-
[show abstract]
[hide abstract]
ABSTRACT: 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., ); 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 () and Schistosoma mansoni ().
Experimental Parasitology 03/1982; · 2.12 Impact Factor
-
[show abstract]
[hide abstract]
ABSTRACT: The amebocyte-producing organ (APO) in normal and echinostome-sensitized was studied at the ultrastructural level. The APO in unexposed snails consists of small clusters of primary ameboblasts resting on the epithelial cells lining the pericardium. The ameboblasts are held in a loose reticulum formed by extensions from smooth muscle and few fibroblastic cells. Secondary ameboblasts and amebocytes constitute further stages of this cell line. Amebocytes, resembling cells in the snail's circulation, appear in the blood sinus coursing through the interior of the APO. Exposure of snails to echinostome miracidia results in significant morphological changes in the organ. Large clusters of primary and and secondary ameboblasts appear, many of these cells undergoing mitosis. Fully activated APOs consist of masses of cells loosely arranged in zones of progressive maturation. Blood cells in activated APOs were significantly larger than those seen in normal APOs.
Developmental & Comparative Immunology.
-
[show abstract]
[hide abstract]
ABSTRACT: Comparisons of the levels of aminopeptidase activity in the hemocytes and serum of Biomphalaria glabrata at 20 and 30 days postexposure to irradiated Echinostoma lindoense miracidia with enzyme levels in control snails have revealed that there are significant elevations in the serum of snails at both time periods postexposure. Furthermore, there is a significantly higher level of aminopeptidase activity in the serum of snails at 30 days than at 20 days postexposure. Although the biologic function of the elevated levels of serum aminopeptidase in sensitized snails remains uncertain, it is possible that this lysosomal enzyme may degrade the surface proteins of secondarily introduced parasites and thus act as a form of acquired humoral immunity.
Journal of Invertebrate Pathology.
