Comparative mortality studies on Biomphalaria glabrata (mollusca: Pulmonata) exposed to copper internally and externally

Various concentrations of copper in the form of CuSO₄ were injected into the hemocoel of Biomphalaria glabrata, and mortality of this snail was subsequently monitored. The concentrations of copper in the hemolymph of injected snails were calculated, and specimens were incubated in these concentrations. Greater mortality was observed when snails were incubated in concentrations of copper than when they were injected with a sufficient amount of copper to attain these same concentrations in the hemolymph. Injection of copper into the hemocoel of B. glabrata resulted in the formation of a noncellular hemolymph precipitate, most likely denatured proteins, at the injection site, which was most noticeable with higher concentrations of copper. It has been concluded that external concentrations of copper are more cidal to B. glabrata than are internal, i.e., injected, concentrations. These data support the hypothesis that the cidal action of copper on B. glabrata is due to an attack on the mollusc's surface epithelia.     

Difference in the ability of blood group-specific lectins and monoclonal antibodies to recognize the ABH antigens in human tissues

Summary Twelve different kinds of blood group-specific lectins have been used along with monoclonal anti-A,-B and-H antibodies for detecting the corresponding antigens in selected human tissues. Although most of the lectins recognized the antigens in the tissue sections examined, they displayed marked differences in their recognition patterns in certain tissues.Helix asparsa agglutinin (HAA),Helix pomatia agglutinin (HPA) and monoclonal anti-A antibody recognized A antigens in the mucous cells of salivary glands from blood group A or AB nonsecretor as well as secretor individuals, whereasDolichos biflorus agglutinin (DBA).Griffonia simplicifolia agglutinin-I (GSA-I),Sophora japonica agglutinin (SJA) andVicia villosa agglutinin (VVA) did not bind to them from nonsecretors. A antigens in endothelial cells, lateral membrane of pancreatic acinar cells and small mucous-like cells of submandibular glands from some individuals were likewise recognized by HAA and HPA but not by other blood group A-specific lections. In contrast, both HAA and HPA did not recognize the A antigens in mucous cells of Brunner's glands while other A-specific lectins and monoclonal anti-A antibody reacted specifically with the antigens. Such a difference was not observed with lectins specific for blood group B. However, the B antigens in Brunner's glands were recognized by these lectins but not with monoclonal anti-B antibody. The difference in labelling ability was also noted among the blood group H-specific lectins and monoclonal anti-H antibody in endothelial cells of blood vessels.Ulex europaeus agglutinin-I reacted with these cells irrespective of ABO and the secretor status of the individuals, whileAnguilla anguilla agglutinin and monoclonal anti-H antibody reacted only with those cells from blood group O individuals. No reaction was observed withLotus tetragonolobus agglutinin in these tissue sites. These results suggest a great diversity of blood group antigens in different human tissues.     

Distribution and variation of hemagglutinating activity in the hemolymph of Biomphalaria glabrata

A sensitive hemagglutination assay utilizing glutaraldehyde-fixed trypsinized calf erythrocytes (GTC) is described to test for agglutinin levels in hemolymph and albumen gland extracts from nine populations of Biomphalaria glabrata, and from B. straminea and B. obstructa. High levels of GTC-reactive hemagglutinin were found in all snail populations. There was no correlation between hemagglutinin titer and innate resistance of B. glabrata strains to Schistosoma mansoni. However, an increase in hemagglutinin titer occurs in B. glabrata M-RLc snails infected with Echinostoma lindoense and in snails sensitized and reexposed to this parasite.     

Lipase activity in the hemolymph of Biomphalaria glabrata (Mollusca) challenged with bacterial lipids

The levels of lipase activity in both the cellular and serum constituents of the hemolymph of Biomphalaria glabrata that had been challenged in vitro to beat-killed and sonicated Bacillus megaterium as well as samples challenged with live B. megaterium were ascertained. There were no significant alterations in the levels of enzyme activity in both cells and serum of the samples that had been challenged with sonicated bacteria; however, there was a signficant elevation in the enzyme activity associated with both the cells and serum of hemolymph that had been challenged with live bacteria. It has been concluded that live B. megaterium can stimulate hypersynthesis of lipase, a lysosomal enzyme, in phagocytes of B. glabrata and that this enzyme subsequently is released into serum. Consequently, the hydrolysis of lipid constituents of bacteria could theoretically occur in serum as well as within phagocytes.     

Surface antigens of Biomphalaria glabrata (Gastropoda) hemocytes: evidence for linkage-independence of some hemolymph-like surface antigens and Con A receptor-bearing macromolecules

The structural relationship between hemolymph-like surface antigens and concanavalin A (Con A)-reactive macromolecules on circulating hemocytes of Biomphalaria glabrata was assessed using a double-ligand labeling method. It was determined that Con A-induced clearance of its own receptor complexes resulted in a significant reduction, but of complete elimination, of hemolymph-like antigens, i.e., antigens cross-reactive with an anti-B. glabrata hemolymph antiserum, suggesting the presence of at least two separate antigenic populations with anti-hemolymph reactivity; one group structurally linked and another group structurally independent of Con A-binding membrane components. The latter group of surface antigens appears to be (1) chemically related to the higher-molecular-weight hemolymph components, most probably hemoglobin, (2) Pronase resistant, and (3) partially composed of a subpopulation of cryptic (hidden) cross-reacting antigens uncovered at the cell surface as a consequence of Con A-receptor clearance. Results of this study demonstrate not only that individual hemocytes of B. glabrata may possess different populations of hemolymph-like antigens, but also that the interaction between some membrane components and appropriate ligands (e.g., carbohydrate-binding lectins) could result in a modulation in expression of other groups of surface antigens.     

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.     

Lectin and human blood group determinants of Schistosoma mansoni: alteration following in vitro transformation of miracidium to mother sporocyst.

A mixed agglutination assay method was employed to detect the presence of surface determinants for various lectins and human blood group antibodies on Schistosoma mansoni miracidia and cultured mother sporocysts. Miracidia were found to possess surface receptors for the lectins Con A (concanavalin A), anti-Heel (eel serum agglutinin), and anti-ADb (Dolichos seed extract), as well as human anti-A antibodies. Following in vitro transformation of the miracidium to mother sporocyst, anti-Heel and human anti-A receptors were no longer detectable on the sporocyst surface, while determinants for Con A and anti-ADb remained essentially unaltered. It is concluded that transition of the miracidium to the sporocyst results in the alteration of surface molecular structures on schistosome larve. Furthermore, since determinants for Con A, anti-Heel, anti ADb, and human anti-A have been found associated with macromolecules in the hemolymph of the snail Biomphalaria glabrata (Stnislawski et al., 1976), there is now evidence that miracidia and mother sporocysts of S. mansoni and their snail host share molecules with common lectin and human blood group determinants.     

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.     

Alterations in the osmoregulation of the pulmonate gastropod Biomphalaria glabrata due to copper

Specimens of Biomphalaria glabrata were exposed to 0.06 ppm of copper in the form of CuSO₄, and the resulting changes in the wet and dry weights of the soft tissues and in the osmolality of the hemolymph were measured. The wet weights of snails exposed to copper increased as a function of time, while those of the controls decreased. The dry weights of both the experimental and control snails decreased equally. Finally, the ratio of wet weight to dry weight of the experimental snails was significantly higher than that of the controls after 24 and 48 hr of exposure to copper. In addition, the osmolality of the hemolymph of snails exposed to copper was significantly lower than that of the controls after 12, 24, and 36 hr of exposure. These data have led to the conclusion that exposure of B. glabrata to copper results in an osmotic influx of water into its tissues and thereby causes death.     

Aminopeptidase activity in the hemolymph and body tissues of the pulmonate gastropod Biomphalaria glabrata

The levels of aminopeptidase activity in the whole hemolymph, serum, hemocytes, headfoot, and visceral mass of Biomphalaria glabrata were determined. The highest enzyme level occurs in the serum and the lowest in the hemocytes. Both the headfoot and visceral mass include subequal levels of aminopeptidase activity. From our data, it now appears possible that the serum aminopeptidase in B. glabrata, which has an open circulatory system, could have originated in hemocytes as well as in other tissues. The biologic function of serum aminopeptides is uncertain; however, because of the known chemical function of this enzyme, it could serve to degrade foreign proteins in serum prior to phagocytosis.     

Purification and binding properties of hemagglutinin from Biomphalaria glabrata.

A hemagglutinin has been purified from Biomphalaria glabrata (PR-B) hemolymph, albumin glands, and egg masses using affinity chromatography with Sephadex gels. The purified material from any of the sources above demonstrated identical immunological properties during immunoelectrophoresis or immunodiffusion, and similar serological specificity for human A₁ erythrocytes and to a lesser extent A₂ erythrocytes. Hemagglutinin was able to bind in vitro to the tegumental surface of cultured Schistosoma mansoni sporocysts, cercariae, and miracidia. Sporocysts dissected from infected snails and shed cercariae were already found to have hemagglutinin on their tegumental surface as demonstrated by immunofluorescence. It is postulated that hemagglutinin binding to the surface of larval helminths may “mask” them from being recognized by the snail host's cellular defense system.     

Leukocytes of Biomphalaria glabrata: Morphology and behavior of granulocytic cells in vitro

Blood cells from Biomphalaria glabrata hemolymph were studied by phase microscopy in vitro. The most common cell is a granulocytic leukocyte, present in the hemolymph at a concentration of 334 ± 105 cells/mm³. This cell ranges in length from 14.1 ± 2.8 μm (including pseudopodia), when suspended in hemolymph, to 77.2 ± 15.1 μm, when allowed to spread on a glass substrate. Cytoplasmic inclusions and other organelles are described. Observations on the behavior of these granulocytic leukocytes in vitro confirm that a strong phagocytic response develops toward a variety of particles in the virtual absence of snail hemolymph.     

Biomphalaria glabrata amoebocytes: Assay of factors influencing in vitro phagocytosis

A simple and short-term in vitro assay system has been adapted for quantitative evaluation of the rate of phagocytosis of amoebocytes obtained from hemolymph of the pulmonate gastropod Biomphalaria glabrata. The variation in the rate of phagocytosis exhibited by amoebocyte monolayers prepared from individual snails is reduced by utilizing amoebocytes from pooled hemolymph from snails of similar sizes. The study demonstrates that the rate of phagocytosis depends on incubation time, temperature, and pH. Substantial inhibition of phagocytosis is exerted by 2-deoxy-d-glucose and 2-iodoacetamide but not by potassium cyanide, indicating that energy consumed during phagocytosis is generated by the glycolysis pathway.     

Biomphalaria glabrata amoebocytes: Effect of Schistosoma mansoni infection on in vitro phagocytosis

The rate of phagocytosis by amoebocytes obtained from hemolymph of the pulmonate Biomphalaria glabrata infected with the trematode Schistosoma mansoni for 24 hr and 2, 4, and 6 weeks has been determined using the monolayer assay system. Amoebocyte preparations from snails infected for 4 and 6 weeks showed a gradual decrease in the phagocytic rates compared to those from uninfected controls. Snails harboring the parasite for 4 and 6 weeks also showed a significant increase in the number of amoebocytes in the hemolymph. No significant changes were detected in the rate of phagocytosis or number of amoebocytes in snails infected for 2 weeks or less. Alterations in the morphology and behavior of amoebocytes from infected snails were also noted.     

Resistance to schistosome infection in Biomphalaria glabrata induced by gamma radiation

Two strains of Biomphalaria glabrata were studied with respect to the effects of ionizing radiation on their susceptibility to Schistosoma mansoni infection. Gamma radiation at levels of 3.5 and 5 krad did not induce susceptibility in the resistant S-3 strain, but was found to initiate resistance in the susceptible PR-1 strain. In an attempt to understand the induced resistance in irradiated snails, histopathologic examinations and analyses of snail hemolymph were performed. Results indicated that miracidia invading irradiated snails were quickly surrounded and encapsulated by amoebocytes. Similarly, alterations in the hemolymph of irradiated snails suggested that radiation induced aging. It is suggested that radiation-altered snails may be of value in studying the defense mechanisms of these organisms.     

The encapsulation process in Biomphalaria glabrata experimentally infected with the metastrongylid Angiostrongylus cantonensis: light microscopy.

The most common route of infection of Biomphalaria glabrata experimentally exposed to first-stage larvae of Angiostrongylus cantonensis is via penetration of the gastric and prointestinal walls after ingestion. Subsequently, most parasites migrate through the kidney and rectal ridge to the mantle collar and head-foot of the gastropod at which sites they become lodged. Nematodes are encapsulated in B. glabrata beginning by 24/2-48 h post-infection. Encapsulation occurs as a two-phase process involving (1) initial infiltration and aggregation of basophilic hemolymph cells around the parasite and (2) subsequent transformation of such cellular aggregates into more fibrous-appearing nodules. The small number of parasites which localize in such tissues as the rectal ridge, kidney, or vascular connective tissue near the gonad are similarly encapsulated.     

Inducement of miracidia-immobilizing substance in the hemolymph of Biomphalaria glabrata

Lie K. J., Jeong K. H. and Heyneman D. 1980. Inducement of miracidia-immobilizing substance in the hemolymph of Biomphalaria glabrata. Intemational Journal for Parasitology10: 183–188. More than 85% of echinostome-infected albino B. glabrata laboratory strain snails develop miracidia-immobilizing substance(s) (MIS) in the hemolymph, while less than 5% of control uninfected snails show this ability. Snails infected with Echinostoma lindoense show a strong miracidial immobilizing test (MIT) when homologous miracidia are exposed to the hemolymph and a moderate response when E. liei and Paryphostomum segregatum miracidia are used. Infection with E. paraensei results in a high level of hemolymph MIS with E. lindoense miracidia, a moderate one with P. segregatum miracidia, and a weak one when hemolymph is tested against E. liei as well as the homologous E. paraensei miracidia. Infection with E. liei induces a strong MIT with E. lindoense miracidia whereas only a moderate one was observed when using homologous or P. segregatum miracidia. Infection with P. segregatum gives a moderate MIT reaction to miracidia of the homologous species, as well as to E. lindoense and E. liei, and only a weak response to E. paraensei miracidia. Infection with S. mansoni fails to induce hemolymph that shows MIS to any of the parasites tested. Production of hemolymph MIS is temporary. It begins one day postexposure, reaches its maximum 10–14 days postexposure, and declines to the preinfection level several weeks later. Infection of snails with irradiated parasites also results in a temporary production of hemolymph MIS.Uninfected snails show a tissue-extract MIS, which is especially strong when digestive gland extracts are used. However, these snails give little or no evidence of a hemolymph MIS.     

Schistosoma mansoni and Biomphalaria glabrata share epitopes: antibodies to sporocysts bind host snail hemocytes

Using an independent protocol, we have confirmed that sporocysts of the human blood fluke, Schistosoma mansoni, synthesize antigens which stimulate rabbit antibody activity to epitopes on infermediate snail host hemocytes. This molecular mimicry may aid S. mansoni to escape the innate immune system of this host, Biomphalaria glabrata.     

Biomphalaria species in Alexandria water channels

Of the several species of Biomphalaria snails worldwide that serve as the intermediate host for Schistosoma mansoni, Biomphalaria alexandrina is a species that is indigenous to Egypt. Recently, there has been much debate concerning the presence of Biomphalaria glabrata and the hybrid of the species with Biomphalaria alexandrina. Due to this debate, the absence of a clear explanation for the presence of B. glabrata in Egyptian water channels and the probability that they may be reintroduced, we conducted this field study to identify Biomphalaria species present in Alexandria water channels. Laboratory-adapted susceptible snails to Schistosoma mansoni of the following species were used as a reference; Biomphalaria alexandrina, Biomphalaria glabrata and their hybrid. These snails were used to perpetuate the Schistosoma life cycle at the Theodor Bilharz Research Institute (TBRI), Cairo, Egypt. Morphological and molecular studies were conducted on these reference snails as well as on the first generation of Biomphalaria snails from two areas in the Alexandria governorate. The morphological study included both external shell morphology and internal anatomy of the renal ridge. The molecular study used a species-specific PCR technique.The results demonstrated that there was an absence of Biomphalaria glabrata and the hybrid from Alexandria water channels. Moreover, the susceptibility patterns of these reference snails were studied by measuring the different parasitological parameters. It was found that Biomphalaria glabrata and the hybrid were significantly more susceptible than Biomphalaria alexandrina to the Egyptian strain of Schistosoma mansoni. The results demonstrated that if Biomphalaria glabrata was reintroduced and adapted to the local environment in Egypt, it would have important epidemiologic impacts that would have a serious effect on the health of Egyptian people.     

Schistosoma mansoni: Lysozyme activity in Biomphalaria glabrata during infection with two strains

Levels of lysozyme activity were determined in the hemolymph, digestive gland, and headfoot extracts of M-line stock of snails, Biomphalaria glabrata, during infection with the PR-1 and Lc-1 strains of the trematode, Schistosoma mansoni. At 3 hr postexposure there was a 10-fold increase in the levels of enzyme activity in the hemolymph of snails infected with the Lc-1 strain to which the snail is resistant. This increase was considerably higher when compared to the threefold increase in the PR-1-infected snails. The infection also induced a gradual depletion of lysozyme activity in the headfoot muscles of the two groups of infected snails. There were no changes in the levels of enzyme activity in the digestive gland extracts of the control and the two groups of infected snails. Similar changes in the levels of enzyme activity in the hemolymph and headfoot extracts of infected snails suggest a nonspecific response to a parasite infection and do not indicate that lysozyme is primarily responsible for the destruction of schistosome parasite in a resistant snail host.