Positive phototropism is accelerated in Biomphalaria glabrata snails by infection with Schistosoma mansoni

Parasite-induced behavioral changes in their hosts favor to complete the lifecycle of parasites. Schistosome infection is also known to cause physiological changes in infected freshwater snail intermediate hosts. Here, we report, a novel phenomenon in which Schistosoma mansoni, a highly debilitating worm affecting millions of people worldwide, alters the phototropic behavior of Biomphalaria glabrata, the vector snail. S. mansoni-infection enhanced positive phototropism of vector snails and infected snails spent significantly more time in light. Possibly, these behavioral changes help the parasite to be released efficiently from the infected intermediate hosts, and to infect mammalian hosts.     

Schistosome sporocyst-killing Amoebae isolated from Biomphalaria glabrata.

Explants and swabs from the pericardium and mantle of three strains of Biomphalaria glabrata, two of them resistant to infection with Schistosoma mansoni, have yielded small amoebae, 3–5μm in diameter, in culture. These amoebae have been grown axenically through > 50 passages to date. The amoebae form cysts in dense cultures. When mixed with S. mansoni mother sporocysts in vitro, the amoebae adhere to and kill the trematodes within several hours. For 1–2 days thereafter, the amoebae proliferate rapidly at a generation time of about 5 hr, then return to normal growth. Sonically disrupted sporocysts also induce proliferation. Live sporocysts do not attract the amoebae or emit soluble substances which influence amoebal growth. Amoebae also adhered to and killed S. mansoni daughter sporocysts and cells derived from B. glabrata embryos; however, they did not harm S. mansoni cercariae or rediae of other trematode species. The proportion of mantle explants yielding amoebae was significantly higher (P<0.05) in one of the resistant snail strains than in the susceptible strain; however, whether amoebae contribute to snail resistance is unknown. Exposure of snails to S. mansoni miracidia did not influence the proportion of snails yielding amoebae.     

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.     

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.     

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.     

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.     

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.     

Female biased sex-ratio in Schistosoma mansoni after exposure to an allopatric intermediate host strain of Biomphalaria glabrata

For parasites that require multiple hosts to complete their development, the interaction with the intermediate host may have an impact on parasite transmission and development in the definitive host. The human parasite Schistosoma mansoni needs two different hosts to complete its life cycle: the freshwater snail Biomphalaria glabrata (in South America) as intermediate host and a human or rodents as final host. To investigate the influence of the host environment on life history traits in the absence of selection, we performed experimental infections of two B. glabrata strains of different geographic origin with the same clonal population of S. mansoni. One B. glabrata strain is the sympatric host and the other one the allopatric host. We measured prevalence in the snail, the cercarial infectivity, sex-ratio, immunopathology in the final host and microsatellite frequencies of individual larvae in three successive generations.     

Field studies on the bionomics of the free-living stages of St. Lucian Schistosoma mansoni.

Densities of Schistosoma mansoni miracidia and cercariae in natural habitats in three St. Lucian valleys were monitored over a 3-year period by exposure of sentinel snails, Biomphalaria glabrata, and a cercariometric technique, supplemented by sampling of field snails. Separate measures for control of S. mansoni transmission were under evaluation in two of the valleys. Sentinel snails became infected sporadically and their infection rates per valley ranged from 0·12% to 4·99%. S. mansoni miracidial inoculation rates ranged from 1 to over 4 per infected sentinel snail. Combined rainfall of more than 3 in on the day before any day of sentinel snail exposure interfered with miracidium-snail interaction. Densities of S. mansoni cercariae ranged from 0·05 to 21 per litre of water sampled. The number of cercariae detected in a habitat by cercariometry was directly proportional to the number of infected field snails. Sentinel snail infection rates exhibited a downward and an upward trend, respectively, in the controlled and uncontrolled areas, although the changes were not significant statistically.     

Hemocytes of Biomphalaria glabrata: Factors affecting variability

Variability in the hemocyte number of two geographic strains of Biomphalaria glabrata was studied. In each strain a logarithmic increase in hemocyte number associated with increasing shell size was observed. A two fold increase in circulating hemocytes occurred 2 hr following the exposure of a susceptible strain of B. glabrata to miracidia of Schistosoma mansoni. The hemocyte number was dependent on the temperatures at which the snails were maintained.     

Differences in esterase frequencies in five strains of Biomphalaria glabrata (Say)

Bair R. D. and Etges F. J. 1973. Differences in esterase frequencies in five strains of Biomphalaria glabrata (Say). International Journal for Parasitology, 3: 43–46. Vertical polyacrylamidegel electrophoresis of extracts from hepatopancreas tissue of individual snails of five laboratory strains of Biomphalaria glabrata has shown considerable variation in the frequency of occurrence of ten esterases. Differences in esterase frequencies seemed correlated with strain differences in certain morphological, physiological, and biochemical aspects of the snail strains; however, no causal relationships are apparent in these systems.     

Schistosoma mansoni: Effect of rotifers on cercarial output,motility and infect1vity

Spontaneous colonization of rotifers on the shells of schistosome-infected Biomphalaria glabrata reduced the cercarial output of these snails and the motility and infectivity of the cercariae which did emerge. The rotifer effect was observed not only in the actual presence of rotifers, but also in rotifer-conditioned water from which the rotifers themselves had been removed by nitration. The significance of the rotifer effect to laboratory maintenance of S. mansoni is considerable. It may be one of many factors which reduce the infective index under field conditions.     

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.     

Echinostoma liei miracidia and Biomphalariaglabrata snails: Effect of egg age,habitat heterogeneity,water quality and volume on infectivity

Infectivity of Echinostoma liei miracidia to NIH albino Biomphalaria glabrata declines significantly from 62% with eggs incubated for 10–24 days to 3% for eggs incubated for 30–42 days. In mass exposures of 25 snails to 125 miracidia in 1 liter of water infectivity was high (54–66 %) and not affected by the presence of lettuce, plastic sheets, chalk, detritus or snail-conditioned water. In distilled water or snail-conditioned water the proportion of infected snails exposed singly to five miracidia per snail in 5 ml was not significantly different from the results of mass exposures of 25 snails in 1 liter to the same snail: miracidia ratio. Some evidence is presented suggesting that infected snails are less likely to suffer mortality than uninfected snails during the first 7–10 days post-exposure.The results suggest that Echinostoma liei miracidial searching efficiency is robust in volumes of at least 1 liter and in a heterogeneous habitat. These aspects enhance the competitive potential of echinostomes as possible biological control agents for Schistosoma mansoni.