the sporocyst's tegument, and (3) the horizontal flattening of hyalinocytes against the sporocyst's surface to form a tightly adhering capsule four to eight cell layers deep. Sporocysts are not harmed as a consequence of encapsulation. Capsule formation in response to R. buchanani sporocysts is considered a type of leucocytic encapsulation, specifically designated hyalinocytic encapsulation.     

Hemocyte classification and differential counts in the dungeness crab, Cancer magister

The primary purposes of this research were to describe and classify the circulating hemocytes of Cancer magister and devise a method for making differential hemocyte counts for crustaceans. C. magister hemocytes were classified using two simple criteria: the presence or absence of cytoplasmic granules and staining characteristics of the granules, if present. Hyalinocytes (HC) were devoid of granules, intermediate granulocytes (IG) contained basophilic granules or a mixture of basophilic and acidophilic granules, and eosinophilic granulocytes (EG) contained large, acidophilic granules. Hemocyte renewal and a hypothetical maturation sequence of C. magister hemocytes are described and discussed. Differential counts revealed that granulocytes were more abundant than hyalinocytes. For 22 crabs, the mean percentage (and range) of each hemocyte class was: IG, 65.97 (57.50–73.80); EG, 17.76 (4.70–26.47); and HC, 16.25 (3.40–34.67). After additional data are collected and analyzed, the routine use of differential counts may prove to be a valuable method for monitoring the status and health of C. magister and perhaps other crustaceans as well.     

Histopathological effects of larval digenea on the digestive epithelia of the marine prosbranch Cerithidea californica: Fine structural changes in the intestine

Light and electron microscopy were employed to study the effects of infection by sporocysts of Renicola buchanani on the posterior intestine of the marine snail Cerithidea californica. Columnar intestinal epithelium in close contact with renicolid sporocysts usually are compressed by growing larval stages resulting in the reduction of epithelial height, the disruption of cell-cell junctions, and the formation of convolutions in the supporting basal lamina. Intestinal cells of infected snails are further characterized by a reduction of rough endoplasmic reticulum, microtubules and microfilaments, and the formation of cytoplasmic vacuoles and electron-dense lysosome-like inclusions. Mitochondria of degenerating intestinal and smooth muscle cells show signs of cristolysis. In addition, the cytoplasm of smooth muscle cells often display a fine grainy appearance due to the breakdown of actin and paramyosin filaments.     

First cytochemical study of haemocytes from the crab Carcinus aestuarii (Crustacea,Decapoda)

For the first time, a morphological study of haemocytes from the crab Carcinus aestuarii was carried out by means of light microscopy and differing cytochemical assays. Analysis of haemocyte size frequency distribution (performed by means of a Coulter Counter) revealed the presence of two distinct haemocyte fractions in C. aestuarii haemolymph, depending on cell size. The first fraction was of about 3–5 µm in diameter and 30–50 fL in volume, the second was of about 6–12 µm in diameter and over 200 fL in volume. Mean cell diameter and volume were 8.20±1.7 µm and 272.30±143.5 fL, respectively. Haemocytes observed under light microscope were distinguished in three cell types: granulocytes (28%; 11.94±1.43 µm in diameter) with evident cytoplasmic granules, semigranulocytes (27%; 12.38±1.76 µm in diameter) with less granules than granulocytes, and hyalinocytes (44%; 7.88±1.6 µm in diameter) without granules. In addition, a peculiar cell type was occasionally found (about 1%): it was 25–30 µm in diameter and had a great vacuole and a peripheral cytoplasm with granules. Granulocyte and semigranulocyte granules stained in vivo with Neutral Red, indicating that they were lysosomes. Giemsa’s dye confirmed that granulocytes and semigranulocytes were larger than hyalinocytes. Pappenheim’s panoptical staining and Ehrlich’s triacid mixture allowed to distinguish granule-containing cells (including semigranulocytes) in acidophils (64%), basophils (35%) and neutrophils (1%). Hyalinocytes showed always a basophilic cytoplasm. Haemocytes were positive to the PAS reaction for carbohydrates, even if cytoplasm carbohydrate distribution varied among cell types. Lastly, lipids were found on cell membrane and in cytoplasm of all haemocyte types in the form of black spots produced after Sudan Black B staining. The morphological characterisation of C. aestuarii haemocytes by light microscopy was necessary before performing both ultrastructural and functional studies of circulating cells.Key words: Carcinus aestuarii, crab, haemocytes, light microscopy, cytochemical assays, morphological characterisation.     

Flow cytometric analysis of haemocytes from eastern oysters, Crassostrea virginica, subjected to a sudden temperature elevation: II. Haemocyte functions: aggregation, viability, phagocytosis, and respiratory burst

The capability of an oyster to respond to environmental stresses, such as periodically high summer temperatures, as well as disease or parasite infections, depends, in large measure, upon the viability and functional capability of haemocytes. Eastern oysters (Crassostrea virginica) were subjected to a sudden increase in temperature from 20 to 28 °C for 1 week, and several haemocyte functions were determined before and after the temperature elevation using the flow cytometer. Previously, we described the characterization of different haemocyte types using new and modified flow cytometric methods. In this report, we provide detailed protocols for flow cytometric methods to: (1) determine haemocyte aggregation using paired samples with or without an antiaggregant solution; (2) assess haemocyte viability using propidium iodide (PI); (3) quantify haemocyte phagocytosis with fluorescent microbeads; and (4) measure the respiratory burst response of individual haemocytes using 2′,7′-dichlorofluorescein diacetate (DCFH-DA) and zymosan to activate the release of reactive oxygen species (ROS).The temperature increase caused no significant change in haemocyte aggregation, although there was a trend of increasing aggregation in granulocytes and small granulocytes, but a slight decrease in hyalinocyte aggregation. Phagocytosis of all haemocyte types decreased after the temperature increase. Significantly higher percentages of dead haemocytes in all haemocyte types (attributable to a large increase in mortality of hyalinocytes, the most numerous cells) were found after the temperature increase, suggesting generally less capable immune function. Numbers of dead small granulocytes and granulocytes tended to decrease, but this was not statistically significant. Effects of temperature elevation upon respiratory burst were not statistically significant; however, a trend of increased ROS production after temperature elevation was consistent for all haemocyte types. Granulocytes, hyalinocytes, and small granulocytes showed increased production of ROS in the presence of zymosan; granulocytes showed the highest induced fluorescence.     

贝类血细胞硫代黄素T荧光染色方法

硫代黄素T( thioflavin T,TFT)是一种用于组织学的苯并噻唑荧光染料,因其对淀粉样蛋白有高亲和性而主要被用于淀粉样病变的荧光显微检测.本研究分别以软体动物门双壳纲的栉孔扇贝(Chlamys farreri)和中国蛤蜊(Mactra chinensis)、腹足纲的拟紫口玉螺(Natica janthosto...