A time-lapse study of interactions between Echinostoma paraensei intramolluscan larval stages and adherent hemocytes from Biomphalaria glabrata and Helix aspersa

In vitro interactions between intramolluscan stages (sporocyst, daughter rediae, and metacercariae) of the trematode parasite Echinostoma paraensei and adherent hemocytes from the gastropods Biomphalaria glabrata (intermediate host) and Helix aspersa (non-host) were visualized by time-lapse videomic...

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Bibliographic Details
Published inThe Journal of parasitology Vol. 80; no. 5; p. 719
Main Authors Adema, C M, Arguello, 2nd, D F, Stricker, S A, Loker, E S
Format Journal Article
LanguageEnglish
Published United States 01.10.1994
Subjects
Analysis of Variance
Animals
Biomphalaria - parasitology
Cell Adhesion
Echinostoma - physiology
Helix (Snails) - parasitology
Hemocytes - cytology
Hemocytes - immunology
Hemocytes - parasitology
Host-Parasite Interactions
Image Processing, Computer-Assisted
Microscopy, Video
Phagocytosis
Species Specificity
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Summary:In vitro interactions between intramolluscan stages (sporocyst, daughter rediae, and metacercariae) of the trematode parasite Echinostoma paraensei and adherent hemocytes from the gastropods Biomphalaria glabrata (intermediate host) and Helix aspersa (non-host) were visualized by time-lapse videomicroscopy. Hemocytes of either species not exposed to E. paraensei displayed extensive mobility and activity of cellular extensions. Image analysis disclosed no significant change in the total surface area occupied by hemocytes in a selected field of view over 2 hr. Echinostoma paraensei exerted life stage-specific effects on the behavior of B. glabrata hemocytes; the cells moved away from sporocysts and daughter rediae but not encysted metacercariae. In the presence of sporocysts, hemocytes rounded up, whereas hemocytes adjacent to rediae assumed a stringy, beady appearance. Hemocytes close to the parasite were affected more rapidly than more distant cells. In 2 hr, a hemocyte-free "halo" formed around the parasite larvae, significantly reducing the hemocyte-occupied surface area (to 43% by sporocysts and to 70% by rediae). The changes induced by sporocysts and rediae are similar to those noted in both in vivo and in vitro studies of the B. glabrata-E. paraensei model system and are interpreted as manifestations of parasite-mediated interference with host hemocyte function. Helix aspersa (non-host) hemocytes were not affected, suggesting that E. paraensei-mediated effects on hemocytes exhibit a degree of specificity.
ISSN:0022-3395
DOI:10.2307/3283251