Comparison of surface iodination methods by electron microscopic autoradiography applied in vitro to different life-stages of Dipetalonema viteae (Filarioidea)

Changes in the surface ofDipetalonema viteae(Filarioidea) during its development as shown by comparative peptide mapping

The cuticle of parasitic nematodes, the main contact site with the host, plays an important role in host-parasite interaction and thus also in immunological control. We compared different surface-iodinated life-stages of the filarial wormDipetalonema viteae(microfilariae, infective 3rd-stage larvae (L3), adult males and females) with respect to changes in their surface composition. Autoradiographs of peptide maps show that all stages present an identical set of peptide spots reflecting common surface protein(s). Spots specific for larvae L3show that the composition of the iodinated surface differs in microfilariae and adults i.e. it changes during development. Adults show a spot typical for males or females. Identical spots are found in L3. This suggests that a surface component is also sex specific.

Dynamics of the filarial surface

The surface of the filarial worm consists of an extracellular cuticle which overlies the outer plasma membrane of the hypodermis. The cuticle is permeable to a wide range of molecules of low molecular weight, and L-amino acid and D-glucose uptake occurs transcuticularly by active transport and diffusion in physiologically significant amounts. Transport mechanisms are associated with the plasma membrane of the hypodermis, and the cuticle may be considered an 'unstirred layer' distal to the transport loci. The outermost layer of the cuticle, or epicuticle, consists of a lipid bilayer which differs from a typical plasma membrane. There is no conclusive evidence for turnover of the epicuticular materials between the larval moults and in the adult stage. It is proposed that the filarial surface does not show the dynamic properties associated with the surface membranes of parasitic cestodes and trematodes.

Localization, turnover and conservation of gp15/400 in different stages of Brugia malayi

The expression of a protein complex designated gp15/400, previously identified via extrinsic iodination of adult Brugia malayi, was examined by labelling all stages found in the mammalian host and immunoprecipitation with a specific antibody raised to a recombinant protein. In this way, gp15/400 could be detected in L3, L4, adult worms and microfilariae recovered from jirds and labelled with Bolton-Hunter reagent. Metabolic labelling indicated that gp15/400 was released into culture medium when adult worms were maintained in vitro, but at a rate slower than that of gp29, the major soluble cuticular glycoprotein. Immuno-electron microscopy showed that the protein complex was broadly distributed in different tissues, although it was not detectable in the cuticle of adult worms. Dense labelling was observed in the matrix of the basal laminae bordering the hypodermis, somatic musculature and oesophagus, and lower but significant labelling was seen in the cells overlying these extracellular matrices. Hybridization of genomic DNA with a cDNA probe encoding gp15/400 indicated that homologous genes were present in Dirofilaria immitis and Acanthocheilonema viteae. The failure to detect related genes in non-filarial nematodes was presumed to be due to divergence beyond the practical limits of detection by nucleic acid probes, as antibody reagents showed that the protein cross-reacted immunologically with ABA-1, a major protein allergen from the body fluid of Ascaris.

Stage-specific surface antigens of the cattle lungworm Dictyocaulus viviparus

Immunofluorescence on live Dictyocaulus viviparus parasites revealed a significant antibody response by vaccinated and patently infected bovine hosts to the sheath of infective larvae (L3), a structure which is generally thought to be shed from the parasite surface prior to invasion of host tissue. In contrast, surface-exposed antigens of the adult, egg and pulmonary L1 stages were recognized only by serum antibody from calves exposed to a patient lungworm infection. Radioiodination of sheathed L3 identified a restricted set of components while a more complex pattern of labelled material was observed with adult parasites. Many more components of adult worms were labelled by the Bolton-Hunter than by the Iodogen reagent, probably reflecting the more penetrative labelling propensities of the former. Stage-specificity of surface-associated antigens of adult parasites was demonstrated by their immunoprecipitation by antibody from patently-infected, but not from vaccinated, calves. There was no in vitro release of the major iodinatable surface-associated antigens of adult parasites not any binding of antibody raised against adult excretory-secretory (ES) products to the surface of living adult worms, suggesting that surface components do not contribute to adult ES products in this species. Antibody responses to the surface of adults, L1 and eggs were specific to patently-infected animals and may provide a useful indicator of exposure to patent infection.

Surface-associated antigens of Brugia malayi L2 and L3 parasites during vector-stage development

Surface and metabolic labeling procedures were used to characterize the composition and the time of expression of Brugia malayi L2 and L3 surface-associated molecules as the larvae develop within the mosquito vector. Larvae were harvested from mosquito tissues at 5 (early L2), 8 (late L2) and 11 (L3) days post-infection and labeled with 125I-Iodo-Gen. The results of one-dimensional analysis showed that there is a progressive increase in the complexity of peptides associated with the surface of developing larvae, culminating in the expression of 7 major labeled components on L3s. Both L2 and L3 parasites have surface-associated components of 42, 35, 33, 19 and 17 kDa. Between days 8 and 11 of development in the insect vector, Brugia malayi undergoes the L2 to L3 molt and acquires additional major immunogenic peptides of 40 and 22 kDa. Two-dimensional analyses of extracts from 125I-labeled L2s and L3s revealed that the major 35-, 33-, 19- and 17-kDa molecules are part of a peptide complex that forms a 'ladder' between 17 and 150 kDa. To gain information on the times during which the major surface-associated molecules are produced by the parasite, larvae were labeled with [35S]methionine either in situ as they developed within the mosquito or during culture after exiting the vector. For in situ labeling, [35S]methionine was introduced into the hemolymph of infected mosquitoes by micro-injection at days 2, 5 and 8 post-infection and the larvae were allowed to develop for an additional 3 days. The results of 1- and 2-dimensional analyses of [35S]methionine-labeled extracts from vector-stage or post-vector-stage larvae indicate that the molecules associated with the surface of B. malayi L3s are synthesized between day 5 and day 11 of development in the insect host. Immediately after the larvae exit the vector, the synthesis of the 40 and 22-kDa peptides is drastically reduced or terminated.

Changes in the surface composition after transmission of Acanthocheilonema viteae third stage larvae into the jird

This study describes the dynamics and the biochemical nature of changes in the surface of the filarial nematode Acanthocheilonema viteae after its transmission into the vertebrate host. Vector-derived third-stage larvae (mL3) were inoculated into naive Meriones unguiculatus and recovered from the tissues at different times post-infection until their moult to fourth-stage larvae (L4). Surface-specific labelling with fluoresceinated lectins revealed that the larvae are covered by a carbohydrate envelope. Although the mL3 envelope was strongly reduced one day after transmission, new surface carbohydrates appeared until the onset of moulting, some of which could also be identified on the surface of L4. In general, surface carbohydrates were partially shed by moving larvae, suggesting a loose association of these components in the epicuticle. The fate of cuticular lipids and proteins of L3 and L4 was monitored by external 125I-labelling and differential extraction of the components. Thin-layer chromatography of surface-labelled lipids revealed only minor changes 1 day after parasite transmission. Afterwards the number of lipids accessible to label decreased further until moulting was complete. Two-dimensional sodium dodecyl sulphate-polyacrylamide gel electrophoresis of surface-labelled proteins showed a consistent surface exposure of mL3 specific proteins until 1 day post-infection. Thereafter, the composition of surface-labelled proteins changed rapidly, resembling that of the L4 as early as several days before moulting. During this period individual differences in the composition of surface proteins were evident.

Active release of surface proteins: a mechanism associated with the immune escape of Acanthocheilonema viteae microfilariae

Living Acanthocheilonema viteae microfilariae obtained from peripheral blood of parasitised Meriones unguiculatus were surface-labelled with 125I. Four major surface exposed proteins of approximately 14.50, 14.55, 17.5, 19 kDa and one less abundant protein of 40 kDa were identified. Under non-reducing conditions the low-molecular-weight (LMW) proteins were isolated as multimers suggesting the presence of intermolecular disulphide linkages. In gels containing Triton X-100 the labelled epicuticular proteins behaved lipophilically. By cultivation of surface-labelled and metabolically labelled microfilaria in vitro, a continuous shedding of two LMW proteins was demonstrated. These proteins were produced in large amounts and released into the culture supernatant as monomeric and pentameric molecules. Concomitant with this release, one of the proteins appeared to lose its lipophilic character, giving rise to a hydrophilic 14.50-kDa entity. Although most of the extracted surface proteins reacted with sera from patent jirds, these sera failed to recognise the surface of living microfilariae. However, microfilariae pretreated with glutaraldehyde or attenuated with Na-azide could be labelled with surface specific antibodies.

Identification of the surface polypeptide antigens of the infective larvae of Onchocerca volvulus

The surface polypeptide antigens of third-stage infective larvae (L3) and adult males of Onchocerca volvulus have been compared after iodogen-catalysed radioiodination, separation by sodium dodecyl sulphate-polyacrylamide gel electrophoresis in beta-mercaptoethanol followed by autoradiography. L3 surfaces contained polypeptides with apparent molecular weights of 14, 18.5, 26, 34, 51, 68 and 130 kDa, whereas the adults contained 14, 19, 26, 34, 37.5 and 68 kDa components. By immunoprecipitation with patient's sera, only the 14 and 18.5 kDa components were shown to be antigenic on the L3, the other components being unreactive with patients' antibodies. Under similar conditions, 4 of the 6 adult male polypeptides reacted with patients' antisera, confirming their antigenic nature. Lentil lectin and immunosorbent chromatography of the surface components revealed the 18.5 kDa and 68 kDa antigens of L3 and adult males respectively to be glycoproteins. The apparently weak reactivity of L3 surface components with host antibody may be part of an escape mechanism that favours the establishment of O. volvulus in human hosts.

Identification of different radiolabelled antigens of the developmental stages of Onchocerca volvulus

By using radioiodination methods which are thought to label preferentially the surface followed by SDS-PAGE and autoradiography, components of different developmental stages of O. volvulus have been identified. Between 2 and 10 polypeptide antigens were revealed on infective larvae (L3), females, males, eggs, nodular and skin microfilariae by using immunoblotting assays with human onchocerciasis sera. Antigen recognition did not vary with the density of skin microfilariae in the patients from whom the sera were obtained. Some of the antigens seemed to be stage specific; for example, antigens of 31 kDa which were detected only on skin microfilariae, or the 67.5 and 25 kDa components that occurred on the adult females, but were absent from adult males. Some of these antigens were also identified as glycoproteins. A 68 kDa glycoprotein was found in adult females, males and nodular microfilariae. Two glycoproteins of 74 and 45 kDa were found on egg shells, and a 18.5 kDa glycoprotein was recovered from L3. Type VI collagen was found with a specific antiserum on skin microfilariae, but not on eggs and females. Laminin was found on nodular mf. It is concluded that the changing antigenic profiles of the worm stages and the coating of these worms with connective tissue epitopes contribute to the evasion of host immunity.

Comparison of the cloned genes of the 26- and 28-kilodalton glutathione S-transferases of Schistosoma japonicum and Schistosoma mansoni

Both Schistosoma japonicum and S. mansoni contain 28- and 26-kDa glutathione S-transferases (GSTs). Despite their immunological cross-reactivity using rabbit antisera, the S. japonicum 28-kDa GST (Sj28) is weakly immunogenic relative to the S. mansoni protein (Sm28) in mouse immunization experiments using GSTs purified from adult worms. The difference in immunogenicity is also observed during schistosome infection in mice. Using surface-labeled living S. japonicum worms, evidence was obtained for a surface location of Sj28 comparable to that reported for the S. mansoni molecule. The nucleotide and deduced amino acid sequences of cDNA clones corresponding to Sj28 and Sm28 were compared. Despite obvious homology (77% identity), differences were found in regions known to contain T epitopes in the S. mansoni protein which may be an explanation for the striking differences in immunogenicity in regard to antibody production in mice. The 26-kDa GSTs of these two parasites (Sj26 and Sm26) are also closely related on the basis of nucleotide and deduced amino acid sequences, there being 82% identity in the putative coding regions. When the amino acid sequences of Sj28 and Sm28 were compared with those of Sj26 and Sm26, the overall sequence identity was approximately 20%. However, a relatively conserved region was identified in otherwise structurally different molecules which may participate in common properties of these enzymes.

Use of Iodogen and sulfosuccinimidobiotin to identify and isolate cuticular proteins of the filarial parasite Brugia malayi

The cuticle of filarial nematodes is a dynamic structure which may be an important target for protective host immune responses. Prior studies have employed radioiodination of intact parasites to demonstrate that the collagenous cuticle of filariids contains relatively few exposed proteins, some of which are stage and/or species-specific. In the present study, we have used sulfo-NHS-biotin to label and affinity purify cuticular components of living adult Brugia malayi. Results obtained by this method were compared with the widely used Iodogen method of surface radioiodination by SDS-PAGE analysis of detergent-solubilized worms and by ultrastructural analysis. Both labeling methods produced very similar electrophoretic patterns with major doublets at 70 and 100 kDa, a major band at 25 kDa, and minor bands between 60-200 kDa. Ultrastructural analysis showed that both methods labeled components throughout all levels of the parasite cuticle; underlying somatic tissues were not labeled. The biotinylated components were isolated from the total parasite extract by affinity chromatography on an avidin matrix. Further characterization of these surface-associated proteins may lead to improved methods for the control of filariasis.

Filarial surface antigens: the major 29 kilodalton glycoprotein and a novel 17-200 kilodalton complex from adult Brugia malayi parasites

Adult Brugia malayi nematode parasites possess a range of cuticular and epicuticular molecules which may be defined by various surface-labelling techniques. We present here evidence that at least two distinct antigens are associated with the surface, a glycoprotein of 29 kDa, and a complex of twelve components forming a regular series or 'ladder' between 17 and 200 kDa (17/200 kDa) which have not previously been described. Each of these products is antigenic in infected hosts, although responses in infected humans to the 17/200 kDa are relatively weak. Digestion of the 29 kDa antigen with proteases and endoglycosidases indicates that it is closely conserved between B. malayi and B. pahangi, and that it carries at least two N-linked oligosaccharide chains each of 1.5-2 kDa. By contrast, a smaller surface-labelled antigen of 15 kDa shows no glycosylation by either lectin adherence or endoglycosidase digestion assays. Trypsin treatment of intact, labelled parasites results in cleavage of 29 kDa molecules isolated 17/200 kDa 'ladder' to trypsin abolishes all bands except the 17 kDa base unit. Both the 29 kDa and 17/200 kDa antigens can be recovered as water-soluble molecules by homogenisation of the parasite in the absence of detergent, or by disruption of the cuticle with reducing agents such as 2-mercaptoethanol. In the presence of such agents, both the 17/200 kDa series and the 29 kDa glycoprotein are shed rapidly from intact parasites. Finally, two-dimensional electrophoretic analysis shows that while the 29 kDa glycoprotein is strongly basic and the 15 kDa acidic, the 17/200 kDa antigens form a related series of neutral pI.

Cytochemical demonstration of lectin binding-sites in the cuticle and tissues of Acanthocheilonema viteae (Filarioidea)

The lectin-gold technique was used for the ultrastructural localization of lectin binding sites on thin sections of Lowicryl K4M embedded adult females, infective larvae and SDS-2-mercaptoethanol-insoluble cuticle components of Acanthocheilonema (Dipetalonema) viteae. Helix pomatia lectin (HPL) coupled to 14 nm gold particles, was used for the demonstration of N-acetyl-D-galactosamine-containing glycoconjugates. Triticum vulgaris (wheat germ) agglutinin (WGA) coupled to 10 nm gold particles after cross-linking to BSA or ovomucoid-gold after application of unlabeled WGA, demonstrated WGA binding sites (N-acetyl-D-glucosamine). With both lectins no surface labelling of the cuticle was observed, but subcuticular layers reacted positively. HPL-gold was bound to cuticular fibers, the matrix and to the electron dense layer within the cortical zone of the cuticle of female worms. WGA-gold complexes were bound mainly to the cuticle matrix and somatic tissues. The results support the hypothesis that tissue-dwelling parasitic nematodes have reduced their surface carbohydrates perhaps as a consequence of their parasitic life.

Solubilization of epicuticular antigen from Dirofilaria immitis third-stage larvae

The solubilization of epicuticle from third-stage (L3) Dirofilaria immitis larval cuticles was investigated. Cuticles collected after L3 had molted were incubated in 1.5% sodium dodecyl sulfate (SDS) at 37 degrees C with vigorous shaking. Solubilization of epicuticular layers was accomplished as demonstrated by electron microscopy. Diminished binding of an epicuticular specific monoclonal antibody (DIM-229) was seen when SDS-treated cuticles were compared to untreated cuticles in an indirect fluorescence antibody assay. Cuticles which were extracted further by boiling in 1.5% dithiothreitol (DTT) produced less protein than cuticles solubilized in SDS. Both extracts reacted with DIM-229 in an indirect enzyme-linked immunosorbent assay, indicating retention of antigenic reactivity of the solubilized epitope. SDS-polyacrylamide gel electrophoresis of SDS-derived antigens revealed, after silver staining, proteins from 12 to 77 kDa and only 1 band at 15 kDa for SDS-treated cuticles boiled in DTT. Western blot analyses of the extracts with DIM-229 were inconclusive.

Distribution of iodinated proteins in Dipetalonema viteae after surface labelling

Adult females of the filarial parasite Dipetalonema viteae were radiolabelled using chloroglycoluril and different concentrations of iodine with and without carrier iodide. A detailed quantitative analysis of the distribution of the labelled proteins were carried out using sodium dodecylsulfate and beta-mercaptoethanol to isolate the cuticle after different iodination periods. The highest specific activity was found in the pellet, which comprised the cuticular cortical zone with the highly insoluble epicuticle. However, 50% of the radiolabelled proteins were recovered in the extracts, which contained solubilized material from the somatic compartments and the basal and median zones of the cuticle. The data indicate that the isolation of surface-iodinated antigens of filariae is hampered by the presence of a detergent-insoluble epicuticle. Radiolabelled antigens solubilized by detergents are either proteins from internal somatic or cuticular regions or proteins adsorbed onto the epicuticle.

Dipetalonema viteae: resistance in Meriones unguiculatus with multiple infections of stage-3 larvae

The jird, Meriones unguiculatus, infected with 80 normal infective larvae of Dipetalonema viteae, revealed a recovery rate of 27.9% 12 weeks after infection. A pretreatment by three injections of 50 normal larvae each and challenge by 80 larvae resulted in a recovery rate of 10.7%. The recovered worms were longer than those from the challenge control animals. When three times 50 irradiated larvae (35 krad) were inoculated, the recovery rate of the challenge decreased to 2.6%, representing a protection of 90.7%. The surviving adult worms were stunted and derived exclusively from the 80 normal larvae given for challenge, since absolutely no adult worms were recovered in eight animals inoculated three times with 50 irradiated larvae only. Sera of all pretreated jirds contained IgG and IgM antibodies which bound in immunoblotting experiments bound predominantly to three proteins of larvae with molecular masses of 68,140, and 165 kDa, respectively. Enzymatic surface iodination revealed that the three antigens were exposed on the larval surface. The coincidence of a partial resistance to a challenge infection and of an antibody response against surface proteins of infective larvae suggests an importance of these antigens for the rejection of D. viteae mediated by an acquired immunological resistance of M. unguiculatus.

Molecular characterization of antigens of lymphatic filarial parasites

Three species of filarial worms,Wuchereria bancrofti, Brugia malayiandBrugia timori, are the causative agents of lymphatic filariasis in man, defined by the characteristic tropism of adult worms of each species for the afferent lymphatics. Reproductive activity leads to the release of large numbers of microfilariae, which circulate in the vascular system, and upon ingestion by an appropriate mosquito vector, develop through to infective third-stage larvae (L3) within 10–14 days. After a subsequent bloodmeal, the infective larvae enter the definitive host via the wound and mature to the adult stage over several months, involving two moults, during which the entire nematode exoskeleton (cuticle) is replaced.

An evaluation of different methods for labelling the surface of the filarial nematode Brugia pahangi with 125iodine

The specificity of a range of 125I labelling techniques (Chloramine T, Iodogen, Bolton and Hunter reagent, lactoperoxidase and iodosulfanilic acid) to the surface of the filarial nematode Brugia pahangi was evaluated by autoradiography of sections of labelled worms and of dried SDS-polyacrylamide gels following electrophoresis of homogenised worm extracts. It was concluded that Bolton and Hunter reagent was not surface specific but labelled proteins throughout the body of the worm. At the light microscope level autoradiography of worms labelled using Chloramine T, Iodogen, lactoperoxidase and iodosulfanilic acid demonstrated that the 125I labelling was restricted to the worm surface. Electrophoresis and autoradiography showed that each method produced a different pattern of labelled polypeptide. A polypeptide of molecular weight 30 kDa was labelled using each method except Bolton and Hunter reagent, and appears to be a major surface component.

Surface antigens of a filarial nematode: analysis of adult Brugia pahangi surface components and their use in monoclonal antibody production

The surface antigens of adult worms of the filarial nematode Brugia pahangi have been investigated further by surface radioiodination and detergent solubilisation techniques. In addition to yielding new information on the distribution of antigenic components of this stage, detergent-solubilised molecules were used in both radiometric and enzyme-linked assays for human and mouse antibody. These assays were subsequently used in screening for monoclonal antibodies from hybrid cells derived from animals infected with living parasites and boosted with detergent-extracted antigen. Three monoclonal antibody-producing cell lines were isolated, with differing antigenic specificities: Bp-1, which binds a non-iodinatable antigen with high ELISA activity; Bp-2, which reacts with a determinant found on but not unique to the major surface Iodogen-labelled 29 kDa antigen; and Bp-3, which is specific for a minor antigen of 20 kDa revealed by Iodogen labelling.