Helena C. Barros scite author profile

In this study we have examined the distribution of epitopes defined by monoclonal antibodies raised against Trypanosoma cruzi amastigotes during the intracellular life cycle of the parasite. We have raised monoclonal antibodies towards amastigote forms and performed preliminary immunochemical characterization of their reactivities. MAB 1D9, 3G8, 2B7, 3B9, and 4B9 react with carbohydrate epitopes of the parasite major surface glycoprotein--Ssp-4 defined by MAB 2C2 [5]; MAB 4B5 reacts with a noncarbohydrate epitope in all developmental stages of the parasite, and MAB 3B2 also detects a noncarbohydrate epitope preferentially in T. cruzi flagellated forms. Vero cells infected with tissue culture-derived trypomastigotes of clone D11 (G strain) were fixed at different times during the intracellular proliferation of parasites, and processed for immuno-electron microscopy and confocal immunofluorescence with the different monoclonal antibodies. We observed that while the surface distribution of MAB 2C2 and 4B9 epitopes was uniform throughout the cycle, MAB 1D9, 3G8, and 2B7 reacted with cytoplasmic membrane-bound compartments of the amastigotes. MAB 3B9 displayed a unique surface dentate pattern in some amastigotes. MAB 4B5 recognized a curved-shaped structure at the flagellar pocket region in some intracellular amastigotes and localized to the membrane in dividing forms. In intracellular trypomastigotes, MAB 4B5 also displayed a punctate pattern near the flagellar pocket.

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Actin-rich structures formed during the invasion of cultured cells by infective forms of Trypanosoma cruzi

Procópio

Barros

Mortara

1999

European Journal of Cell Biology

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Release of Membrane‐Bound Trails by Trypanosoma cruzi Amastigotes onto Modified Surfaces and Mammalian Cells

Barros

Silva²,

Verbisck³

et al. 1996

J Eukaryotic Microbiology

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Upon incubation at 37 degrees C onto glass coverslips coated with Concanavalin A, poly-L-lysine, or a monoclonal antibody (1D9) directed to the parasite major surface glycoprotein Ssp-4, extracellular Trypanosoma cruzi amastigotes release trails of material barely visible by light microscopy. This release is not associated with parasite movements. Immunolabeling studies confirmed that the material is derived from the parasite's membrane since thin section through samples labeled with 1D9 revealed that the trails are membrane-bound structures. Scanning electron microscopy showed that the approximately 0.1-micron(s) thick trails of material emerging from the amastigotes can be uniform or beaded, indicating a tendency to vesiculation. The trails are preferentially released from the flagellar pocket region and/or at the opposite posterior end of the parasite body, and seem to be devoid of microtubules. The release is time and temperature-dependent and fixed parasites do not form trails. All attempts to inhibit trail release using drugs (antimycin A, sodium azide, cytochalasin D, nocodazole, genistein, staurosporine, EGTA) failed. The observation of trails associated with intracellular parasites and amastigotes invading Vero cells suggests that this is probably a physiological process.

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Features of host cell invasion by different infective forms of Trypanosoma cruzi

Mortara

Procópio

Barros

et al. 1999

Mem. Inst. Oswaldo Cruz

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Helena C. Barros

Distribution of Epitopes of Trypanosoma cruzi Amastigotes During the Intracellular Life Cycle within Mammalian Cells

Actin-rich structures formed during the invasion of cultured cells by infective forms of Trypanosoma cruzi

Release of Membrane‐Bound Trails by Trypanosoma cruzi Amastigotes onto Modified Surfaces and Mammalian Cells

Features of host cell invasion by different infective forms of Trypanosoma cruzi

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