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  • Title: Phosphorylcholine substituents in nematodes: structures, occurrence and biological implications.
    Author: Lochnit G, Dennis RD, Geyer R.
    Journal: Biol Chem; 2000; 381(9-10):839-47. PubMed ID: 11076016.
    Abstract:
    Phosphorylcholine (PC), a small haptenic molecule, is found in a wide variety of prokaryotic organisms, i. e. bacteria, and in eukaryotic parasites such as nematodes, as well as in fungi. Linked to parasite-specific glycoprotein glycans or glycolipids, it is assumed to be responsible for a variety of immunological effects, including invasion mechanisms and long-term persistence of parasites within the host. Numerous reports have indicated various effects of PC-substituted molecules derived from parasitic nematodes on signal transduction pathways in B and T lymphocytes, displaying a highly adapted and profound modulation of the immune system by these parasites. The Nematoda, comprising parasitic and free-living species, can be regarded as promising prototypic systems for structural analyses, immunological studies and biosynthetic investigations. In this context, Ascaris suum, the pig parasitic nematode, is an ideal organism for immunological studies and an excellent source for obtaining large amounts of PC-substituted (macro)molecules. Caenorhabditis elegans, as a completely genome-sequenced species and expressing parasite analogous PC-substituted structures, together with the possibility for easy in vitro cultivation, represents a conceptual model for biosynthetic studies, whereas filarial parasites represent important model systems for human pathogens, especially in developing countries. This review summarises current knowledge on the tissue-specific expression of PC epitopes, structural data of glycoprotein glycans and glycosphingolipids bearing this substituent and biological implications for the immune systems of the respective hosts.
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