Effect of exposure to Echinostoma itliei miracidia on growth and survival of young Biomphalaria glabrata snails

Kuris A. M. 1980. Effect of exposure to Echinostoma liei miracidia on growth and survival of young Biomphalaria glabrata snails. International Journal for Parasitology10: 303–308. Exposure to miracidia of Echinostoma liei resulted in increased mortality and reduced growth of 1–2 mm albino Biomphalaria glabrata snails whether or not the snails became infected. Growth rates for infected and exposed but uninfected snails were significantly more variable than growth rates of unexposed snails. Retarded growth and increased mortality were detected as rapidly as seven to nine days after exposure. Neither growth nor survivorship of 4–6 mm snails was altered upon exposure to or infection by E. liei.     

Changes in the reproductive biology of Biomphalara glabrata infected with different doses of Echinostoma paraensei miracidia

The egg-laying rate, number of egg masses, number of eggs/mass, number of eggs hatched/snail and egg viability of Biomphalaria glabrata exposed to different doses (5 and 50) of Echinostoma paraensei miracidia were analyzed as indicators of reproductive activity. Polystyrene plates were placed in aquariums containing the snails and every other day for four weeks after infection the plates were removed to count the number of egg masses and eggs laid. After this, the plates were numbered individually and placed in new aquariums free of snails and the egg masses were observed daily to determine the hatching rate. On average there was an increase in the parameters evaluated in the infected snails in relation to the controls (uninfected snails), except for egg viability, which was significantly lower in the groups infected with 50 miracidia. These findings indicate that when infected, this host snail is able to increase its reproductive activity, suggesting an ecological strategy to maintain the species.     

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.     

Echinostoma revolutum: Labeling of miracidia with radioselenium in vivo and assay for host finding

Radioactivity was incorporated into Echinostoma revolutum worms and eggs when ⁷⁵Semethionine was administered intraperitoneally to mice infected with the fluke parasites. The levels of incorporation of radioactivity increased in proportion to the amounts of radioselenium used. During the period 3–10 days p.i. the maximum egg-bound radioactivity was, in general, achieved 3 days after the administration of the radioisotope, but substantial radiolabeling was obtained at all isotope levels until Day 10. The radioactivity of the miracidium constituted 29–34% of that of the egg. The radiolabeling procedure did not interfere with the biological characteristics (behavioral activity, infectivity) of the radiolabeled miracidia. Thus, the use of such labeled miracidia for host-finding studies seems acceptable. A radioisotope tracer system for assaying E. revolutum miracidial host finding was described. This system employs exposure of the first intermediate host snail, Biomphalaria alexandrina, to radiolabeled miracidia. A linear proportionality was found to exist between the number of penetrating miracidia and the amount of snail-bound radioactivity. Thus, snail-bound radioactivity retained after exposure to radiolabeled miracidia can be used to measure miracidial host-finding capacity under various experimental conditions.     

Storage and incubation of Echinostoma revolutum eggs recovered from wild Branta canadensis, and their infectivity to Lymnaea tomentosa snails

Echinostoma revolutum eggs recovered from naturally infected wild Canada geese (Branta canadensis) were cold stored (4-6 degrees C) for up to 72 weeks. Successful hatching followed incubation for from 6 to 8 days at an optimum temperature of between 25 and 30 degrees C. A partial life cycle from adult worm to metacercarial encystment in Lymnaea tomentosa snails was completed in the laboratory. Snails were infected both by free miracidia and by ingestment of unhatched embryonated eggs. Infection was equally successful in environmental temperature ranges from 10 to 25 degrees C, and at challenge levels of 2, 5 or 10 embryonated eggs per snail. Exposure to 10 eggs was lethal. Ingestion by snails of embryonated eggs with successful infection at 10 degrees C suggests that embryonated eggs may be used to infect wild snails when the environmental water temperature has reached 10 degrees C.     

Cercarial shedding of Echinostoma cinetorchis and experimental infection of the cercariae to several kinds of snails

The development of Echinostoma cinetorchis in several snail species reared in laboratory aquaria was observed. The eggs from adult flukes collected from the intestine of rats were cultivated to miracidia, and exposed to Hippeutis sp. snails. Observations were made for cercarial shedding from the exposed snails. The cercariae shed from the snails were again exposed to several species of fresh water snails in order to observe metacercarial formation in the snails and their infectivity to final hosts. The results obtained in this study were as follows: 1. Twenty miracidia were exposed to each snail of Hippeutis sp. About 58.3% of the above snails (7 out of 12) were dead before shedding the cercariae, and the remainder shed the cercariae for a period of 7 to 9 days before death. 2. Cercarial shedding from the infected snails started from the 25th day after the exposure to miracidia, and the total number of cercariae shed per snail was 684 in average (range; 482-904). 3. The size of rediae developed in the infected Hippeutis sp. snails was 1,242 x 214 microns in average, and the number of rediae per snail was 350 in average (range; 120-510). 4. About 40 to 50 cercariae shed from the Hippeutis sp. snails were each exposed to several species of snails reared in the laboratory. The metacercarial formation was confirmed by dissecting the infected snails, 12 to 16 days after the infection.(ABSTRACT TRUNCATED AT 250 WORDS)     

Responses of Echinostoma caproni miracidia to gravity, light, and chemicals.

In a four-tube vertical system, Echinostoma caproni miracidia exhibited a strong negative geotaxis which was dominated by a positive phototaxis. In horizontal chambers a positive phototactic response was also demonstrated. These miracidia showed a positive chemoresponse, as determined in phi-chambers, to glutamic and aspartic acids but not leucine. Positive responses were also elicited to snail-conditioned water and sulfuric and acetic acids. Ammonia, Mg2+, and HCl produced no significant reactions. Responses of E. caproni and Schistosoma mansoni miracidia, both of which develop in Biomphalaria glabrata snails, were similar providing further evidence that miracidia mimic the behavioral patterns of compatible snail species.     

Effects of Schistosomatium douthitti infection on the growth, survival, and reproduction of Lymnaea catascopium

Lymnaea catascopium snails infected with Schistosomatium douthitti grew faster than uninfected control snails during the first 2 months postexposure, but thereafter grew more slowly, and by 8 months postexposure were significantly smaller. When reared in isolation, uninfected snails survived significantly longer (mean survival time, 515 days) than snails exposed to three miracidia each (400 days), which in turn survived longer than snails exposed to 10 miracidia per snail (223 days). When maintained in aquaria in contact with other snails, snails exposed to three miracidia each survived longer (227 days), but not significantly longer, than control snails (198 days). Production of large numbers of eggs by control snails grown under the latter conditions may account for their reduced survival. The ovotestes and accessory genitalia of snails infected with S. douthitti were much reduced in size in comparison with uninfected control snails. These effects were most pronounced in snails which had been infected for over 100 days. Egg production was normally totally inhibited if snails were infected before the onset of sexual maturity. If infected after the onset of maturity, eggs were produced only during the prepatent period.     

The effect of varying the number of Schistosoma mansoni miracidia on the reproduction and survival of Biomphalaria pfeifferi

The number of young snails emerging from egg masses of Biomphalaria pfeifferi (Kampala strain) is reduced by exposure to an increasing number of miracidia of Schistosoma mansoni (West Nile strain). Snails exposed to four miracidia are rendered sterile. Survival of infected snails is inversely proportional to the number of miracidia to which an individual snail is exposed.     

Effects of UVB on interactions between Schistosoma mansoni and Biomphalaria glabrata

Ultraviolet B (UVB, 280-315 nm) radiation is detrimental to both of larvae of the digenetic trematode Schistosoma mansoni and its snail intermediate host, Biomphalaria glabrata. We explored effects of UVB on three aspects of the interaction between host and parasite: survival of infected snails, innate susceptibility and resistance of snails to infection, and acquired resistance induced by irradiated miracidia. Snails infected for 1 week showed significantly lower survival than uninfected snails following irradiation with a range of UVB intensities. In contrast to known immunomodulatory effects in vertebrates, an effect of UVB on susceptibility or resistance of snails to infection could not be conclusively demonstrated. Finally, exposure of susceptible snails to UVB-irradiated miracidia failed to induce resistance to a subsequent challenge with nonirradiated miracidia, a result similar to that reported previously with ionizing radiation.     

Location of Biomphalaria pfeifferi by Schistosoma mansoni miracidia in stagnant and running water under field conditions

The efficiency of S. mansoni miracidia in locating and infecting Biomphalaria pfeifferi in Gezira canals has been studied under field conditions. When S. mansoni eggs were introduced into clean stagnant water in small field channels, the miracidia hatched to infect 100% of 30 snails in cages at the release point. Fifteen metres upstream and downstream 13% of caged snails were infected but no infections were found in snails 20 m away.When eggs were released into the same canal in flowing water (8.3 cm · s^–1), no infections were detected in any of the caged snails placed 0–100 m downstream. Releasing hatched miracidia instead of eggs resulted in infections in all cages at 5 m intervals from 0-100 m. The release of eggs into flowing water was likened to the method by which S. haematobium eggs are deposited during urination. The 0% infection suggests that eggs will be swept away from the point of contamination by the flow. Thus only urination into stagnant water will lead to heavy snail infection rates.When eggs were released into a small pond-like minor canal tail end snail infection rates were only 3%. This was probably due to the larger water volume, smaller number of caged snails, and the presence of vegetation and other fauna which may be decoys or predators.The results highlight how very high snail infection rates can be produced under ideal conditions but also show how large snail and miracidia numbers are required in natural situations.     

Schistosomatium douthitti: effects of Lymnaea catascopium age on susceptibility to infection

Laboratory-reared Lymnaea catascopium snails (1–269 days old) were exposed individually to different numbers of Schistosomatium douthitti miracidia. Increasing the exposure dosage from 3 to 10 miracidia generally increased infection rates, in some age classes up to 100%. Successful re-exposure of snails not infected after a primary exposure was possible. Neonatal snails were least likely to become infected, primarily because miracidia were not attracted to them. Snails 12–55 days old were most susceptible to infection. Miracidia were readily attracted to these snails, and many were ingested and subsequently penetrated the host esophageal wall. Miracidial penetration of external snail surfaces was rare. Susceptibility of older snails (65–269 days) progressively declined with age. Many miracidia were entangled and immobilized in mucus produced by these snails, and fewer were ingested. No conspicuous host cellular responses to mother sporocysts were observed in any of the snails sectioned. A comparison of susceptibility of deliberately stunted snails and comparably aged controls of normal size indicated that the former were more susceptible.     

Schistosomatium douthitti: Exposure of Lymnaea catascopium to irradiated miracidia

Irradiation of Schistosomatium douthitti miracidia (4000, 5000, or 6000 rad) did not substantially alter their behavior or ability to penetrate their snail host. Treatment with 4000 rad was not sufficient to prevent all miracidia from establishing patent infections in Lymnaea catascopium, although significantly fewer snails exposed to these miracidia shed cercariae than did controls exposed to normal miracidia. Irradiation of miracidia with either 5000 or 6000 rad totally prevented cercarial production. Although destruction of irradiated mother sporocysts by encapsulating amebocytes was occasionally observed, most expanded without concomitant multiplication of germinal cells and embryo production and then collapsed. They generally persisted in this state throughout the period of observation (32 days). Snails sensitized by exposure to irradiated miracidia and challenged 2 or 10 days later with normal miracidia were as likely to develop patent infections as were snails exposed only to normal miracidia. Double sensitization of snails with irradiated miracidia also failed to confer protection upon challenge with normal miracidia. Most challenge sporocysts developed normally, often in close proximity to collapsed irradiated sporocysts.     

Leucocytosis in Biomphalaria glabrata sensitized and resensitized to Echinostoma lindoense

Leucocytosis was shown to occur in the pulmonate gastropod Biomphalaria glabrata exposed to the trematode Echinostoma lindoense. In these sensitized snails, the leukocyte count in the hemolymph was elevated 3 to 5 days postexposure to miracidia, and prior to complete encapsulation of sporocysts. This increase continued 1 to 5 days after destruction of sensitizing, irradiated E. lindoense sporocysts. Counts returned to normal levels after this period. A significant and more rapid increase in numbers of circulating leukocytes occurred 1 to 6 hr after reexposure of snails to a sensitizing dose of nonirradiated E. lindoense sporocysts. The leukocyte counts usually returned to normal levels after this period, except in snails in which some resensitizing sporocysts remained alive.     

Ribeiroia marini: Irradiated miracidia and induction of acquired resistance in Biomphalaria glabrata

Biomphalaria glabrata snails sensitized by exposure to X-irradiated miracidia of the trematode, Ribeiroia marini, acquired resistance to challenge with nonirradiated R. marini miracidia. Resistance was acquired within 1 day of sensitization; was strongest at 1 week, when infection rates of sensitized snails were 15% of the controls (i.e., $\text{S}\text{C}\text{= 0.15}$); and persisted for at least 3 weeks. By 30 days the difference between the infection rates of sensitized and control snails was no longer statistically significant. As in previous studies with echinostomes, acquired resistance to R. marini was characterized histologically by the destruction of irradiated sporocysts by host amoebocytes. Following destruction of all irradiated sporocysts, snails became resistant and encapsulated and destroyed nonirradiated challenge sporocysts within 1 day postchallenge. Associated with sporocyst destruction was an enlargement of the amoebocyte-producing organ, which showed intense mitotic activity. A proportion of the nonirradiated challenge sporocysts were also destroyed in most nonsensitized control snails, which consequently had a temporarily enlarged amoebocyte-producing organ. In contrast to acquired resistance reported to echinotomes, which is quite specific, acquired resistance to R. marini was associated with nonsusceptibility to both Echinostoma paraensei ($\text{S}\text{C}\text{= 0.19}$) and Schistosoma mansoni ($\text{S}\text{C}\text{= 0.81}$).     

Age of adult worms of Echinostoma caproni does not affect development of miracidia

The effect of the age of adult Echinostoma caproni on egg development was studied. The percentage of fully developed miracidia was determined in eggs derived from adult worms obtained from laboratory mice at 2, 4, 6, and 8 wk postinfection (PI). Regardless of the age of worms from which the eggs were obtained, the percentage of fully developed miracidia was always >90%, and 60-80% of the eggs hatched. Several previous studies have shown that eggs derived from 2- to 4-wk-old E. caproni yielded miracidia that infected Biomphalaria glabrata snails. Results of the present study on E. caproni were in marked contrast to previous results with Echinostoma friedi, for which viable eggs were not obtained at 2 and 3 wk PI and maximal infectivity of miracidia in snails was obtained from eggs derived from worms collected at 8 and 9 wk PI. Further studies are needed to determine if the egg viability of other species in the "revolutum" group follow that of E. caproni or E. friedi.     

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.     

Ribeiroia marini: pathogenesis and larval trematode antagonism in the snail, Biomphalaria glabrata

Larval trematode antagonism between Ribeiroia marini and Schistosoma mansoni was studied in the snail Biomphalaria glabrata. A laboratory-raised Puerto Rican strain of B. glabrata was exposed to single and double infections with given numbers of: (1) embryonated eggs of R. marini from laboratory rats, and (2) miracidia of S. mansoni from mice. Snails were maintained in outside environmental tanks in San Juan, Puerto Rico and larval trematode interactions were examined in a series of five experiments. Snails of all sizes were highly susceptible to single infections with R. marini. Rediae and cercariae caused extensive damage to the digestive gland and ovotestis resulting in premature death of snails. Heavily infected snails were castrated and stopped laying eggs. Snails infected first with S. mansoni were only partly susceptible to superinfection with R. marini given on Day 23. In a reverse experiment, snails infected first with R. marini were only partly susceptible to a second infection with S. mansoni given on Day 23. In simultaneous exposures, snails developed double infections (22%) with R. marini dominant and S. mansoni sporocyst and cercaria production reduced. While R. marini is not a strong direct antagonist against established S. mansoni infections, it has several attributes as a possible biological control agent: hardy eggs easily produced in rats; high infectivity to snails of all ages; and ability to castrate and prematurely kill B. glabrata. The R. marini-rat system described here provides a convenient laboratory and field model for the study of intrasnail trematode antagonism and biological control.     

Influence of Echinostoma paraensei (Lie and Basch, 1967) infection on the calcium content in Biomphalaria glabrata (Say, 1818)

The calcium content in the hemolymph and shell of Biomphalaria glabrata (Say, 1818) was determined after exposure to different parasite burdens (5 and 50 miracidia) of Echinostoma paraensei (Lie and Basch, 1967). The snails were dissected 1, 2, 3, and 4 weeks after infection to collect the hemolymph and shell. An increase in calcemia was observed in snails infected with both miracidial doses. A significant decrease in the calcium ions in the shell was observed, coinciding with the calcemia peak in the hemolymph. This indicates greater mobilization of calcium between the shell and hemolymph to regulate the calcium content in the body when the snail is exposed to stress conditions, as has also been observed in some other infected snail species. The results obtained indicate that in this model, the calcium metabolism depends on the miracidial dose used.     

Studies on resistance in snails: Interference by nonirradiated echinostome larvae with natural resistance to Schistosoma mansoni in Biomphalaria glabrata

Most of the genetically selected juvenile Biomphalaria glabrata snails, normally strongly resistant to Schistosoma mansoni, lost their juvenile resistance to this parasite when other trematodes were concurrently present in the snail. Three echinostome species all were able to reduce this genetically controlled juvenile resistance: Echinostoma lindoense, E. paraensei, and e. liei. Subsequently, adult resistance to S. mansoni, clearly present in control snails of the same age and strain that were not doubly infected, failed to develop in most of the snails that also harbored echinostomes. Other snails, selected for resistance as adults to S. mansoni, also usually became susceptible to this parasite following infection with E. paraensei. The capacity of E. paraensei to interfere with the snails' resistance to S. mansoni was greater than that of E. lindoense. Destruction by predation of primary sporocysts of S. mansoni by echinostome rediae prevented completion of development of the S. mansoni infections. In a number of snails all primary S. mansoni sporocysts were consumed before secondary sporocysts could be formed. In most experimental snails, however, some of the schistosomes survived, often as a small number of degenerated secondary S. mansoni sporocysts. The capability of flukes to interfere with the natural defense of snails may be an important phenomenon whereby trematode species survive in their snail hosts.