Autor: L Lagadic, J Russo
Rok vydání: 2000
Předmět:
Zdroj: Cell Biology and Toxicology. 16:15-30
ISSN: 0742-2091
DOI: 10.1023/a:1007640519746
Popis: Morphological characteristics and functions of hemocytes were used to compare the immunological effects of biological and chemical stress in the freshwater snail Lymnaea palustris. Animals were either infected by a trematode parasite (Metaleptocephalus sp.), or exposed to environmental contaminants, namely atrazine and hexachlorobenzene (HCB). Three populations of circulating hemocytes, morphologically and cytochemically distinct (round cells, hyalinocytes, granulocytes), were identified in both control and parasitized or pesticide-exposed snails. After 6 h of exposure, HCB and atrazine resulted in 8-fold increases in the mean total number of hemocytes, whereas only a 2.2-fold increase was observed 6 h after cercaria emission in parasitized snails. The impact of HCB was limited to the first 24 h of exposure, whereas long-lasting effects of atrazine were observed. Hyalinocytes and, to a lesser extent, round cells contributed most to the increases in hemocyte density in pesticide-exposed snails. Parasitism and atrazine treatment resulted in significant increases of lectin-stained hemocytes, whereas exposure to HCB did not affect the percentages of stained and unstained cells. Hemocyte phagocytic activity increased in HCB-exposed snails but with no concomitant change of the oxidative burst. Opposite results were obtained in atrazine-treated snail hemocytes, with unchanged phagocytosis and decreased phorbol 12-myristate 13-acetate-stimulated production of reactive oxygen intermediates. No increase in phagocytosis, or in the production of reactive oxygen intermediates, was observed in hemocytes from parasitized snails. Infection with the immunologically compatible trematode parasite Metaleptocephalus sp. and exposure to atrazine generated similar reactions from circulating hemocytes, whereas a different response pattern was observed in HCB-exposed snails.
Databáze: OpenAIRE