Fibrinogen-related proteins in ixodid ticks

<p>Abstract</p> <p>Background</p> <p>Fibrinogen-related proteins with lectin activity are believed to be part of the tick innate immune system. Several fibrinogen-related proteins have been described and characterised mainly on the basis of their cDNA sequences while direct biochemical evidence is missing. One of them, the haemolymph lectin Dorin M from the tick <it>Ornithodoros moubata </it>was isolated and characterised in more depth.</p> <p>Results</p> <p>Several fibrinogen-related proteins were detected in the haemolymph of ixodid ticks <it>Dermacentor marginatus</it>, <it>Rhipicephalus appendiculatus</it>, <it>R. pulchellus</it>, and <it>R. sanguineus</it>. These proteins were recognised by sera directed against the tick lectin Dorin M and the haemagglutination activity of the ticks <it>R. appendiculatus </it>and <it>D. marginatus</it>. Cross-reactivity of the identified proteins with antibodies against the fibrinogen domain of the human ficolin was also shown. The carbohydrate-binding ability of tick haemolymph was confirmed by haemagglutination activity assays, and this activity was shown to be inhibited by neuraminic acid and sialylated glycoproteins as well as by N-acetylated hexosamines. The fibrinogen-related proteins were shown to be glycosylated and they were localised in salivary glands, midguts, and haemocytes of <it>D. marginatus</it>. Hemelipoglycoprotein was also recognised by sera directed against the fibrinogen-related proteins in all three <it>Rhipicephalus </it>species as well as in <it>D. marginatus</it>. However, this protein does not contain the fibrinogen domain and thus, the binding possibly results from the structure similarity between hemelipoglycoprotein and the fibrinogen domain.</p> <p>Conclusions</p> <p>The presence of fibrinogen-related proteins was shown in the haemolymph of four tick species in high abundance. Reactivity of antibodies directed against ficolin or fibrinogen-related proteins with proteins which do not contain the fibrinogen domain points out the importance of sequence analysis of the identified proteins in further studies. Previously observed expression of fibrinogen-related proteins in haemocytes together with the results of this study suggest involvement of fibrinogen-related proteins in tick immunity processes. Thus, they have potential as targets for anti-tick vaccines and as antimicrobial proteins in pharmacology. Research on fibrinogen-related proteins could reveal further details of tick innate immunity processes.</p

Functional characterization of two defensin isoforms of the hard tick Ixodes ricinus

<p>Abstract</p> <p>Background</p> <p>The immune system of ticks is stimulated to produce many pharmacologically active molecules during feeding and especially during pathogen invasion. The family of cationic peptides - defensins - represents a specific group of antimicrobial compounds with six conserved cysteine residues in a molecule.</p> <p>Results</p> <p>Two isoforms of the defensin gene <it>(def1 </it>and <it>def2</it>) were identified in the European tick <it>Ixodes ricinus</it>. Expression of both genes was induced in different tick organs by a blood feeding or pathogen injection. We have tested the ability of synthetic peptides def1 and def2 to inhibit the growth or directly kill several pathogens. The antimicrobial activities (expressed as minimal inhibition concentration and minimal bactericidal concentration values) against Gram positive bacteria were confirmed, while Gram negative bacteria, yeast, Tick Borne Encephalitis and West Nile Viruses were shown to be insensitive. In addition to antimicrobial activities, the hemolysis effect of def1 and def2 on human erythrocytes was also established.</p> <p>Conclusions</p> <p>Although there is nothing known about the realistic concentration of defensins in <it>I. ricinus </it>tick body, these results suggest that defensins play an important role in defence against different pathogens. Moreover this is a first report of a one amino acid substitution in a defensins molecule and its impact on antimicrobial activity.</p

Lectins (hemagglutinins) in the gut of the important disease vectors

The review is devoted to the gut lectins/hemagglutinins of the following representatives of important disease vectors : ticks, kissing-bugs, mosquitoes, sandflies and tsetse flies. The paper surveys the recent knowledge on these carbohydrate binding factors with respect to their structural and functional properties, and their significance for pathogen/parasite transmission by the blood-sucking arthropods. Recent results suggest that in most vectors the gut lectin activities are blood-meal enhanced, might participate in blood-meal processing and digestion and could serve as antibacterial and antiparasitic agents

Lectins of

Cercariae of Trichobilharzia szidati were examined for the presence of endogenous lectins. The haemagglutination caused by the cercarial homogenate was inhibited by glycoconjugates (heparin, hyaluronic acid, lipopolysaccharide, bovine submaxillar mucin, thyroglobulin) and saccharides (lactulose, laminarin, D-galacturonic acid). Ligand blotting with laminarin-conjugate revealed the existence of one laminarin-binding protein in the sample. This protein migrates mostly as a double-band under non-reducing conditions (48-52 kDa), and as a single-band under reducing conditions (54-56 kDa). Identical bands were recognized by specific mouse antibodies raised against agglutinins bound on mouse erythrocytes. Labeled laminarin and/or heparin reacted with postacetabular glands on histological sections. Similarly, the binding of Lotus tetragonolobus lectin as a glycoprotein ligand supported the finding that the cercarial lectin is localized in postacetabular glands. Moreover, there is an indication that a lectin is present on the cercarial surface. In agreement with affinity fluorescence, mouse antibodies to the cercarial haemagglutinins recognized the postacetabular penetration glands and the surface of cercariae