Vaccination against the tsetse-borne trypanosomiases has proved impossible because of the trypanosome's ability to generate a seemingly inexhaustible number of variable antigen types in the blood or tissues of the host. Each variable antigen is a glycoprotein which forms a surface coat on the trypanosome and each glycoprotein is the product of a single gene. The full repertoire of such antigens has not been identified for any trypanosome serodeme (genotype) as yet, but the number of genes coding for variable antigen glycoproteins is estimated to be between 100 and 1,000. We have previously postulated that for Trypanosoma brucei the antigen repertoire of the infective metacyclic stage trypanosomes inoculated by the tsetse fly may be considerably smaller than that expressed in the mammalian host. If this is so then protection against infection by the vector becomes an easier proposition, but the actual scale of the metacyclic repertoire is also unknown. We present here evidence that the metacyclic repertoire of a stock of T. congolense, the most important of the pathogenic cattle trypanosomes, is limited to 12 variable antigen types.
We studied the interaction between Trypanosoma congolense and bovine aorta endothelial (BAE) cell monolayers. Our findings suggest that trypanosomes adhere predominantly to the flattened, peripheral cell surface domains as well as to filamentous endothelial outgrowths that are present during in vitro cultivation in non-confluent monolayers. Adhesion is mediated exclusively by the flagellum in a distinct geometrical order with respect to the flagellar cytoskeleton. Thus, it is possible to define exactly the trypanosomal cell surface domain involved in the attachment process. After 24-48 h of cultivation on monolayers, trypanosomes start to develop short, filopodia-like flagellar protrusions, which serve as additional elements in assisting parasite attachment. Small filaments (3-5 nm) also serve as cross-links between flagellar and endothelial cell surface membranes. Lectin-gold labeling shows that these cross-links contain sialic acid residues. In vitro assays confirm that sialic acid is involved in the adhesion process, whereas the extracellular matrix (ECM) proteins fibronectin, collagen, laminin and vitronectin are not. The presence of T. congolense exhibits a mitogenic effect on BAE cells.
SUMMARYFactors which affect adhesion of cultured Trypanosoma congolense bloodstream forms to mammalian feeder cells have been examined. Using an in vitro binding assay, the initial events following interaction of trypanosomes with bovine aorta endothelial (BAE) cells were monitored by both light-and electron microscopy. Metabolic inhibitors and other biochemicals were incubated with either cells or parasites, to test whether any inhibited the process. Our findings suggest that adhesion of the parasites is an active process requiring metabolic energy from the trypanosomes, but not from endothelial cells. We also provide data suggesting that T. congolense bloodstream forms possess a lectin-like domain, localized at distinct sites on their flagellar surface, which interacts with specific carbohydrate receptors, most likely sialic acid residues, on the endothelial cell plasma membrane. We also suggest that the cytoskeletal protein actin is probably involved in this interaction.
This study demonstrates the involvement of a large number of salivary proteins in the acquisition of resistance to Hyalomma anatolicum anatolicum. Using immunoblotting, sera from hypersensitized rabbits were shown to react with nine proteins in the saliva and 17 in salivary gland extracts (SGE) from 96 h fed female ticks. The salivary antigens had molecular weights in the range of 14 400 to 130 000. All the antigens identified in the saliva and 12 of the SGE antigens were glycoprotein in nature and a majority of them appeared to be common to different stages of feeding. In addition antigen I (molecular weight 130 000) showed acid phosphatase and antigen III (molecular weight 96 000) showed both non-specific esterase and aminopeptidase activity. Three high molecular weight proteins isolated from saliva (antigen I, antigen II--molecular weight 103 000 and antigen III), gave immediate hypersensitivity reactions in intradermal inoculation into rabbits which had previously been exposed to ticks. Antigens II and III also elicited a strong delayed hypersensitivity reaction. These results may help to explain the nature of the immune mechanisms which effect resistance against H. a. anatolicum.
A murine model using Heligmosomoides polygyrus and Trypanosoma congolense has been developed for studying the effects of concurrent chronic gastrointestinal nematode and trypanosome infections. Female outbred mice were infected either with 500 infective larvae (L3) of H. polygyrus or with 10(4) bloodstream forms of T. congolense or both. In concurrent infections, animals were dosed with both parasites simultaneously or the trypanosomes were injected 5 or 10 days after the mice were infected with the nematode. The course of infection was monitored by routine parasitological and immunological techniques for 30 days after the H. polygyrus infection. Concurrently infected mice were severely compromised, except when T. congolense was superimposed on a 10-day-old (adult) H. polygyrus infection. In H. polygyrus-infected mice, simultaneous or subsequent infection with trypanosomes did not markedly influence worm establishment or fecundity, but the female worms were slightly stunted. Surviving mice displayed a markedly reduced antibody response to H. polygyrus antigens and a slightly reduced antibody response to T. congolense antigens.
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