Changes of phospholipid fatty acid composition in the digestive gland of the mollusc Littorina saxatilis, caused by trematode larvae

Lipids in the digestive gland of the mollusc Littorina saxatilis from the White and Barents Seas were studied. Changes of their biochemical composition are discussed in the connection with different temperature of the habitat and with infestation with trematode larvae. Comparative analysis of the fa...

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Published inJournal of evolutionary biochemistry and physiology Vol. 43; no. 4; pp. 388 - 397
Main Authors Arakelova, E. S., Chebotareva, M. A., Zabelinskii, S. A., Shukolyukova, E. P.
Format Journal Article
LanguageEnglish
Published New York Springer Nature B.V 01.08.2007
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Summary:Lipids in the digestive gland of the mollusc Littorina saxatilis from the White and Barents Seas were studied. Changes of their biochemical composition are discussed in the connection with different temperature of the habitat and with infestation with trematode larvae. Comparative analysis of the fatty acid (FA) composition of each of the phospholipids in intact molluscs has revealed essential differences. Phosphatidylcholine and monophosphatidylinositol (MPI) FA did not differ in the ω3/ω6 ratio, which is due to their tolerance to the temperature factor, whereas more unsaturated phospholipids--phosphatidylethanolamine (PEA), its plasmalogen form (pPEA), and phosphatidylserine--differed 1.5-2 times in the studied molluscs. Prevalence of ω3-acids in Barents Sea mollusc is associated undoubtedly with lower habitat temperatures, as this provides a higher fluidity of the membrane phospholipids. Infestation affected to the greatest degree the quantitative FA composition in pPEA and MPI. At infestation, there was revealed a threefold decrease of the content of eicosenoic FA, C20:1, only in MPI among all considered phospholipids, whereas it was increased, in the contrary, in all other phospholipids. Monophosphatidylinositols differed essentially from other phospholipids by the saturated FA amount as well, which changed the unsaturation index of these phospholipids. Since the functional significance of this minor phospholipid is determined by its participation in the so-called phosphatidylinositol system of the hormonal signal transduction, it seems interesting to elucidate whether the increase of this membrane phospholipid saturation at invasion affects the reflex connection between signals from receptors located in the parasite and enzymatic processes.[PUBLICATION ABSTRACT]
ISSN:0022-0930
1608-3202
DOI:10.1134/S0022093007030035