RESUMEN
Trypanosoma cruzi proliferative forms perform endocytosis through a specialized structure named the cytostome-cytopharynx complex (SPC). The SPC is a specialized invagination of the cell membrane that extends through the cell body towards the posterior regions, with its aperture close to the flagellar pocket. Recently, diverse proteins were found along the cytopharynx, including two myosin motors. One of these is the orphan myosin MyoF, that was proved to be essential for endocytosis in epimastigotes. However, the dynamics of MyoF localization along the endocytic pathway and through the T. cruzi life cycle remain unclear. Using CRISPR-Cas9 genome editing, we generated epimastigotes expressing MyoF fused to mNeonGreen from its endogenous locus. Using these cells, we observed that during the epimastigote cell cycle MyoF signal disappeared during G2, reappearing at early cytokinesis. Additionally, we show that MyoF localization during metacyclogenesis is compatible with the progressive disappearance of the SPC, being absent in metacyclic trypomastigotes. Detergent fractionation showed that MyoF was predominantly present in the insoluble fraction and immunolocalized at the SPC microtubules in whole-mount cytoskeleton preparations. Moreover, during tracer uptake through the SPC, MyoF followed the tracer along the endocytic pathway and was found in posterior compartments after 30 min. Taken together, the data suggest that MyoF may play a role not only at the cargo entry site but also along the endocytic pathway.
Asunto(s)
Endocitosis , Miosinas/genética , Proteínas Protozoarias/genética , Trypanosoma cruzi/fisiología , Miosinas/metabolismo , Proteínas Protozoarias/metabolismoRESUMEN
Endocytosis in Trypanosoma cruzi is mainly performed through a specialised membrane domain called cytostome-cytopharynx complex. Its ultrastructure and dynamics in endocytosis are well characterized in epimastigotes, being absent in trypomastigotes, that lack endocytic activity. Intracellular amastigotes also possess a cytostome-cytopharynx but participation in endocytosis of these forms is not clear. Extracellular amastigotes can be obtained from the supernatant of infected cells or in vitro amastigogenesis. These amastigotes share biochemical and morphological features with intracellular amastigotes but retain trypomastigote's ability to establish infection. We analysed and compared the ultrastructure of the cytostome-cytopharynx complex of intracellular amastigotes and extracellular amastigotes using high-resolution tridimensional electron microscopy techniques. We compared the endocytic ability of intracellular amastigotes, obtained through host cell lysis, with that of extracellular amastigotes. Intracellular amastigotes showed a cytostome-cytopharynx complex similar to epimastigotes'. However, after isolation, the complex undergoes ultrastructural modifications that progressively took to an impairment of endocytosis. Extracellular amastigotes do not possess a cytostome-cytopharynx complex nor the ability to endocytose. Those observations highlight morpho functional differences between intra and extracellular amastigotes regarding an important structure related to cell metabolism. TAKE AWAYS: T. cruzi intracellular amastigotes endocytose through the cytostome-cytopharynx complex. The cytostome-cytopharynx complex of intracellular amastigotes is ultrastructurally similar to the epimastigote. Intracellular amastigotes, once outside the host cell, disassembles the cytostome-cytopharynx membrane domain. Extracellular amastigotes do not possess a cytostome-cytopharynx either the ability to endocytose.
Asunto(s)
Enfermedad de Chagas , Trypanosoma cruzi , Membrana Celular , Endocitosis , Humanos , Microscopía ElectrónicaRESUMEN
The cytostome-cytopharynx complex is the main site for endocytosis in epimastigotes of Trypanosoma cruzi It consists of an opening at the plasma membrane surface - the cytostome - followed by a membrane invagination - the cytopharynx. In G1/S cells, this structure is associated with two specific sets of microtubules, a quartet and a triplet. Here, we used electron microscopy and electron tomography to build 3D models of the complex at different stages of the cell cycle. The cytostome-cytopharynx is absent in late G2 and M phase cells, whereas early G2 cells have either a short cytopharynx or no visible complex, with numerous vesicles aligned to the cytostome-cytopharynx microtubules. The microtubule quartet remains visible throughout cell division (albeit in a shorter form), and is duplicated during G2/M. In contrast, the microtubule triplet is absent during late G2/M. Cells in cytokinesis have an invagination of the flagellar pocket membrane likely to represent early stages in cytostome-cytopharynx assembly. Cells in late cytokinesis have two fully developed cytostome-cytopharynx complexes. Our data suggest that the microtubule quartet serves as a guide for new cytostome-cytopharynx assembly.
Asunto(s)
División Celular , Estadios del Ciclo de Vida , Trypanosoma cruzi/citología , Trypanosoma cruzi/crecimiento & desarrollo , Citocinesis , Flagelos/metabolismo , Flagelos/ultraestructura , Fase G2 , Metafase , Microtúbulos/metabolismo , Microtúbulos/ultraestructura , Modelos Biológicos , Trypanosoma cruzi/ultraestructuraRESUMEN
Trypanosoma cruzi epimastigotes uptake nutrients by endocytosis via the cytostome-cytopharynx complex - an anterior opening (cytostome) continuous with a funnel-shaped invagination (cytopharynx) that extends to the posterior of the cell, accompanied by microtubules. During metacyclogenesis - the transformation of epimastigotes into human-infective metacyclic trypomastigotes - the cytostome-cytopharynx complex disappears, as trypomastigotes lose endocytic ability. To date, no studies have examined cytostome-cytopharynx complex disappearance in detail, or determined if endocytic activity persists during metacyclogenesis. Here, we produced 3D reconstructions of metacyclogenesis intermediates (Ia, Ib, Ic) using electron microscopy tomography and focused ion beam-scanning electron microscopy (FIB-SEM), concentrating on the cytostome-cytopharynx complex and adjacent structures, including the preoral ridge (POR). Parasite endocytic potential was examined by incubation of intermediate forms with the endocytic tracer transferrin (Tf)-Au. Ia, Ib and Ic cells were capable of internalizing Tf-Au, and had a shorter cytopharynx than that of epimastigotes, with the cytostome/POR progressively displaced towards the posterior, following the movement of the kinetoplast/flagellar pocket. While some Ic cells had a short cytopharynx with an enlarged proximal end (â¼300nm in diameter, larger than that of the cytostome), other Ic cells had no cytopharynx invagination, but retained the cytopharynx microtubules, which were also present in metacyclics. We conclude that cytostome-cytopharynx disappearance and loss of endocytic ability are late events in metacyclogenesis, during which the cytostome is displaced towards the posterior, probably due to a link to the kinetoplast/flagellar pocket. Retention of the cytopharynx microtubules by metacyclics may allow prompt cytostome-cytopharynx reassembly in amastigotes, upon host cell infection.
Asunto(s)
Membrana Celular/química , Microtúbulos/química , Transferrina/química , Trypanosoma cruzi/química , Animales , Membrana Celular/ultraestructura , Tomografía con Microscopio Electrónico , Endocitosis/genética , Humanos , Microtúbulos/ultraestructura , Transferrina/ultraestructura , Trypanosoma cruzi/patogenicidadRESUMEN
The cytostome-cytopharynx complex is the main site of endocytosis of Trypanosoma cruzi epimastigotes. Little is known about the detailed morphology of this remarkable structure. We used serial electron tomography and focused-ion-beam scanning electron microscopy to reconstruct the entire complex, including the surrounding cytoskeleton and vesicles. Focusing on cells that had taken up gold-labeled tracers, we produced three-dimensional snapshots of the process of endocytosis. The cytostome cytoskeleton was composed of two microtubule sets--a triplet that started underneath the cytostome membrane, and a quartet that originated underneath the flagellar-pocket membrane and followed the preoral ridge before reaching the cytopharynx. The two sets accompanying the cytopharynx formed a 'gutter' and left a microtubule-free side, where vesicles were found to be associated. Cargo was unevenly distributed along the lumen of the cytopharynx, forming clusters. The cytopharynx was slightly longer during the G2 phase of the cell cycle, although it did not reach the postnuclear region owing to a bend in its path. Therefore, the cytopharynx is a dynamic structure, undergoing remodeling that is likely associated with endocytic activity and the preparation for cell division.