Nivedita Sahoo scite author profile

Summary The intracellular protozoan parasite Toxoplasma gondii divides by a unique process of internal budding that involves the assembly of two daughter cells within the mother. The cytoskeleton of Toxoplasma, which is composed of microtubules associated with an inner membrane complex (IMC), has an important role in this process. The IMC, which is directly under the plasma membrane, contains a set of flattened membranous sacs lined on the cytoplasmic side by a network of filamentous proteins. This network contains a family of intermediate filament-like proteins or IMC proteins. In order to elucidate the division process, we have characterized a 14-member sub-family of Toxoplasma IMC proteins that share a repeat motif found in proteins associated with the cortical alveoli in all alveolates. By creating fluorescent protein fusion reporters for the family members we determined the spatio-temporal patterns of all 14 IMC proteins through tachyzoite development. This revealed several distinct distribution patterns and some provide the basis for novel structural models such as the assembly of certain family members into the basal complex. Furthermore we identified IMC15 as an early marker of budding and, lastly, the dynamic patterns observed throughout cytokinesis provide a timeline for daughter parasite development and division.

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Unusual Kinetic and Structural Properties Control Rapid Assembly and Turnover of Actin in the ParasiteToxoplasma gondii

Sahoo

Beatty

Heuser

et al. 2006

MBoC

118

138

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Toxoplasma is a protozoan parasite in the phylum Apicomplexa, which contains a number of medically important parasites that rely on a highly unusual form of motility termed gliding to actively penetrate their host cells. Parasite actin filaments regulate gliding motility, yet paradoxically filamentous actin is rarely detected in these parasites. To investigate the kinetics of this unusual parasite actin, we expressed TgACT1 in baculovirus and purified it to homogeneity. Biochemical analysis showed that Toxoplasma actin (TgACT1) rapidly polymerized into filaments at a critical concentration that was 3-4-fold lower than conventional actins, yet it failed to copolymerize with mammalian actin. Electron microscopic analysis revealed that TgACT1 filaments were 10 times shorter and less stable than rabbit actin. Phylogenetic comparison of actins revealed a limited number of apicomplexan-specific residues that likely govern the unusual behavior of parasite actin. Molecular modeling identified several key alterations that affect interactions between monomers and that are predicted to destabilize filaments. Our findings suggest that conserved molecular differences in parasite actin favor rapid cycles of assembly and disassembly that govern the unusual form of gliding motility utilized by apicomplexans.

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Calcium binding protein 1 of the protozoan parasiteEntamoeba histolyticainteracts with actin and is involved in cytoskeleton dynamics

et al. 2004

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demonstrated by a co-sedimentation assay. A variant of EhCaBP1 did not bind F-actin showing the specificity of the interaction between EhCaBP1 and actin. There is no significant change in the kinetics of in vitro polymerization of actin in presence of EhCaBP1, indicating that EhCaBP1 does not affect filament treadmilling. In addition, using atomic force microscopy; it was found that filaments of Factin, polymerized in presence of EhCaBP1, were thinner. These results indicate that EhCaBP1 may be involved in dynamic membrane restructuring at the time of cell pseudopod formation, phagocytosis and endocytosis in a process mediated by direct binding of EhCaBP1 to actin, affecting the bundling of actin filaments.

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MORN1 Has a Conserved Role in Asexual and Sexual Development across the Apicomplexa

et al. 2008

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The gene encoding the membrane occupation and recognition nexus protein MORN1 is conserved across the Apicomplexa. In Toxoplasma gondii, MORN1 is associated with the spindle poles, the anterior and posterior rings of the inner membrane complex (IMC). The present study examines the localization of MORN1 during the coccidian development of T. gondii and three Eimeria species (in the definitive host) and erythrocytic schizogony of Plasmodium falciparum. During asexual proliferation, MORN1 is associated with the posterior ring of the IMCs of the multiple daughters forming during T. gondii endopolygeny and schizogony in Eimeria and P. falciparum. Furthermore, the expression of P. falciparum MORN1 protein peaked in late schizogony. These data fit a model with a conserved role for MORN1 during IMC assembly in all variations of asexual development. An important new observation is the reactivity of MORN1 antibody with certain sexual stages in T. gondii and Eimeria species. Here MORN1 is organized as a ring-like structure where the microgametes bud from the microgametocyte while in mature microgametes it is present near the flagellar basal bodies and mitochondrion. These observations suggest a conserved role for MORN1 in both asexual and sexual development across the Apicomplexa.

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Parasite Stage–Specific Recognition of EndogenousToxoplasma gondii–Derived CD8⁺T Cell Epitopes

et al. 2008

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Background BALB/c mice control infection with the obligate intracellular parasite Toxoplasma gondii and develop a latent chronic infection in the brain, as do immunocompetent humans. IFN-γ producing CD8+ T cells provide essential protection against T. gondii, but the epitopes recognized have so far remained elusive. Methods We employed caged MHC molecules to generate ~ 250 H-2Ld tetramers and distinguish T. gondii-specific CD8+ T cells in BALB/c mice. Results We identify two T. gondii specific H-2Ld-restricted T cell epitopes, one from dense granule protein GRA4 and the other from rhoptry protein ROP7. H-2Ld/GRA4 reactive T cells from multiple organ sources predominate 2 weeks after infection, while the reactivity of the H-2Ld/ROP7 T cells peaks 6–8 weeks after infection. BALB/c animals infected with T. gondii mutants defective in establishing a chronic infection show altered levels of antigen-specific T cells, depending on the T. gondii mutant used. Conclusions Our results shed light on the identity and the parasite stage-specificity of two CD8+ T cell epitopes recognized in the acute and chronic phase of infection with T. gondii.

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Nivedita Sahoo

A family of intermediate filament-like proteins is sequentially assembled into the cytoskeleton of Toxoplasma gondii

Unusual Kinetic and Structural Properties Control Rapid Assembly and Turnover of Actin in the ParasiteToxoplasma gondii

Calcium binding protein 1 of the protozoan parasiteEntamoeba histolyticainteracts with actin and is involved in cytoskeleton dynamics

MORN1 Has a Conserved Role in Asexual and Sexual Development across the Apicomplexa

Parasite Stage–Specific Recognition of EndogenousToxoplasma gondii–Derived CD8⁺T Cell Epitopes

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Nivedita Sahoo

A family of intermediate filament-like proteins is sequentially assembled into the cytoskeleton of Toxoplasma gondii

Unusual Kinetic and Structural Properties Control Rapid Assembly and Turnover of Actin in the ParasiteToxoplasma gondii

Calcium binding protein 1 of the protozoan parasiteEntamoeba histolyticainteracts with actin and is involved in cytoskeleton dynamics

MORN1 Has a Conserved Role in Asexual and Sexual Development across the Apicomplexa

Parasite Stage–Specific Recognition of EndogenousToxoplasma gondii–Derived CD8+T Cell Epitopes

Contact Info

Product

Resources

About

Parasite Stage–Specific Recognition of EndogenousToxoplasma gondii–Derived CD8⁺T Cell Epitopes