Ovarian infection and fungal spore oviposition in the blackfly Prosimulium mixtum

In order to ascertain whether agglutinins can serve as links to bind hemocytes of Helix pomatia to mammalian erythrocytes, rosette-formation tests were performed. These involved pretreatment of H. pomatia hemocytes with each of 15 nonnative agglutinins and incubation of them with human erythrocytes. It has been found that, of the agglutinins tested, wheat germ agglutinin (WGA) as well as those from Ricinus communis, Axinella polypoides, Anguilla anguilla (anti-H_eet), concanavalin A, and Limulus polyphemus caused rosette formation with human erythrocytes. In addition, it has been found that a small number of H. pomatia hemocytes are capable of direct binding to erythrocytes of mice, rabbits, rats, and sheep.     

The inhibition of serum opsonins by a carbohydrate and the opsonizing effect of purified agglutinin on the clearance of nonself particles from the circulation of Helix pomatia

The serum of Helix pomatia agglutinates enzyme-treated erythrocytes and also possesses opsonizing properties. The agglutinating as well as the opsonizing activity could be inhibited by N-acetylglucosamine, indicating an identicalness of these serum components. As this observation supports the hypothesis that agglutinins may function as opsonins, purified agglutinins from the albumin gland of Helix pomatia, from the sponge Axinella polypoides, and Con A were utilized to sensitize foreign cells prior to their injection into the hemocoel of H. pomatia. Helix agglutinin revealed a strong opsonic effect on the elimination of the nonself particles from the circulation of the snail. It is assumed that serum opsonins of H. pomatia may couple certain nonself materials to the surface of cells in different clearance organs and that hemocytes possess membrane-associated agglutinins which mediate their attachment to trapped foreign particles.     

Phagocytosis as a cellular immune response mechanism in the American lobster, Homarus americanus.

Procedures to quantitate accurately the in vitro phagocytosis of sheep erythrocytes and Aerococcus viridans var. homari (formerly Gaffkya homari) bacteria by hemocytes of the American lobster were utilized to assess the effect of various vaccines on the humoral and cellular defense mechanisms of the lobster. Both the percent of hemocytes showing phagocytosis and the number of particles phagocytosed increased markedly in many of the animals injected with Pseudomonas perolens cells or endotoxin. A lesser response was elicited by A. viridans cellular vaccines. In vivo phagocytosis was observed in the circulatory system of lobsters infected with A. viridans var. homari.Natural hemolymph agglutinins for sheep or rabbit erythrocytes were not affectd by any vaccines. Hemocyte numbers dropped initially after administration of P. perolens endotoxin or cells. The bactericidin level was enhanced in samples taken from vaccinated animals.     

Reactive Oxygen Species in Unstimulated Hemocytes of the Pacific Oyster Crassostrea gigas: A Mitochondrial Involvement

The Pacific oyster Crassostrea gigas is a sessile bivalve mollusc whose homeostasis relies, at least partially, upon cells circulating in hemolymph and referred to as hemocytes. Oyster’s hemocytes have been reported to produce reactive oxygen species (ROS), even in absence of stimulation. Although ROS production in bivalve molluscs is mostly studied for its defence involvement, ROS may also be involved in cellular and tissue homeostasis. ROS sources have not yet been described in oyster hemocytes. The objective of the present work was to characterize the ROS sources in unstimulated hemocytes. We studied the effects of chemical inhibitors on the ROS production and the mitochondrial membrane potential (Δψ_m) of hemocytes. First, this work confirmed the specificity of JC-10 probe to measure Δψ_m in oyster hemocytes, without being affected by ΔpH, as reported in mammalian cells. Second, results show that ROS production in unstimulated hemocytes does not originate from cytoplasmic NADPH-oxidase, nitric oxide synthase or myeloperoxidase, but from mitochondria. In contrast to mammalian cells, incubation of hemocytes with rotenone (complex I inhibitor) had no effect on ROS production. Incubation with antimycin A (complex III inhibitor) resulted in a dose-dependent ROS production decrease while an over-production is usually reported in vertebrates. In hemocytes of C. gigas, the production of ROS seems similarly dependent on both Δψ_m and ΔpH. These findings point out differences between mammalian models and bivalve cells, which warrant further investigation about the fine characterization of the electron transfer chain and the respective involvement of mitochondrial complexes in ROS production in hemocytes of bivalve molluscs.     

Characterization of a tyramine receptor type 2 from hemocytes of rice stem borer,Chilo suppressalis

Calcium acts as a second messenger in many cell types, including insect hemocytes. Intracellular calcium level has a definite role in innate and adaptive immune signaling. Biogenic amines such as octopamine (OA), tyramine (TA), dopamine (DA) and serotonin (5-HT) play various important physiological roles in insects by activating distinct G-protein-coupled receptors (GPCRs) that share a putative seven transmembrane domain structure. OA and 5-HT have been shown that can mediate insect hemocytic immune reactions to infections and invasions. Here, we showed that TA increase hemocyte spreading in the rice stem borer, Chilo suppressalis. Furthermore, we cloned a cDNA encoding a tyramine receptor type 2 from the hemocytes in the C. suppressalis, viz., CsTA2, which shares high sequence similarity to members of the invertebrate tyramine receptor family. The CsTA2 receptor was stably expressed in human embryonic kidney (HEK) 293 cells, and its ligand response has been examined. Receptor activation with TA induced a dose-dependent increase in intracellular Ca²⁺ concentration ([Ca²⁺]_i) in cells, with an EC₅₀ value of 18.7 ± 5.3 nM, whereas OA, DA, 5-HT and other potential agonists did not have this response. The mRNA is present in various tissues including nerve cord, hemocytes, fat body, midgut, Malpighian tubules, and epidermis in the larval stage. Western blot analysis and immunohistochemistry assay displayed that CsTA2 was detected and presented on hemocytes. We also showed that TA induced Ca²⁺ release from the hemocytes of C. suppressalis.     

Surface antigens of Biomphalaria glabrata (Gastropoda) hemocytes: functional heterogeneity in cell subpopulations recognized by a monoclonal antibody

A hemocyte surface membrane marker (BGH₁) has been identified using hemocyte-specific monoclonal antibodies (mABs) generated by somatic cell fusion methods. The BGH₁ epitope was expressed on a subpopulation of circulating, glass-adherent blood cells from two strains of the snail, Biomphalaria glabrata. Approximately 40% of the circulating hemocytes from the PR albino (M-line) B. glabrata strain were BGH₁^?, compared to a prevalence of 10% BGH₁⁺ cells in the 10-R2 snail strain. When hemocytes were firmly attached and spread on a glass surface, BGH₁⁺ cells were morphologically distinguishable from BGH₁^? cells by their ovoid shape and the presence of short, thin filopodial projections along the ectoplasmic border. In contrast, BGH₁^? hemocytes were more pleomorphic and possessed long, spike-like filopodia. Moreover, the BGH₁ epitope was trypsin-resistant and retained its antigenic reactivity with probe mABs following fixation with paraformaldehyde or paraformaldehyde/MeOH. Fixation with glutaraldehyde, however, significantly reduced mAB binding to the BGH₁ surface epitope. There was no apparent age-dependent expression of the BGH₁ determinant since circulating hemocyte populations in very young (1–2 mm) to adult (10–12 mm) snails were composed of both BGH₁⁺ and BGH₁^? subpopulations. Quantitative shifts in the prevalence of epitope-bearing hemocytes between the smallest snail size class (1–2 mm) and the larger snails (3–4 and 10–12 mm) are believed to be due to a differential production and/or release of BGH₁^? hemocytes within the blood circulation rather than a gradual age-related change in the expression of surface antigens on individual cells. Experiments designed to assess the in vitro phagocytic capability and lysosomal acid phosphatase (APase) activity of mAB-reactive hemocytes revealed that BGH₁⁺ cells, when compared to those lacking the surface marker, were significantly reduced in both their phagocytic and APase-producing activities. Since the PR albino strain of B. glabrata possesses a higher proportion of BGH₁^? hemocytes and a lower total concentration of circulating cells than do snails of the 10-R2 strain, PR albino snails are thus potentially reduced in their natural capacity to mount cellular reactions against foreign materials.     

Immune response of the prawn, Macrobrachium rosenbergii, to bacterial infection

Serum agglutinins of Macrobrachium rosenbergii found in normal serum were reactive toward eight bacterial species and type A human red blood cells. Absorption studies indicated the ability of the agglutinins to distinguish between different bacterial species as well as between certain bacteria and red blood cells. Agglutinin titers were approximately the same for the bacteria, whereas those for red blood cells were significantly higher. A virulent strain of Vibrio anguillarum was used in infectivity experiments. An LD₅₀ value was determined between 5 × 10⁶ and 10⁷ cells/animal, and an attempt was made to immunize the animals using formalin-killed cells. The animals did not respond to the vaccination, as there was neither an increase in the level of circulating agglutinins nor the LD₅₀ level 6 days after injection. Structural and functional traits of serum agglutinins are markedly different from vertebrate antibodies.     

Histopathology of Aerococcus viridans var. homari infection (Gaffkemia) in the lobster, Homarus americanus, and a comparison with histological reactions to a gram-negative species, Pseudomonas perolens

Histological response of lobsters to injection of Aerococcus viridans var. homari, cause of gaffkemia, was followed over a 14-day period. Salient features in infected lobsters, Homarus americanus, were: aggregations of hemocytes occurring in hemal spaces throughout the tissues and increasing in number and size with time; the early phagocytosis of bacteria by the system of fixed phagocytes (FPs) present in hemal spaces of the hepatopancreas; and premature release of differentiating hemocytes from the hemopoietic tissue, so that by 14 days that tissue consisted mainly of large stem cells. Mass release of differentiating hemocytes presumably occurred to replace hemocytes lost from the circulation by their incorporation into aggregations or by lysis of individual cells ruptured through the pressure of phagocytized bacteria that were multiplying in them. Bacteria and their remains were present in FPs at 2 days but not visible in single or aggregated hemocytes until 6 days, when free bacteria were also present in the hemolymph. By 6 days, all bacteria, whether phagocytized or free, appeared normal and were surrounded by nonstaining halos that extended well beyond the stainable capsular material. As predicted earlier in physiological studies, gaffkemia is a nontoxic, noninvasive bacteremia. There was hemal stasis and consequent injury in the antennal gland due to free and aggregated hemocytes that occluded hemal spaces of that organ, but other tissues and organs appeared normal except for depletion of glycogen. Aggregations of hemocytes were present in lobsters 2 and 12 days after injection of a nonpathogenic, Gram-negative bacterium, Pseudomonas perolens. Unlike the case with gaffkemia, necrotic hemocytes were common in the aggregations, presumably in response to damage by endotoxin. A further difference was that aggregations were common in the heart of P. perolens-injected lobsters but rare in the heart of gaffkemic lobsters. Bacteria were not seen in hemolymph, hemocytes, or other cells of P. perolens-injected lobsters.     

Surface antigens of Biomphalaria glabrata (Gastropoda) hemocytes: occurrence of membrane-associated hemolymph-like factors antigenically related to snail hemoglobin

A polyvalent antiserum (anti-H_PR) generated in rabbits to cell-free hemolymph from a PR albino (M-line) stock of snail, Biomphalaria glabrata, was employed as a membrane probe to determine if antigens related to snail hemolymph were associated with the surface membranes of phosphate-buffered saline (PBS) washed hemocytes from a schistosome-susceptible (PR albino) and refractory (10-R2) stock of B. glabrata. Immunofluorescent and immunoelectron microscopical analyses revealed a strong cross-reactivity between anti-H_PR antibodies and hemocytes from both PR albino and 10-R2 snails indicating the presence of surface-associated hemolymph or hemolymph-like antigens. Hemoglobin isolated from PR albino B. glabrata hemolymph competitively inhibited the binding of anti-H_PR to hemocytes suggesting that cross-reactive membrane components were, at least in part, antigenically related to snail hemoglobin. Antigens reactive with antihemolymph antibodies also were resistant to protease treatment. No antigenic differences between PR albino and 10-R2 snail hemocytes could be detected due to the heterospecific nature of the probe antiserum, however, it is believed that the major cross-reactive membrane components, e.g., hemoglobin-like determinants, are shared in common by hemocytes of both snail stocks.     

Concanavalin A-induced receptor redistribution on Biomphalaria glabrata hemocytes: Characterization of capping and patching responses

Exposure of rounded, glass-adherent hemocytes from a Schistosoma mansoni-susceptible (PR albino) and S. mansoni-refractory (10-R2) stock of snails, Biomphalaria glabrata, to fluoresceinlabeled concanavalin A induces a redistribution of surface membrane Con A receptors. Receptor redistribution (patching and capping) on hemocytes from both snail stocks can be characterized as (1) rapid, with maximum cap formation occurring within 15 min of lectin treatment at 22°C, (2) sodium azide sensitive, but only at relatively high inhibitor concentrations (100–200 mm^?N₃ for capping and 200 mm^?N₃ for patching inhibition), (3) pronase sensitive (partial), but trypsin resistant, and (4) generally unaffected by exposure of snails to S. mansoni miracidia 60 or 180 min prior to extraction of hemolymph (hemocyte) samples for Con A testing. Although differences in the time course of receptor redistribution are exhibited between PR albino and 10-R2 snail hemocytes, the results of experiments involving sodium azide, proteolytic enzymes, and schistosome exposure strongly suggest that Con A-binding determinants and their associated membrane components on rounded hemocytes are very similar in both susceptible and refractory Biomphalaria stocks. It is concluded that if schistosome recognition in refractory 10-R2 snails is mediated through specific hemocyte membrane components, those components associated with Con A reactivity probably are not directly involved in the recognition process.     

Quantification of cytotoxic hemocytes of Mytilus edulis using a cytotoxicity assay in agar

When a thin layer of agar containing a mixture of erythrocytes and Mytilus hemocytes is prepared on slides, the occurrence of plaques of lysed target cells can be observed around a limited number of hemocytes. These hemocytes remain completely intact cells and are viable as evidenced by their ability to phagocytose target cells and/or to form pseudopods. The number of hemocytes releasing cytotoxic molecules has been shown to vary greatly between different animals. The same holds true for the total number of circulating hemocytes, although no correlation exists between the number of hemocytes in the circulation and the percentage of cytotoxic blood cells.     

Safety of Bacillus thuringiensis for earthworms.

In vitro chemotaxis by invertebrate hemocytes is demonstrated by the attraction of granulocytes from the operculate snail Viviparus malleatus to heat-killed Staphylococcus aureus and to N-acetyl-d-glucosamine. A soluble constituent of the hemolymph, a bacterial agglutinin, was necessary for this positive response to both of these chemotactic agents. Agglutination studies revealed the presence of two nonhomologous agglutinins in the hemolymph of V. malleatus.     

In vitro bacteridical capacity of Blaberus craniifer hemocytes

Blaberus craniifer hemocytes, maintained in short-term culture, are capable of phagocytosing and destroying Staphylococcus aureus, Staphylococcus albus, Streptococcus faecalis, Serratia marcescens, and Proteus mirabilis. The observed bactericidal activity of the hemocyte suspensions was entirely a function of the phagocytes; the medium, the hemolymph, and cell products elaborated during incubations were not bactericidal. No humoral opsonic factors were required for, or facilitated, bacterial phagocytosis in vitro. Washed hemocyte monolayers bathed by hemolymph-free medium were capable of phagocytosing bacteria. The addition of hemolymph concentrated by ultrafiltration did not increase the bactericidal capacity of the hemocytes. Bacteria opsonized with concentrated hemolymph were not killed more efficiently than were untreated bacteria.A partial blockage of bactericidal capacity was induced by prior exposure of the hemocytes to bacteria or to latex particles. The functional blockade was more complete with bacteria than with latex particles.Pseudomonas aeruginosa, Escherichia coli, Salmonella typhosa, and Diplococcus pneumoniae were phagocytosed but not killed by the hemocytes. This lack of bactericidal activity suggests that roaches may encounter difficulty in eliminating these organisms from the hemocoel. However, deficient bactericidal capacity probably does not entirely correlate with pathogenicity since the known insect pathogens, Staphylococcus albus, Serratia marcescens, and Proteus mirabilis, are killed by the hemocytes. Pathogenicity seems to depend on a complex of factors including bacterial strain, dose received, and intracellular survival of ingested bacteria. A possible connection between the lack of hemocytic bactericidal capacity and the role of roaches as potential disease vectors warrants further investigation.     

Chemotactic attraction between hemocytes of the oyster,Crassostrea virginica,and bacteria

Experiments were conducted to ascertain whether there is chemotactic attraction by Bacillus megaterium and Micrococcus varians, both Gram-positive species, and Escherichia coli and Vibrio parahaemolyticus, both Gram-negative species, for hemocytes of the American oyster, Crassostrea virginica. It was ascertained quantitatively that oyster hemocytes are attracted to live E. coli, B. megaterium, and M. varians but not to heat-killed bacteria. Furthermore, oyster cells are not attracted to either live or heat-killed V. parahaemolyticus. It is concluded that the chemoattractant is some molecule emitted by living vegetative cells of certain Gram-positive as well as Gramnegative bacteria.     

Effects of zinc on programmed cell death of Musca domestica and Drosophila melanogaster blood cells

Programmed cell death (PCD) and phagocytotic activity of immune cells play a pivotal role in insect development. We examined the influence of Zn²⁺, an important element to fundamental biological processes, on phagocytosis and apoptosis of hemocytes in two fly species: Musca domestica and Drosophila melanogaster. Hemocytes were isolated from the third instar larvae of both species and treated for 3 h with zinc chloride solutions, containing 0.35 mM or 1.7 mM of Zn²⁺, and untreated as control. Phagocytotic activity of hemocytes was examined by flow cytometry after adding latex fluorescent beads to the medium, while apoptosis was evaluated by application of annexinV-FITC and pan-caspase-FITC inhibitor. Mitochondrial viability was determined by measuring resazurin absorbancy in the cell medium. The obtained results showed that Zn²⁺ increases phagocytosis and affects PCD of both species hemocytes but each in a different way. Zinc decreases fraction of annexin-positive hemocytes in M. domestica but increases it in D. melanogaster. The pan-caspase analysis revealed low and high activity of caspases in hemocytes of M. domestica and D. melanogaster, respectively. Zn²⁺ also decreased the viability of hemocyte mitochondria but only in D. melanogaster. It suggests that flies use different pathways of PCD, or that Zn plays a different role in this process in M. domestica than in D. melanogaster.     

The reactivity of canine red cells with heterophile agglutinins having anti-A activity*

Heterophile A-reactive agglutinins, obtained from the seeds of Dolichos biflorus and from the snails Helix aspersa, Helix pomatia and Cepaea nemoralis, were tested for reactivity with the saliva and red cells of a random series of dogs. Saliva from dogs with the A-like Tr red cell antigen inhibited the agglutination of human A red cells by each of the reagents. However, none of the heterophile agglutinins distinguished Tr+ from Tr— red cells: the Dolichos agglutinin was non-reactive, while all of the snail reagents agglutinated both Tr+ and Tr— cells. It is concluded that the canine red cell bears a series of heterophile receptors which mask reactivity with the canine homologue of the red cell A-antigen, and that the restricted size of the binding sites of the agglutinins limits the informational significance of cross-reactivity obtained with these reagents.     

Serratia marcescens Induces Apoptotic Cell Death in Host Immune Cells via a Lipopolysaccharide- and Flagella-dependent Mechanism

Injection of Serratia marcescens into the blood (hemolymph) of the silkworm, Bombyx mori, induced the activation of c-Jun NH₂-terminal kinase (JNK), followed by caspase activation and apoptosis of blood cells (hemocytes). This process impaired the innate immune response in which pathogen cell wall components, such as glucan, stimulate hemocytes, leading to the activation of insect cytokine paralytic peptide. S. marcescens induced apoptotic cell death of silkworm hemocytes and mouse peritoneal macrophages in vitro. We searched for S. marcescens transposon mutants with attenuated ability to induce apoptosis of silkworm hemocytes. Among the genes identified, disruption mutants of wecA (a gene involved in lipopolysaccharide O-antigen synthesis), and flhD and fliR (essential genes in flagella synthesis) showed reduced motility and impaired induction of mouse macrophage cell death. These findings suggest that S. marcescens induces apoptosis of host immune cells via lipopolysaccharide- and flagella-dependent motility, leading to the suppression of host innate immunity.     

Biomphalaria glabrata (Gastropoda): effect of urethane on the morphology and function of hemocytes, and on susceptibility to Schistosoma mansoni (Trematoda)

Urethane (ethyl carbamate) anesthesia of Biomphalaria glabrata resulted in several rapid changes to the snail's blood picture. At 2 hr postexposure (PE) to the drug, there was an elevation in the prevalence of acid phosphatase (APase)-positive hemocytes, a significant increase in the number of APase granules per cell, a three fold increase in circulating blood cell number, and a decrease in the percentage of hemocytes expressing a cell subpopulation-specific surface membrane epitope (BGH₁). However, urethane had little effect on erythrophagocytosis by host hemocytes. All of the observed changes returned to control levels by 12 hr PE to the drug. Blood cells cultured with various concentrations of the anesthetic in vitro did not exhibit any alterations in the parameters described above. Since circulating hemocytes represent the primary effector component involved in internal defense reactions, the effect of urethane-induced changes in the composition of circulating blood cells on susceptibility to a larval trematode, Schistosoma mansoni, was examined. Such changes had no apparent effect on host susceptibility since the rate of infection for urethane-exposed snails (88.2%) was the same as for nonurethane-treated B. glabrata (82.4%). However, the effects of urethane-induced changes in hemocyte number and composition on other invading organisms is not known. Therefore, it is suggested that such alterations should be considered when internal defense reactions are studied in snails exposed to this drug and other commonly used anesthetics.