Total protein and carbohydrate content and protease and disaccharidase activities in the hemolymph of Lymnaea stagnalis naturally infected with digenean larvae

Abstract

Lymnaea stagnalis is an intermediate host of many Digenea. The infestation affects host metabolism. The aim of the work was to investigate hemolymph biochemical indicators of L. stagnalis infected with four species of trematodes: Diplostomum pseudospathaceum, Paryphostomum radiatum, Plagiorchis elegans or Opisthioglyphe ranae. The protein profiles and proteinase activity in the hemolymph of sexually mature individuals of Lymnaea stagnalis maintained at 19°C were tested. As the carbohydrates are main substrates for energetic metabolism of the great pond snail their content and disaccharidase activity were also studied. Hemolymph samples were collected during weeks 3 and 4 of rearing. No significant differences in the total protein content between uninfected individuals and snails infected with the first three trematode species were detected. In the snails infected with O. ranae the quantity of total proteins was near twice higher than in those uninfected. A higher share of 70 kDa proteins in infected than in uninfected snails as well as reduction of the low molecular weight fractions of proteins for snails infected with D. pseudospathaceum and P. radiatum were detected. During week 3, carbohydrate content in the infected snails did not differ from that in the controls while during week 4 it was significantly lower in snails infected with P. elegans or O. ranae. The content of the major soluble carbohydrate in the hemolymph - saccharose — changed in a similar way. No activity of trypsin or pepsin in the hemolymph sample was detected while the activity of chymotrypsin was lower in infected snails vs. controls. On the other hand, saccharase and maltase activities were higher in infected than in uninfected snails. The biochemical hemolymph indicators in naturally infected host-snails show some differences depending on the parasite species but they are not sufficiently species-specific to offer the basis for establishing the model unique for a particular parasitosis. Our results from the field did not always coincide with those from the laboratory.