Antibody-independent binding and activation of complement by Schistosoma mansoni adult worms

Reduction of autofluorescence in whole adult worms of Schistosoma japonicum for immunofluorescence assay

Immunofluorescence assay is one of methods to understand the spatial biology by visualizing localization of biomolecules in cells and tissues. Autofluorescence, as a common phenomenon in organisms, is a background signal interfering the immunolocalization assay of schistosome biomolecules, and may lead to misinterpretation of the biomolecular function. However, applicable method for reducing the autofluorescence in Schistosoma remains unclear. In order to find a suitable method for reducing autofluorescence of schistosomes, different chemical reagents, such as Sudan black B (SBB), trypan blue (TB), copper sulfate (CuSO₄), Tris-glycine (Gly), and ammonia/ethanol (AE), at different concentrations and treatment time were tested, and SBB and CuSO₄ were verified for the effect of blocking autofluorescence in immunofluorescence to localize the target with anti-SjCRT antibody. By comparing the autofluorescence characteristics of different conditions, it was found that SBB, TB and CuSO₄ had a certain degree of reducing autofluorescence effect, and the best effect in females was using 50 mM CuSO₄ for 6 h and in males was 0.5% SBB for 6 h. Furthermore, we have applied the optimized conditions to the immunofluorescence of SjCRT protein, and the results revealed that the immunofluorescence signal of SjCRT was clearly visible without autofluorescence interference. We present an effective method to reduce autofluorescence in male and female worm of Schistosoma japonicum for immunofluorescence assay, which could be helpful to better understand biomolecular functions. Our method provides an idea for immunofluorescence assay in other flukes with autofluoresence.

Schistosoma mansoni TOR is a tetraspanning orphan receptor on the parasite surface

SUMMARY

A trispanning orphan receptor (TOR) has been described in Schistosoma haematobium and S. mansoni. Here we report the complete molecular organization of the S. mansoni TOR gene, also known as SmCRIT (complement C2 receptor inhibitor trispanning). The SmTOR gene consists of 4 exons and 3 introns as shown by cloning the single exons from S. mansoni genomic DNA and the corresponding cDNA from the larval stage (cercaria) and the adult worm. The SmTOR ORF consists of 1260 bp and is longer than previously reported, with a fourth trans-membrane domain (proposed new name: Tetraspanning Orphan Receptor) and with, however, an unchanged C2-binding domain on the extracellular domain 1 (ed1). This domain differs in S. japonicum. A protein at the approximate expected molecular weight (55 kDa) was detected in adult worm extracts with polyclonal and monoclonal antibodies, and was found to be expressed on the tegumental surface of cercariae.

Making sense of the schistosome surface

The syncytial cytoplasmic layer, termed the tegument, which covers the entire surface of adult schistosomes, is a major interface between the parasite and its host. Since schistosomes can survive for decades within the host bloodstream, they are clearly able to evade host immune responses, and their ability is dependent on the properties of the tegument surface. We review here the molecular organization and biochemical functions of the tegument, combining the extensive literature over the last three decades with recent proteomic studies. We have interpreted the organization of the tegument surface as bounded by a conventional plasma membrane overlain by a membrane-like secretion, the membranocalyx, with which host molecules can associate. The range of parasite proteins, glycans and lipids found in the surface complex is evaluated, together with the host molecules detected. We consider the way in which the tegument surface is formed after cercarial penetration into the skin, and changes that occur as parasites develop to maturity. Lastly, we review the evidence on surface dynamics and turnover.

Loss of complement activation and leukocyte adherence as Nippostrongylus brasiliensis develops within the murine host

Complement activation and C3 deposition on the surface of parasitic helminths may be important for recruitment of leukocytes and for damage to the target organism via cell-mediated mechanisms. Inhibition of complement activation would therefore be advantageous to parasites, minimizing damage and enhancing migration through tissues. The aim of this study was to determine ex vivo if complement activation by, and leukocyte adherence to, the nematode Nippostrongylus brasiliensis change as the parasite matures and migrates through the murine host. Pathways of activation of complement and the mechanism of adherence of leukocytes were also defined using sera from mice genetically deficient in either C1q, factor B, C1q and factor B, C3, or C4. Substantive deposition of C3 and adherence of eosinophil-rich leukocytes were seen with infective-stage (L3) but not with lung-stage (L4) larvae. Adult intestinal worms had low to intermediate levels of both C3 and leukocyte binding. For L3 and adult worms, complement deposition was principally dependent on the alternative pathway. For lung-stage larvae, the small amount of C3 detected was dependent to similar degrees on both the lectin and alternative pathways. The classical pathway was not involved for any of the life stages of the parasite. These results suggest that in primary infections, the infective stage of N. brasiliensis is vulnerable to complement-dependent attack by leukocytes. However, within the first 24 h of infection, N. brasiliensis acquires the ability to largely avoid complement-dependent immune responses.

Intravascular schistosomes and complement

Schistosomes are exposed to a variety of immunological effectors, such as host complement, in the bloodstream of their definitive hosts. The parasites are reported to possess a plethora of regulatory proteins, including molecules acquired from the host, which impede the complement cascade. Evidence for the presence of a surface C2-binding protein, a C3-binding protein and a C8- and C9-binding protein has been reported. In addition, a surface Fc receptor might bind immunoglobulin and limit its ability to fix complement. However, the actual protective role of these proteins in vivo remains unresolved.

Quantitation of complement and leukocyte binding to a parasitic helminth species

Methods used to quantify complement deposition and cell adherence to parasitic helminths usually involve subjective visual comparisons of immunofluorescence or time-consuming manual counting of bound cells. Such targets are relatively large and, generally, few individual organisms can be analysed. More objective and efficient radiometric assays are available, but these also have considerable disadvantages. We have developed an improved immunofluorescence-based method for quantitation of complement deposition on viable third-stage larvae of the nematode Nippostrongylus brasiliensis (L3). A similar strategy was also applied to measuring leukocyte adherence to the parasite. Fluorescein isothiocyanate (FITC)-conjugated antibodies were used to detect complement on serum-treated larvae. The adherence of carboxyfluorescein diacetate succinimidyl ester (CFSE)-labelled mouse leukocytes to larvae was investigated using the same basic approach. Images of fluorescent larvae or fluorescent cells attached to larvae were generated with a Bio-Rad Molecular Imager FX and fluorescence intensity was quantified. Hundreds of larvae can be analysed simultaneously in multiple samples, and these strategies allow rapid and sensitive quantitation that is directly proportional to the amount of protein or the number of leukocytes added to cultures. These techniques may also be applicable to other large objects, organisms or biological surfaces.

Schistosoma mansoni: interactions of adult parasites with the complement system

The interaction of the mouse complement system with adult male Schistosoma mansoni was studied by immunocytochemical localization procedures and in-vitro assays for complement mediated tegument damage. Mouse C3 was demonstrated to be associated with the parasite's tegument, but was localized only in the infoldings of the tegument and not on its free surface. Freshly harvested parasites manifested no detectable tegumental modification when incubated in normal mouse serum or in immune mouse serum. However, parasites which had been allowed to lose their adsorbed host components by elution (incubation in serum free media for 3 h at 37 degrees C) were severely damaged by incubation in normal mouse serum, but not by incubation in immune mouse serum. This damage was shown to be mediated by the alternative complement pathway and appeared to be initially limited to the tubercles of the adult male parasite. Tegument disruption could be blocked by pre-incubation of the eluted worms in either immune mouse serum or an IgG fraction of immune mouse serum. An IgG fraction of normal mouse serum did not protect the parasite, and infected mouse serum (IMS) which had been depleted of IgG produced tegument damage equivalent to that observed with normal mouse serum (NMS). The addition of I-IgG to NMS abrogated tegument damage. These data suggest that while adult schistosomes possess surface molecules bearing alternative pathway complement activation sites, these sites are masked by adsorbed host components in vivo. These results further indicate that in the absence of these masking host molecules anti-schistosome IgG may play a role in protecting the adult worm from alternative pathway activation, perhaps by binding to and blocking the activation sites on the tegument associated molecules.

Complement activation by antigenic fractions of Entamoeba histolytica

Complement (C) activation induced by Entamoeba histolytica in normal non-immune human serum was studied by testing in vitro the ability of different fractions of the trophozoites to cause C3 breakdown. Whole trophozoites were found to activate both alternative and classical C pathways. The antibody-independent classical pathway (MgEGTA inhibitable) C activating capacity was found to greatly increase after disruption of the cell membrane by sonication. Subsequent analysis after differential centrifugation and ion exchange chromatography of the membrane/particulate fractions showed, that this activity was not due to DNA, which has been shown to have the similar characteristics, but to other, as yet unidentified components. A rather homogenous membrane fraction obtained by elution with 0.4 M Tris-HCl, pH 8.1 (described as 4M) and some cytoplasmic constituents obtained after gel chromatography retained a moderate degree of alternative pathway C3 activating capacity seen with intact trophozoites. Thus, it seems, that serum contact to the outer surface of E. histolytica trophozoites leads to C activation via both pathways with cell death as the result and to subsequent release of more efficiently classical pathway activating components. These phenomena probably have an important role in the inflammatory process in invasive amoebiasis.

Occurrence of fibronectin antigenic determinants on Schistosoma mansoni lung schistosomula and adult worms

Fibronectin determinants were revealed in a soluble extract of Schistosoma mansoni adult worms by standard immunodiffusion and immunoelectrophoresis techniques. The same target molecules were demonstrated on the parasite's surface using a binding assay with [125I] anti-fibronectin. The use of fluorescein- and peroxidase-conjugated-antibodies confirmed the above observations and provided a fairly precise means for locating the cross-reacting antigen on the worm surface. An in vitro cytotoxic assay using inactivated (56 degrees C, 2 h) anti-fibronectin rabbit immune serum and guinea-pig serum as a source of complement was developed. In these conditions, anti-fibronectin exerted cytotoxic activity against lung schistosomula and adult worms but not skin schistosomula. The ultrastructural damage induced by anti-fibronectin in the presence of complement was studied using transmission electron microscopy. The results suggest a close association between fibronectin determinants and S. mansoni membrane.

Identification of a sialic acid containing glycocalyx on the surface of Schistosoma mansoni

Ruthenium red fixation of adult Schistosoma mansoni revealed the existence of a negatively charged layer external to the outer bilayer, which was morphologically similar to the glycocalyx of other cell types. Regional and sexual differences were found in the extent and organisation of the surface coat, which can be correlated with interfacial free energy, adhesiveness and protection from immune effectors. Neuraminidase treatment confirmed the presence of surface sialic acid. Mechanical or skin penetrated schistosomula, maintained in vitro for 24 h were found not to have a glycocalyx and this may relate to their increased susceptibility to immune killing. Lung stage schistosomula however, did bind ruthenium red to their surface.