Human neutrophils endocytose multivalent ligands from the surface of schistosomula of Schistosoma mansoni before membrane fusion

Human buffy coat cells adhering to schistosomula of Schistosoma mansoni that were preincubated in fluorochrome-conjugated concanavalin A (Con A), wheat germ agglutinin, lentil lectin, or purified IgG from a hyperimmunized rabbit, were examined by fluorescence and transmission electron microscopy and by freeze-fracture. All four fluorochrome- conjugated multivalent ligands were homogeneously distributed on the parasite surface after preincubation. Within 1-3 h after the addition of cells, large areas of nonfluorescence, 10-20 micrometer in diameter, were seen on the parasite surface. In addition, the fluorochromes were observed in granules within the cells. Electron microscope autoradiography of worms preincubated with 125I-Con A showed silver grains evenly distributed over the tegumental membrane. After the addition of cells, grains were seen over phagolysosomes in the cytoplasm of neutrophils adhering to the parasites. In addition, no grains were present over large areas of the tegumental membrane, which still retained its normal architecture, or over fusions between the neutrophil plasma membrane and the outer tegumental membrane. Rabbit IgG formed an electron-dense layer on the tegumental membrane which was endocytosed by neutrophils. Both neutrophils and eosinophils fused with the parasite in areas containing no electron-dense material on the surface. It is concluded that human neutrophils will endocytose a variety of multivalent ligands from the surface of schistosomula, which probably accounts for the failure of neutrophils to kill the parasite and acts to clear the parasite surface of both antigen and antibody. Presumably, the components of the parasite surface which have originally bound the ligands are also endocytosed since surface components labeled by galactose oxidase and NaB3H4 are taken into cells when examined by light microscope autoradiography. Finally, membrane fusion occurs in areas devoid of multivalent glands, which suggests that these ligands serve to bring the cells and parasites close together, but the actual fusigens probably reside in the lipids in the outer tegumental membrane.     

Characterization of surface glycoproteins on Schistosoma mansoni adult worms by lectin affinity chromatography

Adult Schistosoma mansoni were radiolabeled by direct radioiodination using the Bolton-Hunter reagent or by metabolic labeling using radioactive hexose precursors. Tegumental material was extracted by freeze-thaw or by incubation in the non-ionic detergent Nonidet P-40, then applied to chromatography columns containing the following immobilized lectins: Con A, lentil lectin, wheat germ agglutinin, soybean agglutinin and the agglutinins from Ricinus communis and Helix pomatia. SDS-PAGE analysis of the sugar eluates from these columns revealed the presence of 15 glycoproteins with apparent molecular weights greater than or equal to 300,000, 215,000, 168,000, 152,000, 134,000, 122,000, 108,000, 83,000, 58,000, 53,000, 46,000, 41,000, 34,000, 30,000 and 23,500. Many of the glycoproteins reacted with more than one lectin. Information about carbohydrate content and lectin binding provides a preliminary characterization of the tegumental glycoprotein antigens of adult worms.     

Tegumental Ca-stimulated adenosine triphosphatase activity in adult Schistosoma mansoni worms

A Ca-stimulated ATPase activity (pH 9.5) associated with the tegumental membrane enriched (TME) fraction of Schistosoma mansoni adults was partially inhibited by NAP-taurine or by increasing concentrations of chlorpromazine; endogenous calmodulin was found associated with the TME fraction. A similar activity (pH 8.6) was histochemically visualized within the tegument of fixed worms on the cytoplasmic leaflet of both the double surface membrane and the basement membrane; this reaction was inhibited by 1 microM chlorpromazine and it was also observed on the inner side of double membrane vesicles present in the TME fraction. No ATPase activity could be seen at alkaline pH with added Mg or Na/K ions. Without ATP, the addition of external Ca to the fixed worms induced the appearance of lead precipitates on the tegumental discoid bodies; this reaction was inhibited by molybdate and not by chlorpromazine. The intrategumentary regulation of calcium by the systems described and the possible use of phenothiazines against schistosomes are discussed.     

Plucking of lectin receptors from erythrocytes: Isolation of cell surface components without the use of detergents

A new approach is described for the isolation of lectin receptors without the use of detergents, by plucking them from the cell surface. Cells bound to lectin-coated Sepharose beads are sheared off the beads by mechanical disruption, whereupon the receptors remain attached to the beads and are released specifically by inhibitory sugars. Material plucked from neuraminidase-treated human erythrocytes by beads coated with peanut agglutinin and released by D-galactose was identified as asialoglycophorin. The same membrane glycoprotein was plucked from neuraminidase-treated erythrocytes by beads coated with soybean agglutinin, but at considerably lower yield.     

Schistosoma mansoni: surface membrane stability in vitro and in vivo

The human complement component C3b is known to bind in vitro to the surfaces of all developmental stages of schistosomes as a consequence of complement activation by the alternative pathway. C3b bound to Schistosoma mansoni parasites has now been used in combination with fluorescent labeled antibodies against C3b to label the surfaces of living schistosomes. Binding of complement components and labeled antibodies to adult schistosomes rendered their surface membrane homogeneously fluorescent. At the ultrastructural level, the label was seen as a dense deposit lying on the tegumental membrane. Surface damage was not observed in labeled adults by electron microscopy. Fluorescent schistosomes were cultured in vitro for periods of up to 2 weeks, during which time the parasites remained fully viable and their surface membrane was still fluorescent. The electron dense deposit persisted, and tegumental damage at the electron microscope level was minimal or absent. Consequently, adult schistosomes would seem able to survive in vitro in the absence of rapid and general turnover of their surface membrane. Loss of fluorescence was observed consistently only at the anterior end of the parasite, including the suckers, a finding which indicates that membrane turnover may occur at different rates on different parts of the body. Fluorescent 3-week-old juveniles and 6-day-old lung stage parasites were cultured under the same conditions with similar results: they remained viable and fluorescent for at least 2 weeks. Results with skin schistosomula were different in the sense that many worms died during culture, and those which survived lost large parts of their fluorescent surface. A few of the surviving and fluorescent schistosomula developed the elongate shape typical of lung stage parasites. Fluorescent viable skin schistosomula were injected intravenously into mice and subsequently recovered from the lungs after varying periods. Fluorescence was lost in a patchy way within a few minutes from some individuals and within several hours from most of the worms. These data permit the following conclusions: C3b is a suitable tracer for membrane renewal in all developmental stages of schistosomes. Very slow membrane renewal in vitro and very rapid renewal in vivo are both compatible with parasite survival.     

Comparison of calcium, freeze-thaw, and Triton X-100 tegumental disruption/recovery techniques applied to Schistosoma mansoni

Three techniques for the disruption/recovery of tegumental free-surface plasmalemma were compared by (i) morphological examination of carcasses and centrifugally-derived isolates, (ii) specific enrichment of bound surface tags (lectin) and of "marker" enzymes for membrane, and (iii) assessment of total protein and lectin recovered by each procedure. Procedures compared included the use of Triton X-100, freezing and thawing, and high ionic strength calcium. Triton X-100 consistently provided the greatest amounts of recovered surface membrane on a per worm basis, whereas calcium retained the highest amounts of alkaline p-nitrophenyl phosphatase, adenosine triphosphatase, and adenosine monophosphatase activity. Ultrastructural examination of membrane isolates and worm carcasses prepared by freezing and thawing indicated that significant amounts of parenchymal material contaminated the membrane fractions. Thus results based on the freeze-thaw technique can be difficult to interpret.     

Changes in tegumental surface during development of Schistosoma mansoni

The tegumental surface of immature Schistosoma mansoni was studied with the scanning electron microscope. The surfaces of immature males and females bear no resemblance to that of adult worms and are characterized by having many tegumental folds. The tegumental surfaces of immature males and females are similar, and the dorsal and ventral surfaces of the male are similar before formation of the gynecophoral canal. Transition of the tegumental surface from the juvenile to the adult form begins after worms are in copula and have grown to several millimeters in length.     

Haptenation of adult Schistosoma mansoni and assessment of humorally mediated damage in vitro

Adult Schistosoma mansoni were haptenated with DNP under mild conditions using DNP-liposomes, as devised by Levi-Schaffer et al. (1983, Am. J. Trop. Med. Hyg. 32: 343) for haptenating schistosomula. The effects of complement, alone or with anti-DNP antibodies, on tegumental morphology of DNP-haptenated adult worms were assessed by both scanning and transmission electron microscopy, as a simple model system for possible in vitro effects of complement and anti-schistosomal antibodies on normal adult worms. Complement-mediated cytotoxicity, as measured by tegumental changes in both normal and haptenated worms, was observed and indicates a possible role for complement in humorally mediated damage of adult schistosomes. The damage to haptenated adults in the presence of both complement and anti-DNP was greater than that to nonhaptenated worms similarly treated. However, anti-DNP plus complement caused less damage to normal worms than did complement alone, perhaps the result of blocking by antibodies bound to the tegument via Fc receptors. Evidence herein presented implicates both classical and alternative complement activation by the adult worm's tegument. Tegumental tubercle smoothing was one manifestation of damage, as assessed by SEM. Smoothing appears to progress from spine blunting to disappearance, arguing for resorption rather than shedding as the mechanism for spine loss. Because the spines are mostly actin bundles, we suggest that complement-mediated intrategumental calcium ion flux could lead to spine resorption resulting from actin filament depolymerization and/or calcium-induced severing of actin filaments and dissociation of actin filament cross-linking proteins. This process could have adaptive value to the adult worm, in that the spines may be a repository of readily mobilizable actin molecules for tegumental maintenance and repair.     

Schistosoma mansoni host-exposed surface antigens characterized by sera and recombinant antibodies from schistosomiasis-resistant rats

Antibodies from Schistosoma mansoni-infected rats, unlike mice, show a higher titer for schistosome apical tegumental antigens compared with non-apical membrane antigens. These antibodies bind to the surface of living lung-stage worms and to formaldehyde-fixed adult worms. We produced a single-chain antibody Fv domain (scFv) phage library displaying the antibody repertoire of rats highly immune to schistosome infection and we selected for scFvs that recognize the host-exposed surface of worms. Five unique rat scFvs (Teg1, Teg4, Teg5, Teg20 and Teg37) were obtained which recognize schistosome surface epitopes. Each of the scFvs recognizes the surface of living schistosomula and lung-stage schistosomules and/or the surface of formaldehyde-fixed adult worms. None of these scFvs reproducibly stained living adult worms. This suggests that a change occurs during the transition from lung schistosomules to 4-week adults such that at least some surface antigens, although remaining on the surface in living adult worms, can no longer be immunologically stained. Teg1 and Teg4 scFvs both recognize specific bands on Western blots. No bands were observed for the other three scFvs, suggesting that these scFvs may recognize non-protein or conformationally-dependent epitopes. Teg1 was unambiguously identified as recognizing the S. mansoni tetraspanin antigen, SmTSP-2, within the large extracellular domain. Teg4 recognizes a 35 kDa band tentatively identified as Sm29 by proteomic analysis. These scFvs can now be used to characterize schistosome epitopes at the host-parasite interface, to target worms in vivo, and to study the mechanisms by which these worms naturally evade immune damage to the tegument within permissive hosts.     

Tegumental changes in adult Schistosoma mansoni harbored in mice treated with artemether

A detailed temporal examination was made of alterations induced by artemether in the tegument of adult Schistosoma mansoni worms using scanning electron microscopy (SEM). Mice infected with S. mansoni cercariae 42 days previously were treated intragastrically with artemether at a single dose of 400 mg/kg. Groups of 3 mice were killed at 24 hr, 72 hr, and 7 days after treatment; the worms were collected by perfusion and examined by SEM. Twenty-four hours after artemether treatment, focal damage to the tubercles on the tegumental surface of male worms was seen. In both male and female worms, there was focal swelling and fusion of tegumental ridges, and sometimes peeling. After 72 hr, the damage to the tegument had increased, especially in female worms, with extensive swelling, fusion, and peeling of the tegumental ridges. In the most severely damaged worms, host leukocytes were seen to be adhered to the damaged tegument. Damage to the oral sucker was also occasionally seen in both male and female worms. Seven days after treatment, the appearance of the tegument had returned to normal in some male and female worms, whereas others still showed apparent damage. The results demonstrate that artemether damages the tegument of adult S. mansoni, and the intensity of damage is more severe in female worms than in males.     

Schistosoma mansoni: Tegumental damage as a consequence of lectin binding

Adult worms of Schistosoma mansoni exhibit gross tegumental damage following incubation in concanavalin A or Ricinus communis agglutinin. However, incubation with wheat germ agglutinin induces only minimal surface damage, while soybean agglutinin has no damaging effect upon the worms. Damage induced by Ricinus communis agglutinin or concanavalin A may be prevented by the addition of the appropriate competing sugar. In contrast, incubation of 3-hr artificially transformed schistosomula in concanavalin A and other lectins does not produce any disruption of the tegument. These results indicate that the surface membrane of the adult schistosome is readily disrupted by ligand binding and appears to be particularly sensitive and fragile. The membrane of the schistosomulum, however, is more resistant to the effects of lectin binding. Adult worms incubated in culture medium alone (ELAC or RPMI 1640) show background changes which seem to be related to the tonicity of the medium. Such results advocate that preliminary assessment of schistosome integrity be carried out prior to any experimental procedures which preclude the addition of serum to the basic incubation medium. Schistosomula do not exhibit comparable sensitivity.     

Cell surface N-glycans mediated isolation of mouse neural stem cells

The isolation of neural stem cells (NSCs) from the brain has been hampered by the lack of valid cell surface markers and the requirement for long-term in vitro cultivation that may lead to phenotype deterioration. However, few suitable specific cell surface antigens are available on NSCs that could be used for their prospective isolation. The present study demonstrated that the expression of complex type asparagine-linked oligosaccharide ( N- glycans) was detected on brain cells dissociated from embryonic and adult brain using Phaseolus vulgaris erythroagglutinating lectin (E-PHA) which binds to biantennary complex type N- glycans, and demonstrated that E-PHA bound preferentially to purified NSCs, but not to neurons, microglia, or oligodendrocyte precursor cells. The labeling of dissociated mouse embryonic brain cells or adult brain cells with E-PHA enabled the enrichment of NSCs by 25-fold or 9-fold of the number of neurosphere-forming cells in comparison to that of unsorted cells, respectively. Furthermore, a lectin blot analysis revealed the presence of several glycoproteins which were recognized by E-PHA in the membrane fraction of the proliferating NSCs, but not in the differentiated cells. These results indicate that complex type N- glycans is a valuable cell surface marker for living mouse NSCs from both the embryonic and adult brain.     

Tegumental ultrastructure of the juvenile and adult Himasthla alincia (Digenea: Echinostomatidae)

The tegumental ultrastructure of juvenile and adult Himasthla alincia (Digenea: Echinostomatidae) was observed by scanning electron microscopy. One-, 5- (juveniles) and 20-day-old worms (adults) were harvested from chicks experimentally fed metacercariae from a bivalve, Mactra veneriformis. The juvenile worms were elongated and curved ventrally. The head crown bore 31 collar spines, arranged in a single row. The lip of the oral sucker had 12 paired, and 3 single type I sensory papillae, and the ventral sucker had about 25 type II sensory papillae. The anterolateral surface between the two suckers was densely packed with tegumental spines with 4-7 pointed tips. The adult worms were more elongated and filamentous, and had severe transverse folds over the whole body surface. On the head crown and two suckers, type I and II sensory papillae were more densely distributed than in the juvenile worms. Retractile brush-like spines, with 8-10 digits, were seen on the anterolateral surface, whereas claw-shaped spines, with 2-5 digits, were sparsely distributed posteriorly to the ventral sucker. The cirrus characteristically protruded out, and was armed with small spines distally. The surface ultrastructure of H. alincia was shown to be unique among echinostomes, especially in the digitation of its tegumental spines, the distribution of sensory papillae and by severe folds of the tegument.     

Identification of external membrane proteins of the T lymphoblast cell line CCRF-CEM

The 70 membrane proteins of the T lymphoblast cell line CCRF-CEM were characterized by

1. 1. [³⁵S]methionine internal radiolabeling;

2. 2. [¹²⁵I]iodine labeling by a lactoperoxidase-mediated method;

3. 3. [³H]fucose internal labeling;

4. 4. binding to a lentil lectin adsorbant column;

5. 5. susceptibility to digestion with limited amounts of papain.

Of the three methods of radiolabeling membrane proteins, [³⁵S]methionine best displayed all proteins although some individual proteins were heavily iodinated or fucosylated. Thirty proteins were externally exposed as defined by susceptibility to lactoperoxidase-mediated radio-iodination and to digestion with minute amounts of papain. Thirtyfive proteins were bound to a lentil lectin absorbant column. p44 (HLA-A and -B antigens) were iodinated, fucosylated, susceptible to papain digestion and bound to the lectin column. β₂-Microglobulin was iodinated and bound to the lectin column. The identifications and functions of other membrane proteins were not known. In general, proteins of high molecular weight (100 000 to 250 000 D) were more heavily radio-iodinated and fucosylated than were proteins of lower molecular weights. p95 was the most heavily fucosylated protein, p110, which had been identified only on T lymphoblasts, was fucosylated and was iodinated. p65, which was found only on the T lymphoblast line CCRF-CEM and could represent a lymphocyte subpopulation-specific molecule, was iodinated and fucosylated. p15 and p18 were equally and densely labeled with [³⁵S]methionine but only p18 was fucosylated and it was heavily radio-iodinated. These experiments help to define the external membrane proteins of a T lymphoblast cell line in part for the selection of proteins for isolation in order to raise antisera for immunodiagnostic and functional studies.     

The lectin binding sites on the plasma membrane components of human lymphoblastoid cell lines.

The plasma membrane components of five human B-cell lines and three human T-cell lines were separated by dodecyl sulfate polyacrylamide gel electrophoresis, incubated with the radioactive labeled lectins from lentil, castor bean, wheat germ, Phaseolus bean, peanut, gorse and the Roman snail and the molecular weights of the binding sites determined. The lentil, castor bean and wheat germ lectin bound to multiple components from molecular weights (Mr) 20 000 to 200 000 within the plasma membranes, whereas peanut lectin bound preferentially to glycoproteins of Mr 150 000 and 83 000 in B-cells, and 150 000 and 130 000 in T-cells. The gorse lectin bound to a 220 000 component in B-cells which was not labeled in T-cells.     

Brachylaima cribbi (Digenea: Brachylaimidae): scanning electron microscopical observations of the life-cycle stages

Brachylaima cribbi is a recently described species of terrestrial trematode that infects mammals and birds with helicid land snails as its first and second intermediate hosts. The adult worm is 2.5-6.0 mm long by 0.5-0.8 mm wide being a long slender cylindrical worm with oral and ventral suckers in the anterior quarter and genital pore in the posterior quarter. Scanning electron microscopy shows that there is a dense covering of tegumental spines at the anterior end which diminishes towards the posterior extremities of the worm. Development of spines was observed in juvenile and mature adult worms. In young worms 1-3 weeks post infection (wpi) spines appear as buds with a serrated edge each having 1-4 spikes per spine. As the worm ages the spines broaden and by 5 wpi the number of spikes per spine increases to an average of 8.1. The serial development of oral sucker papillae in the cercaria, metacercaria and adult worm was observed with the finding of an elongated papilla with a bifurcated tip on the cercaria becoming a shorter and thicker elongated papilla with a large central stoma on the metacercaria. In the adult worm, this papilla becomes dome-shaped with a small central stoma. For some of these papillae a cilium could be seen extended from the central stoma. Other life-cycle stages illustrated were the hatched egg with an extruded egg membrane minus an operculum and a portion of the branched sporocyst dissected from the digestive gland of the land snail Theba pisana showing a terminal birth pore. Scanning electron microscopy morphological features of the adult worm observed for the first time in a Brachylaima were the unarmed cirrus extended from the genital pore with released sperm present and the Laurer's canal opening visible in tegumental folds on the dorsal surface approximately 300 microm posterior to the genital pore.     

Isolation and characterization of glycosaminoglycans from Schistosoma mansoni

Tegumental tissues of paired adult Schistosoma mansoni were removed by treatment with Triton X-100 and recovered by centrifugation. The chloroform-methanol insoluble residues of this isolated tegumental fraction and of the denuded carcasses were analysed for glycosaminoglycan (GAG) and sialic acid contents. Treatment with GAG-specific enzymes followed by electrophoretic analysis showed that both the carcass and tegument contained heparin and/or heparan sulfate, chondroitin sulfate and hyaluronic acid. All these except hyaluronic acid were present in the tegumental fraction. Based on uronic acid content, about 73% of the total GAG was in the tegumental membrane, 15% in the tegmental matrix and the remaining 12% was in the carcass. The presence of heparin-like polysaccharide may present entrapment of the schistosoma by the hosts' blood-clotting process.     

Rapid procedure for preparation of macrophage plasma membrane

This report describes a simple and efficient procedure for the isolation of plasma membrane from guinea pig peritoneal macrophages. The use of polycationic beads (Affi-gel 731 beads) facilitates rapid and high-clear separation of plasma membrane within 30 min. The final plasma membrane coated beads fraction has high specific activities of marker enzymes with little contamination with mitochondrial, lysosomal or cytoplasmal markers.     

Interactions between platelet-surface glycoproteins. Identification of glycoproteins capable of binding to platelet surfaces.

1. Platelets have been isolated from plasma and their surface glycoconjugates radioactively-labelled using galactose oxidase and NaB3H4. 2. Conditions have been defined for optimal labelling of glycoproteins and a membrane fraction enriched in plasma membrane has been prepared and characterized by sodium dodecyl sulphate/polyacrylamide-gel electrophoresis. 3. Desialylated glycoproteins that act as receptors to peanut agglutinin and lentil lectin have been purified from a detergent extract of plasma membrane. 4. Two glycosylated polypeptides that are able to bind to the surfaces of platelets have been identified and some characteristics of the binding have been investigated.     

The lectin binding sites on the membranes of the nuclear envelope, mitochondria and the cell surface of human lymphoblastoid cells

The membranes of the cell surface, the endoplasmic reticulum, outer and inner mitochondrial leaflet and nuclear envelope were isolated from three human lymphoblastoid cell lines. Membrane components were separated by dodecyl sulfate polyacrylamide gel electrophoresis and the gels incubated with the radioiodinated lectins from lentil, castor bean, scarlet runner bean, gorse seed and Roman snail. After gel slicing and counting, the molecular weights of the lectin binding sites were determined. About 20 glycoproteins were identified as constituents of the plasma membrane, a similar glycoprotein distribution was observed in the endoplasmic reticulum. The outer mitochondrial membrane contained some impurities from the plasma membrane, the inner mitochondrial membrane lacked specific lectin receptors. Two prominent glycoproteins with molecular weights of 70 000 and 60 000 were identified with the castor bean lectin in the nuclear envelope.