ANTIBODY-INDUCED MOVEMENT OF MEMBRANE COMPONENTS OF <i>LEISHMANIA ENRIETTII </i>

Doyle, John; Behin, Reza; Mauël, Jacques; Rowe, D. S.

doi:10.1084/jem.139.5.1061

Cited by 66 publications

(19 citation statements)

References 16 publications

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“…15, E. moshkovsku; Fig. 16, HM2 axemc, Fig 17, recently in both amastigote and promastigote forms of Leishmania (34). The polar redistribution of Con A receptors (35), and of E. histolytica membrane antigens (36, Trissl and CalderSn, in preparation), is followed either by the rapid internalization or shedding of the surface complexes from the parasite.…”

Section: Discussionmentioning

confidence: 99%

Surface properties related to concanavalin A-induced agglutination. A comparative study of several Entamoeba strains.

Trissl

Martı́nez-Palomo

Argüello

et al. 1977

The Journal of Experimental Medicine

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Invasive amebiasis is one of the common diseases caused by protozoan parasites in humans. Its importance derives from the high incidence of clinical manifestations, such as dysentery and liver abscesses (1-3). The trophozoites, or motile forms of the causative agent of amebiasis, Entamoeba histolyt~ca, express their pathogenicity by invasion and lysis of epithelial tissues. In many instances, however, the trophozoites dwell in the intestinal lumen without invading the colonic mucosa, thus clinical symptoms are not apparent. The reasons for this variable behaviour ofE. histolytica are not known.A better understanding of the properties of the parasite has been facilitated recently with the development of axenic cultures of E. h~stolyt~ca (4). Several strains of E. h~stolyt~ca isolated from human dysentery cases and grown in monoxenic or axenic culture have been found to induce liver abscesses in hamsters (5-9), while invasion of the intestinal epithelium seems to be restricted to organisms maintained in monoxenic cultures (10,11).In contrast to the above mentioned pathogenic strains, two types of Entamoeba cultures are in general unable to induce liver abscesses in rodents, and therefore, are considered as nonpathogenic for mammals. These two groups include trophozoites isolated from asymptomatic human carriers (12), and several types of Entamoeba that grow at room temperature, such as E. histolytica Laredo type, Entamoeba moshkovskii, and Entamoeba ~nvadens (13-15) The latter strain Is invasive only in reptiles (14).Pathogenic and nonpathogenic strains of Entamoeba are morphologically indistinguishable, even when studied by electron microscopy (16,17). We have analyzed various surface properties of pathogenic and nonpathogenic trophozoites. Initial evidence was obtained indicating a greater sensitivity of pathogenic strains to agglutination with concanavalin A (Con A) ~ in comparison with strains isolated from asymptomatic carriers (18). In this report we extend the agglutination studies by using Entamoeba strains which grow at room temperature, and compare various surface properties which might be involved in the agglutination process.

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Section: Discussionmentioning

confidence: 99%

Surface properties related to concanavalin A-induced agglutination. A comparative study of several Entamoeba strains.

Trissl

Martı́nez-Palomo

Argüello

et al. 1977

The Journal of Experimental Medicine

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“…If trypanosome surface glycoproteins recycle, they probably pass through the flagellar pocket since this is the only place where endocytosis occurs in these parasites (1 9, 26). Antibody sometimes induces capping of trypanosomatid antigens at the anterior end of the flagellum (3 l), but caps usually move to the flagellar pocket or cell posterior (2,3,6,7,12,30,31). Endocytosis of caps occurs in the pocket (3).…”

Section: Discussionmentioning

confidence: 99%

“…Endocytosis of caps occurs in the pocket (3). With one exception (12), capping has not been observed at 0" C or when univalent Fab fragments or bivalent antibody were used in the absence of an immunoglobulin cross-linking reagent (2,3,6,7,12). We find that Fl-s-Con A, which is bivalent (1 3), bound to the flagellar pocket of cells maintained on ice.…”

Section: Discussionmentioning

confidence: 99%

“…Fluorescence of the flagellar pocket and flagellum appeared more intense and surface fluorescence less intense when either cell type was incubated 15 min at physiological temperature after binding lectin as described in Table I1 (Figs. [6][7][8]. No staining could be observed in controls incubated with 25 rcg/ml Fl-s-Con A and 100 mM AMM or with 25 pg/ml Fl-BSA (not shown).…”

Section: Trypsinization Of Procyclic Cells Had Little Effect On Fl-+conmentioning

confidence: 99%

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Trypanosoma brucei gambiense and T. b. rhodesiense: Concanavalin A Binding to the Membrane and Flagellar Pocket of Bloodstream and Procyclic Forms¹

Balber

Frommel

1988

The Journal of Protozoology

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We have measured binding of fluorescein-conjugated succinyl-concanavalin A (Fl-s-Con A) to bloodstream and procyclic forms of Trypanosoma brucei gambiense and to bloodstream forms of T. b. rhodesiense by flow cytofluorimetry. Bloodstream forms bound an order of magnitude less lectin than procyclic forms. Trypsin-treating cells enhanced binding of Fl-s-Con A to bloodstream forms 3-16-fold depending on the strain and the length of trypsinization but had little effect on Fl-s-Con A binding by procyclics. The trypsinization protocol used did not remove major common glycoproteins detected on lectin blots of either life cycle form but removed greater than 95% of the variant specific glycoprotein and fragments derived from this protein of bloodstream forms. Microscopically detectable Fl-s-Con A binding to bloodstream forms was confined to the flagellar pocket. Trypsinized bloodstream forms and procyclics bound Fl-s-Con A in the flagellar pocket, on the flagellum, and on the cell surface. Lectin remained cell associated but appeared to redistribute towards the flagellum and pocket when cells that had bound lectin on ice were subsequently incubated at physiological temperatures. The Fl-s-Con A binding had specificity characteristic of the interaction between the lectin and oligosaccharides. These results are consistent with the hypothesis that the variant specific surface glycoprotein blocks binding of the lectin to surface glycoproteins of bloodstream forms and suggest that concanavalin A-binding glycoproteins are abundant in the flagellar pocket of both life cycle forms.

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“…This ability both masks parasite antigens and presents a screen of host "self' antigens to the immune system. Antigenic depletion refers to the stripping of antigens from the surface of the parasite by a shedding mechanism, such as that observed for the tegument of S. mansoni [26], or the capping and shedding of surface antigens, such as that described for Leishmania enriettii [27]. In the latter example, antibody capping and shedding reportedly results in the insensitivity of the organism to the addition of fresh antibody and complement [21].…”

Section: Immune Responses Of the Host To Parasitesmentioning

confidence: 95%

Immune Responses in Parasitic Diseases. Part A: General Concepts

Keusch

1982

Clinical Infectious Diseases

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Parasitic infections are incredibly varied and distinct in terms of interactions between hosts and pathogens as well as in complexity of life cycle, host range, vector or intermediary host requirements, forms of reproduction, and elicited response. A number of protozoan parasites are intracellular pathogens capable of surviving and mutiplying within microbicidal cells such as macrophages. In contrast, nematodes generally do not multiply within the host, a trait that dramatically alters the epidemiologic, clinical, and immunologic consequences of infection. Parasites have acquired apparently effective mechanisms for escape from normal host defenses and clearance. These mechanisms may be classified as antigenic mimicry, antigenic depletion, antigenic variation, immunologic indifference, immunologic diversion, and immunologic subversion. A determination of the importance and relevance of these subterfuges to parasitic infection in humans and to therapeutic or prophylactic strategies is of the utmost urgency.

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ANTIBODY-INDUCED MOVEMENT OF MEMBRANE COMPONENTS OF LEISHMANIA ENRIETTII

Cited by 66 publications

References 16 publications

Surface properties related to concanavalin A-induced agglutination. A comparative study of several Entamoeba strains.

Surface properties related to concanavalin A-induced agglutination. A comparative study of several Entamoeba strains.

Trypanosoma brucei gambiense and T. b. rhodesiense: Concanavalin A Binding to the Membrane and Flagellar Pocket of Bloodstream and Procyclic Forms¹

Immune Responses in Parasitic Diseases. Part A: General Concepts

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ANTIBODY-INDUCED MOVEMENT OF MEMBRANE COMPONENTS OF LEISHMANIA ENRIETTII

Cited by 66 publications

References 16 publications

Surface properties related to concanavalin A-induced agglutination. A comparative study of several Entamoeba strains.

Surface properties related to concanavalin A-induced agglutination. A comparative study of several Entamoeba strains.

Trypanosoma brucei gambiense and T. b. rhodesiense: Concanavalin A Binding to the Membrane and Flagellar Pocket of Bloodstream and Procyclic Forms1

Immune Responses in Parasitic Diseases. Part A: General Concepts

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Trypanosoma brucei gambiense and T. b. rhodesiense: Concanavalin A Binding to the Membrane and Flagellar Pocket of Bloodstream and Procyclic Forms¹