Your search keyword '"DE SOUZA, WANDERLEY"' showing total 42 results

1. SARS-CoV-2 egress from Vero cells: a morphological approach

Author

Caldas, Lucio Ayres, Carneiro, Fabiana Avila, Augusto, Ingrid, Corrêa, Isadora Alonso, da Costa, Luciana Jesus, Miranda, Kildare, Tanuri, Amilcar, and de Souza, Wanderley

Published

2024

2. Contribution of microscopy to a better understanding of the anatomy of pathogenic protists.

Author

de Souza, Wanderley

Subjects

*PARASITIC protozoa, *ANATOMY, *TRYPANOSOMA cruzi, *PROTISTA, *MICROSCOPY

Abstract

In this Inaugural Article the author briefly revises its scientific career and how he starts to work with parasitic protozoa. Emphasis is given to his contribution to topics such as a) the structural organization of the surface of protozoa using freeze-fracture and deep-etching; b) the cytoskeleton of protozoa, especially structures such as the subpellicular microtubules of trypanosomatids, the conoid of Toxoplasma gondii, microtubules and inner membrane complex of this protozoan, and the costa of Tritrichomonas foetus; c) the flagellulm of trypanosomatids, that in addition to the axoneme contains a complex network of filaments that constitute the paraflagellar rod; d) special organelles such as the acidocalcisome, hydrogenosome, and glycosome; and e) the highly polarized endocytic pathway found in epimastigote forms of Trypanosoma cruzi. [ABSTRACT FROM AUTHOR]

Published

2024

3. KH-TFMDI, a novel sirtuin inhibitor, alters the cytoskeleton and mitochondrial metabolism promoting cell death in Leishmania amazonensis

Author

Verçoza, Brunno Renato Farias, Godinho, Joseane Lima Prado, de Macedo-Silva, Sara Teixeira, Huber, Kilian, Bracher, Franz, de Souza, Wanderley, and Rodrigues, Juliany Cola Fernandes

Published

2017

4. The Paraxial Structure of the Flagellum of Trypanosomatidae

Author

de Souza, Wanderley and Souto-Padrón, Thais

Published

1980

5. Morphological Changes of Herpetomonas samuelpessoai

Author

de Almeida, Darcy F. and de Souza, Wanderley

Published

1978

6. Nanoarchitecture of the ventral disc of Giardia intestinalis as revealed by high-resolution scanning electron microscopy and helium ion microscopy.

Author

Gadelha, Ana Paula Rocha, Benchimol, Marlene, and de Souza, Wanderley

Subjects

FIELD ion microscopy, SCANNING electron microscopy, GIARDIA lamblia, HELIUM ions, TUBULINS, IMMUNOGOLD labeling, ELECTRON microscopy, GIARDIASIS, IMMUNOGLOBULINS, STAINS & staining (Microscopy), GOLD, HELIUM, NANOSTRUCTURES, CYTOLOGY, CYTOPLASM

Abstract

The parasitic protozoan Giardia intestinalis, the causative agent of giardiasis, presents a stable and elaborated cytoskeleton, which shapes and supports several intracellular structures, including the ventral disc, the median body, the funis, and four pairs of flagella. Giardia trophozoite is the motile form that inhabits the host small intestine and attaches to epithelial cells, leading to infection. The ventral disc is considered one important element of adhesion to the intestinal cells. It is adjacent to the plasma membrane in the ventral region of the cell and consists of a spiral layer of microtubules and microribbons. In this work, we studied the organization of the cytoskeleton in the ventral disc of G. intestinalis trophozoites using high-resolution scanning electron microscopy or helium ion microscopy in plasma membrane-extracted cells. Here, we show novel morphological details about the arrangement of cross-bridges in different regions of the ventral disc. Results showed that the disc is a non-uniformly organized structure that presents specific domains, such as the margin and the ventral groove region. High-resolution scanning electron microscopy allowed observation of the labeling pattern for several anti-tubulin antibodies using secondary gold particle-labeled antibodies. Labeling in the region of the emergence of the microtubules and supernumerary microtubules using an anti-acetylated tubulin antibody was observed. Ultrastructural analysis and immunogold labeling for gamma-tubulin suggest that disc microtubules originate from a region bounded by the bands of the banded collar and merge with microtubules formed at the perinuclear region. Actin-like filaments and microtubules of the disc are associated, showing an interconnection between elements of the cytoskeleton of the trophozoite. [ABSTRACT FROM AUTHOR]

Published

2022

7. Trypanosoma cruzi glycoprotein 72: Immunological analysis and cellular localization

Author

Harth, Guenter, Mills, Alea A., Souto-Padrón, Thais, and de Souza, Wanderley

Published

1992

8. Intracellular host cell membrane remodelling induced by SARS‐CoV‐2 infection in vitro.

Author

Caldas, Lucio Ayres, Carneiro, Fabiana Avila, Monteiro, Fabio Luis, Augusto, Ingrid, Higa, Luiza Mendonça, Miranda, Kildare, Tanuri, Amilcar, and de Souza, Wanderley

Subjects

SARS-CoV-2, INTRACELLULAR membranes, TRANSMISSION electron microscopy

Abstract

Background Information: Severe acute respiratory syndrome coronavirus‐2 (SARS‐CoV‐2) infection induces an alteration in the endomembrane system of the mammalian cells. In this study, we used transmission electron microscopy and electron tomography to investigate the main structural alterations in the cytoplasm of Vero cells infected with a SARS‐CoV‐2 isolate from São Paulo state (Brazil). Results: Different membranous structures derived from the zippered endoplasmic reticulum were observed along with virus assembly through membrane budding. Also, we demonstrated the occurrence of annulate lamellae in the cytoplasm of infected cells and the presence of virus particles in the perinuclear space. Conclusions and Significance: This study contributes to a better understanding of the cell biology of SARS‐CoV‐2 and the mechanisms of the interaction of the virus with the host cell that promote morphological changes, recruitment of organelles and cell components, in a context of a virus‐induced membrane remodelling. [ABSTRACT FROM AUTHOR]

Published

2021

9. Ultrastructural Study of Cryptococcus neoformans Surface During Budding Events.

Author

Araújo, Glauber R. de S., Alcantara, Carolina de L., Rodrigues, Noêmia, de Souza, Wanderley, Pontes, Bruno, and Frases, Susana

Subjects

CRYPTOCOCCUS neoformans, CRYPTOCOCCOSIS, ELECTRON microscope techniques, STEM cells, EXTRACELLULAR space, SPACE plasmas, PLANT cell walls

Abstract

Cryptococcus neoformans is a fungal pathogen that causes life-threatening infections in immunocompromised individuals. It is surrounded by three concentric structures that separate the cell from the extracellular space: the plasma membrane, the cell wall and the polysaccharide (PS) capsule. Although several studies have revealed the chemical composition of these structures, little is known about their ultrastructural organization and remodeling during C. neoformans budding events. Here, by combining the latest and most accurate light and electron microscopy techniques, we describe the morphological remodeling that occurs among the capsule, cell wall and plasma membrane during budding in C. neoformans. Our results show that the cell wall deforms to generate a specialized region at one of the cell's poles. This region subsequently begins to break into layers that are slightly separated from each other and with thick tips. We also observe a reorganization of the capsular PS around the specialized regions. While daughter cells present their PS fibers aligned in the direction of budding, mother cells show a similar pattern but in the opposite direction. Also, daughter cells form multilamellar membrane structures covering the continuous opening between both cells. Together, our findings provide compelling ultrastructural evidence for C. neoformans surface remodeling during budding, which may have important implications for future studies exploring these remodeled specialized regions as drug-targets against cryptococcosis. [ABSTRACT FROM AUTHOR]

Published

2021

10. Electron microscopy cytochemistry and three-dimensional reconstruction of labeled structures in Trypanosoma cruzi.

Author

de Souza, Wanderley, Alcantara, Carolina L., and Cunha e Silva, Narcisa L.

Subjects

*TRYPANOSOMA cruzi, *ELECTRON microscopy, *CYTOCHEMISTRY, *SCANNING electron microscopy, *ION beams

Abstract

Significant advances have occurred in the area of high-resolution scanning electron microscopy (SEM), especially related to methodologies that allow the observation of intracellular structures that are exposed either by successive abrasion with a gallium ion beam or by sectioning in epoxy-embedded cells. Images of series of successively exposed surfaces can then be rendered into 3D models. Here, we report our observations by combining this approach with classical cytochemical methods to facilitate the 3D reconstruction of labeled structures and organelles. We used epimastigotes of Trypanosoma cruzi whose endocytic pathway was labeled with horseradish peroxidase, followed by fixation and detection of the peroxidase activity using the classical diaminobenzidine-osmium method followed by incubation with thiocarbohydrazide, which increases the concentration of osmium at the sites where the enzyme is located as well as the contrast of lipid-containing structures. This procedure allows not only a better visualization of membranous structures and lipid inclusions but can also easily identify the endocytic tracer (HRP) inside the cell. All structures involved in the endocytic activity could be traced and reconstructed. [ABSTRACT FROM AUTHOR]

Published

2020

11. The peripheral vesicles gather multivesicular bodies with different behavior during the Giardia intestinalis life cycle.

Author

Midlej, Victor, de Souza, Wanderley, and Benchimol, Marlene

Subjects

*GIARDIA lamblia, *FOCUSED ion beams, *INTRACELLULAR membranes, *ACID phosphatase, *ELECTRON microscope techniques, *ELECTRON beams

Abstract

Giardia intestinalis presents an intriguing endomembrane system, which includes endoplasmic reticulum and peripheral vesicles (PVs). The PVs have previously been considered to be organelles that display early and late endosomal and lysosomal properties. Some of these vesicles accumulate macromolecules ingested by the protozoan and show acid phosphatase activity. It has been previously shown that the parasite releases microvesicles, which contribute to giardiasis pathogenesis; however, the vesicles' origin and the way in which they are released by the parasite still remain unclear. In this study, we induced the parasites to encyst in vitro and analyzed these events using advanced electron microscopy techniques, including focused ion beam and electron microscopy tomography followed by three-dimensional reconstruction, in order to better understand protozoal multivesicular body (MVB) biogenesis. In addition, we performed an ultrastructural analysis of phosphatase activity during differentiation. We demonstrated that some vegetative trophozoites' PVs exhibited morphological characteristics of MVBs with a mean diameter of 50 nm, containing intraluminal vesicles (ILVs). [ABSTRACT FROM AUTHOR]

Published

2019

12. Zinc-clotrimazole complexes are effective against Trichomonas vaginalis.

Author

Midlej, Victor, Rubim, Felipe, Villarreal, Wilmer, Martins-Duarte, Érica S., Navarro, Maribel, de Souza, Wanderley, and Benchimol, Marlene

Subjects

TRICHOMONAS vaginalis, SCANNING transmission electron microscopy, SEXUALLY transmitted diseases, ZINC compounds, GOLGI apparatus, DRUG side effects

Abstract

Trichomonas vaginalis is a protozoan parasite that causes trichomoniasis in humans, the most prevalent non-viral sexually transmitted disease (STD). Imidazole compounds are used for the treatment of trichomoniasis, and metronidazole is the most commonly prescribed. However, these compounds can lead to parasite resistance and unwanted side effects. Therefore, there is a need for an alternative treatment for this disease. Here, we explored the potential of clotrimazole (CTZ) and zinc compounds, as well as CTZ complexed with zinc salts ([ 1 ] acetate [Zn(CTZ)2(Ac)2] and [ 2 ] a chloride [Zn(CTZ)2Cl2] complexes) against T. vaginalis. We synthesized the zinc complexed CTZ compounds and determined their concentration values that inhibited parasite growth by 50% (IC50). We used scanning and transmission electron microscopy to visualize the ultrastructural alterations induced by CTZ and their zinc complexes. The incubation of the parasites with [Zn(CTZ)2(Ac)2] complex inhibited their growth, yielding an IC50 of 4.9 µ m. Moreover, there were changes in the shape of treated parasites, including the formation of surface projections that subsequently detached from the cell, in addition to changes in the hydrogenosomes, endoplasmic reticulum and Golgi complex. We found [Zn(CTZ)2(Ac)2] to be a highly effective compound against T. vaginalis in vitro , suggesting its potential utility as an alternative chemotherapy for trichomoniasis. [ABSTRACT FROM AUTHOR]

Published

2019

13. Alterations on growth and cell organization of Giardia intestinalis trophozoites after treatment with KH-TFMDI, a novel class III histone deacetylase inhibitor.

Author

Gadelha, Ana Paula R., Bravim, Bárbara, Vidal, Juliana, Reignault, Lissa Catherine, Cosme, Bruno, Huber, Kilian, Bracher, Franz, and de Souza, Wanderley

Subjects

TROPHOZOITES, HISTONE deacetylase inhibitors, SIRTUINS, ANTIPARASITIC agents, CYTOKINESIS, GIARDIA

Abstract

Abstract Giardia trophozoites have developed resistance mechanisms to currently available compounds, leading to treatment failures. In this context, the development of new additional agents is mandatory. Sirtuins, which are class III NAD+-dependent histone deacetylases, have been considered important targets for the development of new anti-parasitic drugs. Here, we evaluated the activity of KH-TFMDI, a novel 3-arylideneindolin-2-one-type sirtuin inhibitor, on G. intestinalis trophozoites. This compound decreased the trophozoite growth presenting an IC 50 value lower than nicotinamide, a moderately active inhibitor of yeast and human sirtuins. Light and electron microscopy analysis showed the presence of multinucleated cell clusters suggesting that the cytokinesis could be compromised in treated trophozoites. Cell rounding, concomitantly with the folding of the ventro-lateral flange and flagella internalization, was also observed. These cells eventually died by a mechanism which lead to DNA/nuclear damage, formation of multi-lamellar bodies and annexin V binding on the parasite surface. Taken together, these data show that KH-TFMDI has significant effects against G. intestinalis trophozoites proliferation and structural organization and suggest that histone deacetylation pathway should be explored on this protozoon as target for chemotherapy. [ABSTRACT FROM AUTHOR]

Published

2019

14. An electron microscopic study of the salivary gland of Rhynchosciara angelae

Author

Araujo Jorge, Tania C., Dodsworth Machado, Raul, and de Souza, Wanderley

Published

1980

15. In vitro antileishmanial activity of ravuconazole, a triazole antifungal drug, as a potential treatment for leishmaniasis.

Author

Silva, Sara Teixeira de Macedo, Visbal, Gonzalo, Godinho, Joseane Lima Prado, Urbina, Julio A, Souza, Wanderley de, Rodrigues, Juliany Cola Fernandes, Teixeira de Macedo Silva, Sara, Lima Prado Godinho, Joseane, de Souza, Wanderley, and Cola Fernandes Rodrigues, Juliany

Subjects

LEISHMANIASIS, TRIAZOLES, ULTRASTRUCTURE of bacteria, BIOAVAILABILITY, AMASTIGOTES, ANIMAL experimentation, COMPARATIVE studies, ELECTRON microscopy, FLOW cytometry, FLUORIMETRY, HETEROCYCLIC compounds, LEISHMANIA, MASS spectrometry, RESEARCH methodology, MEDICAL cooperation, MEDICAL prescriptions, MICROBIOLOGICAL techniques, MICROSCOPY, PARASITOLOGY, RESEARCH, THIAZOLES, EVALUATION research, ANTIPROTOZOAL agents, PHARMACODYNAMICS

Abstract

Objectives: Leishmaniasis, one of the most significant neglected diseases around the world, is caused by protozoan parasites of the Leishmania genus. Nowadays, the available aetiological treatments for leishmaniasis have variable effectiveness and several problems such as serious side effects, toxicity, high cost and an increasing number of resistance cases. Thus, there is an urgent need for safe, oral and cost-effective drugs for leishmaniases. Previously, our group has shown the effect of the ergosterol biosynthesis inhibitors on Leishmania amazonensis. Herein, we showed the effect of ravuconazole against L. amazonensis; ravuconazole is a second-generation triazole antifungal drug that has good bioavailability after oral administration and a long terminal half-life in humans, a broad activity spectrum, high effectiveness in treatment of mycosis and negligible side effects.Methods: Several methodologies were used: cell culture, fluorescence and electron microscopy, high-resolution capillary GC coupled with MS, fluorimetry and flow cytometry.Results: Our results showed that ravuconazole was able to inhibit the proliferation of L. amazonensis promastigotes and intracellular amastigotes in vitro, with single-digit to sub-micromolar IC50 values, causing several alterations in the morphology, ultrastructure, cell viability and physiology of the parasites. The mitochondrion was significantly affected by the treatment, resulting in a collapse of the mitochondrial transmembrane potential that consequently led to inhibition of ATP production, combined with an increase in reactive oxygen species and mitochondrial superoxide production; by transmission electron microscopy, the organelle displayed a completely altered ultrastructure. The treatment changed the lipid profile, showing a profound depletion of the 14-desmethyl endogenous sterol pool.Conclusions: These results suggest that ravuconazole could be an alternative option for the treatment of leishmaniasis. [ABSTRACT FROM AUTHOR]

Published

2018

16. The Kinetoplast of Trypanosomatids: From Early Studies of Electron Microscopy to Recent Advances in Atomic Force Microscopy.

Author

Cavalcanti, Danielle Pereira and de Souza, Wanderley

Subjects

*ELECTRON microscopy, *KINETOPLASTS, *DNA, *MITOCHONDRIA, *GENETIC engineering

Abstract

The kinetoplast is a specialized region of the mitochondria of trypanosomatids that harbors the most complex and unusual mitochondrial DNA found in nature. Kinetoplast DNA (kDNA) is composed of thousands of circular molecules topologically interlocked to form a single network. Two types of DNA circles are present in the kinetoplast: minicircles (0.5–10 kb) and maxicircles (20–40 kb). Knowledge of kinetoplast architecture is crucial to understanding the replication and segregation of kDNA circles because the molecules involved in these processes are precisely positioned in functional domains throughout the kinetoplast. The fine structure of the kinetoplast was revealed in early electron microscopy (EM) studies. However, an understanding of the topological organization of kDNA was only demonstrated after the development of protocols to separate kDNA from nuclear DNA, followed by EM observations. Electron microscopy analysis of thin sections of trypanosomatids, spreading of isolated kDNA networks onto EM grids, deep-etching studies, and cytochemical and immunocytochemical approaches are examples of techniques that were useful for elucidating the structure and replication of the kinetoplast. Recently, atomic force microscopy has joined this set of techniques and improved our knowledge about the kDNA network and revealed new details about kDNA topology in trypanosomatids. [ABSTRACT FROM AUTHOR]

Published

2018

17. Lysosome-like compartments of Trypanosoma cruzi trypomastigotes may originate directly from epimastigote reservosomes.

Author

VIDAL, JULIANA C., ALCANTARA, CAROLINA DE L., DE SOUZA, WANDERLEY, and CUNHA-E-SILVA, NARCISA L.

Subjects

LYSOSOMES, TRYPANOSOMA cruzi, ELECTRON microscopy, ORGANELLES, CHAGAS' disease

Abstract

Trypanosoma cruzi epimastigote reservosomes store nutrients taken up during the intense endocytic activity exhibited by this developmental form. Reservosomes were classified as pre-lysosomal compartments. In contrast, trypomastigote forms are not able to take up nutrients from the medium. Interestingly, trypomastigotes also have acidic organelles with the same proteases contained in epimastigote reservosomes. Nevertheless, the origin and function of these organelles have not been disclosed so far. Given the similarities between the compartments of epimastigotes and trypomastigotes, the present study aimed to investigate the origin of metacyclic trypomastigote protease-containing organelles by tracking fluorospheres or colloidal gold particles previously stored in epimastigotes’ reservosomes throughout metacyclogenesis. Using three-dimensional reconstruction of serial electron microscopy images, it was possible to find trypomastigote compartments containing the tracer. Our observations demonstrate that the protease-containing compartments from metacyclic trypomastigotes may originate directly from the reservosomes of epimastigotes. [ABSTRACT FROM PUBLISHER]

Published

2017

18. In vitro effects of the 4-[(10H-phenothiazin-10-yl)methyl]-N-hydroxybenzamide on Giardia intestinalis trophozoites.

Author

Oliveira, Roberta Veríssimo F., de Souza, Wanderley, Vögerl, Katharina, Bracher, Franz, Benchimol, Marlene, and Gadelha, Ana Paula R.

Subjects

*GIARDIA lamblia, *TROPHOZOITES, *TUBULINS, *ACETYL group, *GIARDIASIS, *CELL division, *ULTRASTRUCTURE (Biology)

Abstract

• Lysine deacetylases inhibitors effects need to be investigated on the parasite. • 4-[(10H-phenothiazine-10-yl)methyl]-N-hydroxybenzamide (KV-46) was used in the study. • KV-46 altered parasite proliferation and viability, promoting cytokinesis arrest. • Ultrastructural changes like autophagy were observed on treated cells. • KV-46 is promising for developing a new drug for giardiasis treatment. Giardiasis is an intestinal disease caused by the parasite protozoan Giardia intestinalis. For more than five decades, the treatment of this disease has been based on compounds such as nitroimidazoles and benzimidazoles. The parasite's adverse effects and therapeutic failure are largely recognized. Therefore, it is necessary to develop new forms of chemotherapy treatment against giardiasis. Lysine deacetylases (KDACs), which remove an acetyl group from lysine residues in histone and non-histone proteins as tubulin, are found in the Giardia genome and can become an interesting option for giardiasis treatment. In the present study, we evaluated the effects of 4-[(10 H -phenothiazin-10-yl)methyl]-N-hydroxybenzamide, a new class I/II KDAC inhibitor, on G. intestinalis growth, cytoskeleton, and ultrastructure organization. This compound decreased parasite proliferation and viability and displayed an IC 50 value of 179 nM. Scanning electron microscopy revealed the presence of protrusions on the cell surface after treatment. In addition, the vacuoles containing concentric membranous lamella and glycogen granules were observed in treated trophozoites. The cell membrane appeared deformed just above these vacuoles. Alterations on the microtubular cytoskeleton of the parasite were not observed after drug exposure. The number of diving cells with incomplete cytokinesis increased after treatment, indicating that the compound can interfere in the late steps of cell division. Our results indicate that 4-[(10 H -phenothiazin-10-yl)methyl]-N-hydroxybenzamide should be explored to develop new therapeutic compounds for treating giardiasis. 4-[(10 H -phenothiazin-10-yl)methyl]-N-hydroxybenzamide, a lysine deacetylases inhibitor, alters G. intestinalis proliferation and viability, induces arrest in the cytokinesis stage, and led to changes on ultrastructure organization. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2022

19. Visualizing the 3D Architecture of Multiple Erythrocytes Infected with Plasmodium at Nanoscale by Focused Ion Beam-Scanning Electron Microscopy.

Author

Medeiros, Lia Carolina Soares, De Souza, Wanderley, Jiao, Chengge, Barrabin, Hector, and Miranda, Kildare

Subjects

*ELECTRON microscopy, *PLASMODIUM, *ERYTHROCYTES, *HEMOGLOBINS, *PARASITES, *CELLS

Abstract

Different methods for three-dimensional visualization of biological structures have been developed and extensively applied by different research groups. In the field of electron microscopy, a new technique that has emerged is the use of a focused ion beam and scanning electron microscopy for 3D reconstruction at nanoscale resolution. The higher extent of volume that can be reconstructed with this instrument represent one of the main benefits of this technique, which can provide statistically relevant 3D morphometrical data. As the life cycle of Plasmodium species is a process that involves several structurally complex developmental stages that are responsible for a series of modifications in the erythrocyte surface and cytoplasm, a high number of features within the parasites and the host cells has to be sampled for the correct interpretation of their 3D organization. Here, we used FIB-SEM to visualize the 3D architecture of multiple erythrocytes infected with Plasmodium chabaudi and analyzed their morphometrical parameters in a 3D space. We analyzed and quantified alterations on the host cells, such as the variety of shapes and sizes of their membrane profiles and parasite internal structures such as a polymorphic organization of hemoglobin-filled tubules. The results show the complex 3D organization of Plasmodium and infected erythrocyte, and demonstrate the contribution of FIB-SEM for the obtainment of statistical data for an accurate interpretation of complex biological structures. [ABSTRACT FROM AUTHOR]

Published

2012

20. Structural evaluation of sugar cane bagasse steam pretreated in the presence of CO2 and SO2.

Author

Cristina Novaes Reis Corrales, Roberta, Magalh�es Teixeira Mendes, Fabiana, Cruz Perrone, Clarissa, Sant�Anna, Celso, de Souza, Wanderley, Abud, Yuri, Pinto da Silva Bon, Elba, and Ferreira-Leit�o, Viridiana

Subjects

SUGARCANE, BAGASSE, STEAM, ELECTRON microscopy, HYDROLYSIS, CRYSTALLINITY, SUGARCANE mills

Abstract

Background: Previous studies on the use of SO2 and CO2 as impregnating agent for sugar cane bagasse steam treatment showed comparative and promising results concerning the cellulose enzymatic hydrolysis and the low formation of the inhibitors furfural and hydroxymethylfurfural for the use of CO2 at 205°C/15 min or SO2 at 190°C/5 min. In the present study sugar cane bagasse materials pretreated as aforementioned were analyzed by scanning and transmission electron microscopy (SEM and TEM), X-Ray Diffraction (XRD) and Infrared (FTIR spectroscopy) aiming a better understanding of the structural and chemical changes undergone by the pretreated materials.Results: SEM and TEM data showed that the structural modifications undergone by the pretreatment with CO2 were less pronounced in comparison to that using SO2, which can be directly related to the combined severity of each pretreatment. According to XRD data, untreated bagasse showed, as expected, a lower crystallinity index (CI = 48.0%) when compared to pretreated samples with SO2 (CI = 65.5%) or CO2 (CI = 56.4%), due to the hemicellulose removal of 68.3% and 40.5%, respectively. FTIR spectroscopy supported SEM, TEM and XRD results, revealing a more extensive action of SO2. Conclusions: The SEM, TEM, XRD and FTIR spectroscopy techniques used in this work contributed to structural and chemical analysis of the untreated and pretreated bagasse. The images from SEM and TEM can be related to the severity of SO2 pretreatment, which is almost twice higher. The crystallinity index values obtained from XRD showed that pretreated materials have higher values when compared with untreated material, due to the partial removal of hemicellulose after pretreatment. FTIR spectroscopy supported SEM, TEM and XRD results. CO2 can actually be used as impregnating agent for steam pretreatment, although the present study confirmed a more extensive action of SO2. [ABSTRACT FROM AUTHOR]

Published

2012

21. Volutin Granules of Eimeria Parasites are Acidic Compartments and Have Physiological and Structural Characteristics Similar to Acidocalcisomes.

Author

SOARES MEDEIROS, LIA CAROLINA, GOMES, FABIO, MACIEL, LUIS RENATO MAIA, SEABRA, SERGIO HENRIQUE, DOCAMPO, ROBERTO, MORENO, SILVIA, PLATTNER, HELMUT, HENTSCHEL, JOACHIM, KAWAZOE, URARA, BARRABIN, HECTOR, DE SOUZA, WANDERLEY, DAMATTA, RENATO AUGUSTO, and MIRANDA, KILDARE

Subjects

VOLUTIN, PARASITES, ANTIPARASITIC agents, TOXOPLASMA, ELECTRON microscopy, EIMERIA, SPECTROPHOTOMETRY, HOMEOSTASIS, POLYPHOSPHATES, METABOLISM

Abstract

ABSTRACT. The structural organization of parasites has been the subject of investigation by many groups and has lead to the identification of structures and metabolic pathways that may represent targets for anti-parasitic drugs. A specific group of organelles named acidocalcisomes has been identified in a number of organisms, including the apicomplexan parasites such as Toxoplasma and Plasmodium, where they have been shown to be involved in cation homeostasis, polyphosphate metabolism, and osmoregulation. Their structural counterparts in the apicomplexan parasite Eimeria have not been fully characterized. In this work, the ultrastructural and chemical properties of acidocalcisomes in Eimeria were characterized. Electron microscopy analysis of Eimeria parasites showed the dense organelles called volutin granules similar to acidocalcisomes. Immunolocalization of the vacuolar proton pyrophosphatase, considered as a marker for acidocalcisomes, showed labeling in vesicles of size and distribution similar to the dense organelles seen by electron microscopy. Spectrophotometric measurements of the kinetics of proton uptake showed a vacuolar proton pyrophosphatase activity. X-ray mapping revealed significant amounts of Na, Mg, P, K, Ca, and Zn in their matrix. The results suggest that volutin granules of Eimeria parasites are acidic, dense organelles, and possess structural and chemical properties analogous to those of other acidocalcisomes, suggesting a similar functional role in these parasites. [ABSTRACT FROM AUTHOR]

Published

2011

22. Encystation process of Giardia lamblia: morphological and regulatory aspects.

Author

Bittencourt-Silvestre, Joana, Lemgruber, Leandro, and de Souza, Wanderley

Subjects

GIARDIA lamblia, PROTOZOA, ELECTRON microscopy, IMMUNOFLUORESCENCE, PROTEIN kinases

Abstract

One important step in the life cycle of the pathogenic protozoan Giardia lamblia is the transformation of the proliferative form, the trophozoite, into the non-proliferative cyst. This process, known as encystation, can be triggered in vitro. Morphological analysis showed that during trophozoite-cyst transformation, major changes take place: modification of the protozoan shape, internalization of the flagella, fragmentation of the adhesive disk, and appearance of encystation vesicles (ESVs), which later on fuse with the plasma membrane forming the cell wall. Sites of attachment of these vesicles to the inner portion of the protozoan plasma membrane were observed 6 h after the beginning of the encystation process. These sites were only visible when we used high-resolution scanning electron microscopy to study Giardia surface. In order to analyze the involvement of protein kinases and phosphatases on the encystation process, inhibitors of these enzymes were added to the culture medium, and their effect on the differentiation process was determined using light, immunofluorescence, and electron microscopy. Significant inhibition was observed with LY294002, an inhibitor of PI3 kinase; genistein, an inhibitor of tyrosine kinase; and staurosporine, at concentrations, which inhibit protein kinase C. Okadaic acid, an inhibitor or protein phosphatase, and wortmannin, an inhibitor of PI3K, did not interfere with the encystation process. However, they induced the appearance of large and pleomorphic forms where several nuclei and disorganization of the peripheral vesicles were observed. [ABSTRACT FROM AUTHOR]

Published

2010

23. Dynamin inhibitor impairs Toxoplasma gondii invasion.

Author

Caldas, Lucio Ayres, Attias, Márcia, and de Souza, Wanderley

Subjects

TOXOPLASMA gondii, TOXOPLASMA, PROTOZOAN diseases, INFECTION, GUANOSINE triphosphatase, PARASITES, ELECTRON microscopy, PROTOZOA, ENDOCYTOSIS, CELLS

Abstract

The protozoan parasite Toxoplasma gondii infects its host cells through an active mechanism. In this work, we obtained evidence that host cells also play a fundamental role during the infection process. We found that previous incubation of the host cells, but not the parasites, with Dynasore, a small molecule that inhibits dynamin GTPase activity, markedly reduced the penetration of T. gondii tachyzoites into LLC-MK2 cells. In contrast, parasite adhesion to the host cell surface increased, as observed both by light and electron microscopy. Intriguingly, the few parasites internalized by Dynasore-treated cells remained in vacuoles located at the periphery of the cell, in contrast to the perinuclear localization seen in the control. [ABSTRACT FROM AUTHOR]

Published

2009

24. Electron microscopy and cytochemistry analysis of the endocytic pathway of pathogenic protozoa.

Author

de Souza, Wanderley, Sant’Anna, Celso, and Cunha-e-Silva, Narcisa L.

Subjects

PATHOGENIC protozoa, ENDOCYTOSIS, ELECTRON microscopy, CYTOCHEMISTRY

Abstract

Abstract: Endocytosis is essential for eukaryotic cell survival and has been well characterized in mammal and yeast cells. Among protozoa it is also important for evading from host immune defenses and to support intense proliferation characteristic of some life cycle stages. Here we focused on the contribution of morphological and cytochemical studies to the understanding of endocytosis in Trichomonas, Giardia, Entamoeba, Plasmodium, and trypanosomatids, mainly Trypanosoma cruzi, and also Trypanosoma brucei and Leishmania. [Copyright &y& Elsevier]

Published

2009

25. Macro, micro and nano domains in the membrane of parasitic protozoa

Author

de Souza, Wanderley

Subjects

*PATHOGENIC protozoa, *CELL membranes, *BIOMOLECULES, *PROTOZOOLOGY

Abstract

Abstract: The structural organization of the plasma membrane of eukaryotic cells is briefly revised taking into consideration the organization of proteins and lipids and the concept of microdomains, lipid rafts and detergent resistant membranes. The biochemical data available concerning the presence of microdomains in parasitic protozoa is reviewed and emphasis is given on the identification of special domains recognized by morphological approaches, especially with the use of the freeze–fracture technique. [Copyright &y& Elsevier]

Published

2007

26. Viability of yeast form cells of Paracoccidioides brasiliensis after sonication.

Author

Gavazzoni Dias, Maria Fernanda Reis, Mesquita, Jacilene, Rodrigues, Noêmia, Filgueira, Absalom Lima, and De Souza, Wanderley

Subjects

YEAST, CELLS, PARACOCCIDIOIDES brasiliensis, PARACOCCIDIOIDOMYCOSIS, DYES & dyeing

Abstract

To perform in-vitro studies with Paracoccidioides brasiliensis yeast cells it is necessary to avoid the presence of clumps of cells while maintaining their integrity. Because of the multiple budding type of growth, the bud cells are always attached to the mother cell and the yeast cells keep growing, resulting in the formation of large clumps. In order to obtain free cells, the cultures are usually sonicated. The present study shows that sonication induces lesions in a significant number of cells, as evaluated by labelling of the cells with acridine orange and Janus green vital dyes. In some cases labelling was initially observed in only one cell of the clump; however, the other cells also became labelled after a few minutes. These observations were confirmed by scanning and transmission electron microscopy of treated cells. Colony forming units (c.f.u.) on BHI plates also confirmed the decrease in cell viability following sonication. [ABSTRACT FROM AUTHOR]

Published

2004

27. Comparison of Fonsecaea pedrosoi sclerotic cells obtained in vivo and in vitro: ultrastructure and antigenicity

Author

da Silva, Jorge P., Alviano, Daniela S., Alviano, Celuta S., de Souza, Wanderley, Travassos, Luiz R., Diniz, José A.P., and Rozental, Sonia

Subjects

MYCOSES, ELECTRON microscopy, ENZYME-linked immunosorbent assay

Abstract

The parasitic form of Fonsecaea pedrosoi from the hyperkeratotic layer of the skin was obtained from four patients with chromoblastomycosis. Primary cultures containing hyphae and conidia were successfully converted into sclerotic cells in the presence of 800 μM propranolol and low pH as described before . The morphology of sclerotic cells of F. pedrosoi obtained in vivo and in vitro was analyzed by light and electron microscopy. Their antigenicity was also compared by immunofluorescence microscopy and ELISA assays, using serum samples from untreated patients infected with F. pedrosoi. Due to the similarity of the sclerotic cells obtained in vivo and in vitro, the latter can be more adequately in studies of host–parasite interactions in chromoblastomycosis. [Copyright &y& Elsevier]

Published

2002

28. A Window to Toxoplasma gondii Egress.

Author

Caldas, Lucio Ayres and de Souza, Wanderley

Subjects

TOXOPLASMA gondii, CELL cycle, HOST-parasite relationships, ELECTRON microscopy, BIOCOMPLEXITY

Abstract

The Toxoplasma gondii cellular cycle has been widely studied in many lifecycle stages; however, the egress event still is poorly understood even though different types of molecules were shown to be involved. Assuming that there is no purpose or intentionality in biological phenomena, there is no such question as "Why does the parasite leaves the host cell", but "Under what conditions and how?". In this review we aimed to summarize current knowledge concerning T. gondii egress physiology (signalling pathways), structures, and route. [ABSTRACT FROM AUTHOR]

Published

2018

29. New morphological observations on the initial events of Toxoplasma gondii entry into host cells.

Author

de Souza Teles, Everson Reili, de Araujo Portes, Juliana, and de Souza, Wanderley

Subjects

*TOXOPLASMA gondii, *SIGNAL recognition particle receptor, *PLASMA cells, *LOW temperatures, *NANOTUBES, *EXTRACELLULAR vesicles

Abstract

Toxoplasma gondii is an obligate intracellular protozoan of worldwide distribution. It is effective in the infection of various homoeothermic animals of economic importance. The process of T. gondii invasion of host cells occurs in less than 20 s by the active mechanism of penetration. First, a mobile junction is formed due to the association between the apical end of the parasite and the host cell surface. Then, the secretion of invasive and docking proteins allows the formation of the mobile junction before the complete internalization of the parasite. Here, using high-resolution microscopy, it was described new morphological observations of the early events of host cell invasion by tachyzoites of T. gondii. Attempts were made to synchronize the interaction process using low temperatures and treatment of the host cells with cytochalasin D, a drug that interferes with the actin dynamics. Images were obtained showing that the parasite and the host cells seem to release small vesicles with diameters varying from 25 to 100 nm. Furthermore, tunneling nanotubes emerge from the host cell surface and interact with the parasite even at long distance. These observations add new details of adhesion and entry events, such as surface projections of the host cell plasma membrane, pseudopods, and nanotubes radiating from the host cell toward the parasite. In addition, scanning microscopy revealed intense vesiculation, with a morphological characteristic of extracellular microvesicles, during the entry of the tachyzoite into the host cell. • Synchronization of Toxoplasma gondii entry contributed to new details identification. • High-resolution microscopy. • Nanotubes and pseudopods were observed in the region of parasite's entry. • Intense vesiculation observed in the region of parasite's entry into the host cell. • Both the parasite and the host cell appear to contribute to the entry process. [ABSTRACT FROM AUTHOR]

Published

2023

30. A structural analysis of the natural egress of Toxoplasma gondii.

Author

Caldas, Lúcio Ayres, Attias, Marcia, and de Souza, Wanderley

Subjects

*TOXOPLASMA gondii, *CALCIUM, *IONOPHORES, *ELECTRON microscopy, *PARASITES

Abstract

Previous studies have analysed the process of Toxoplasma gondii egress with the aid of inducers, such as calcium ionophores. Although calcium transients have been successful in triggering T. gondii egress, the structural panorama of “natural” and artificial events should match. The present study approaches the natural egress of this parasite using super-resolution and electron microscopy and reveals lytic and non-lytic events of individual egress; this corroborates the use of calcium ionophore as a reliable tool to trigger parasite egress. Altogether, our data suggest that different signalling routes can converge to similar structural aspects in natural and induced egress. [ABSTRACT FROM AUTHOR]

Published

2018

31. Effects of cardanol-based phospholipid analogs on Trichomonas vaginalis.

Author

de Souza, Tatiana Guinancio, de Lucena Costa, Brenda, Holanda, Cleonice Andrade, Soares Romeiro, Luiz Antonio, de Souza, Wanderley, and Benchimol, Marlene

Subjects

*EPITHELIAL cell culture, *TRICHOMONAS vaginalis, *TRANSMISSION electron microscopy, *TRICHOMONIASIS, *SCANNING electron microscopy

Abstract

Trichomonas vaginalis is a protist parasite of the urogenital tract, responsible for human trichomoniasis, an infection sexually transmitted that affects approximately 156 million people worldwide. This pathology is more evident in females and can cause miscarriages, premature births, and infertility. The disease can also lead to a greater predisposition to HIV infection and cervical and prostate cancer. Metronidazole (MTZ) is a drug that treats human trichomoniasis. The data from studies involving human subjects are limited regarding MTZ use during pregnancy. In addition to the toxicity of the treatment, some isolates have become resistant to MTZ. Therefore, searching for new compounds active for treating trichomoniasis becomes necessary. In the present study, we report results obtained using new phospholipid analogs. Two cardanol-based compounds designated LDT117 and LDT134 were active against T. vaginalis with an IC 50 of 4.58 and 10.24 μM, respectively. These compounds were not toxic to epithelial cells in culture. Scanning electron microscopy observations revealed a rounding of the cells, a shortening of the flagella, and protrusions on the surface of drug-treated cells. Transmission electron microscopy of treated cells revealed alterations in the plasma membrane with formations of blebs, protrusions, depressions, and vacuoles with myelin figures and vacuolization in the cytoplasm after incubation. Furthermore, after treatments with the compounds LDT117 and LDT134, the parasites presented a positive reaction for TUNEL, indicating death by a mechanism like apoptosis. Given the results obtained, further in vivo studies using animal experimental models are necessary to validate that these compounds are effective for treating human trichomoniasis. [Display omitted] • Cardanol-based phospholipid analogs have activity against Trichomonas vaginalis in vitro. • Two cardanol-based compounds designated LDT117 and LDT134 were active against T. vaginalis. • Microscopy analysis showed morphological changes in the protozoan. • These compounds were not toxic to epithelial cells in culture. • The parasites presented a positive reaction for TUNEL, indicating death by a mechanism like apoptosis. [ABSTRACT FROM AUTHOR]

Published

2024

32. Assembly of the Leishmania amazonensis flagellum during cell differentiation.

Author

Gadelha, Ana Paula Rocha, Cunha-e-Silva, Narcisa Leal, and de Souza, Wanderley

Subjects

*LEISHMANIA, *FLAGELLA (Microbiology), *CELL differentiation, *CYTOSKELETON, *AXONEMES, *ELECTRON microscopy, *PHYSIOLOGY

Abstract

Abstract: The flagellar cytoskeleton of Leishmania promastigotes contains the canonical 9+2 microtubular axoneme and a filamentous structure, the paraflagellar rod (PFR), which is present alongside the axoneme. In contrast to promastigotes, which contain a long and motile flagellum, the amastigote form of Leishmania displays a short flagellum without a PFR that is limited to the flagellar pocket domain. Here, we investigated the biogenesis of the Leishmania flagellum at 0, 4, 6 and 24h of differentiation. Light and electron microscopy observations of the early stages of L. amazonensis differentiation showed that the intermediate forms presented a short and wider flagellum that did not contain a PFR and presented reduced motion. 3D-reconstruction analysis of electron tomograms revealed the presence of vesicles and electron-dense aggregates at the tip of the short flagellum. In the course of differentiation, cells were able to adhere and proliferate with a doubling time of about 6h. The new flagellum emerged from the flagellar pocket around 4h after initiation of cell cycle. Close contact between the flagellar membrane and the flagellar pocket membrane was evident in the intermediate forms. At a later stage of differentiation, intermediate cells exhibited a longer flagellum (shorter than in promastigotes) that contained a PFR and electron dense aggregates in the flagellar matrix. In some cells, PFR profiles were observed inside the flagellar pocket. Taken together, these data contribute to the understanding of flagellum biogenesis and organisation during L. amazonensis differentiation. [Copyright &y& Elsevier]

Published

2013

33. Ultrastructural and cytochemical characterization of T1 and T2 secretory bodies from the tegument of Echinostoma paraensei.

Author

Gonçalves, Júlia P., Oliveira-Menezes, Aleksandra, JuniorMaldonado, Arnaldo, Carvalho, Técia M.U., and de Souza, Wanderley

Subjects

*TREMATODA, *ELECTRON microscopy, *CYTOCHEMISTRY, *GLYCOCONJUGATES, *CARBOHYDRATES

Abstract

Trematodes are lined by a syncytial layer that is named the tegument and contains small mitochondria and two different kinds of secretory inclusions. The structure and size of these bodies differs among genera and species. In a previous study, we observed many secretory bodies in the tegument of Echinostoma paraensei and named these bodies the T1 and T2 secretory bodies. No previous studies analyzed the secretory bodies of trematodes from the genus Echinostoma . Thus, the aim of this work was to use electron microscopy and cytochemistry to characterize these secretory bodies and to provide a detailed ultrastructural and morphological picture of these bodies, which are found in the tegument of E. paraensei . After ultrastructural cytochemistry analysis, we showed that both the T1 and T2 secretory bodies of E. paraensei were formed by glycoconjugates. 3D reconstruction confirmed the ovoid form of T1 secretory bodies and the biconcave and thin form of T2 secretory bodies. [ABSTRACT FROM AUTHOR]

Published

2016

34. Cryptococcus neoformans capsular polysaccharides form branched and complex filamentous networks viewed by high-resolution microscopy.

Author

de S. Araújo, Glauber R., Fontes, Giselle N., Leão, Daniela, Rocha, Gustavo Miranda, Pontes, Bruno, Sant’Anna, Celso, de Souza, Wanderley, and Frases, Susana

Subjects

*CRYPTOCOCCUS neoformans, *POLYSACCHARIDES, *FILAMENTOUS fungi, *FUNGAL virulence, *FUNGAL cell walls, *IMMUNOCOMPROMISED patients, *SCANNING electron microscopy

Abstract

Cryptococcus neoformans is a fungal pathogen that causes life-threatening infections in immunocompromised individuals. Its main virulence factor is an extracellular polysaccharide capsule whose structure, assembly and dynamics remain poorly understood. In this study, we apply improved protocols for sample preparation and recently-developed scanning microscopy techniques to visualize the ultrastructure of the C. neoformans capsule at high-resolution (up to 1 nm) and improved structural preservation. Although most capsule structures in nature consist of linear polymers, we show here that the C. neoformans capsule is a ‘microgel-like’ structure composed of branched polysaccharides. Moreover, we imaged the capsule-to-cell wall link, which is formed by thin fibers that branch out of thicker capsule filaments, and have one end firmly embedded in the cell wall structure. Together, our findings provide compelling ultrastructural evidence for a branched and complex capsule conformation, which may have important implications for the biological activity of the capsule as a virulence factor. [ABSTRACT FROM AUTHOR]

Published

2016

35. Effect of thiazolidine LPSF SF29 on the growth and morphology of Trypanosoma cruzi

Author

de B. Moreira, Thiago Luiz, Barbosa, Artur F.S., Veiga-Santos, Phercyles, Henriques, Cristina, Henriques-Pons, Andrea, Galdino, Suely L., de Lima, Maria do Carmo A., Pitta, Ivan da R., de Souza, Wanderley, and de Carvalho, Tecia Maria U.

Subjects

*CHAGAS' disease treatment, *THIAZOLIDINEDIONES, *TRYPANOSOMA cruzi, *PROTOZOAN disease treatment, *MORPHOLOGY, *AMASTIGOTES, *MITOCHONDRIAL pathology, *AUTOPHAGY

Abstract

Abstract: Chagas disease, caused by the protozoan Trypanosoma cruzi, is an endemic illness in Latin America. Efforts have been made by several groups to develop new effective and safe anti-T. cruzi drugs. In the present work, we show that thiazolidine LPSF SF29 inhibited growth of the epimastigote and amastigote forms and caused lysis in the trypomastigote form of T. cruzi, leading to death of the protozoan. Mitochondrial dysfunction was also observed. The thiazolidine induced ultrastructural alterations such as detachment of the flagellar membrane, intense mitochondrial swelling, formation of myelin-like figures and the appearance of autophagosomes. Taken together, these results suggest that this new thiazolidine is active against T. cruzi and constitutes a promising drug for the therapy of Chagas disease. [Copyright &y& Elsevier]

Published

2013

36. Structural evaluation of sugar cane bagasse steam pretreated in the presence of CO2 and SO2.

Author

Cristina Novaes Reis Corrales, Roberta, Magalh�es Teixeira Mendes, Fabiana, Cruz Perrone, Clarissa, Sant�Anna, Celso, de Souza, Wanderley, Abud, Yuri, Pinto da Silva Bon, Elba, and Ferreira-Leit�o, Viridiana

Subjects

*SUGARCANE, *BAGASSE, *STEAM, *ELECTRON microscopy, *HYDROLYSIS, *CRYSTALLINITY, *SUGARCANE mills

Abstract

Background: Previous studies on the use of SO2 and CO2 as impregnating agent for sugar cane bagasse steam treatment showed comparative and promising results concerning the cellulose enzymatic hydrolysis and the low formation of the inhibitors furfural and hydroxymethylfurfural for the use of CO2 at 205°C/15 min or SO2 at 190°C/5 min. In the present study sugar cane bagasse materials pretreated as aforementioned were analyzed by scanning and transmission electron microscopy (SEM and TEM), X-Ray Diffraction (XRD) and Infrared (FTIR spectroscopy) aiming a better understanding of the structural and chemical changes undergone by the pretreated materials.Results: SEM and TEM data showed that the structural modifications undergone by the pretreatment with CO2 were less pronounced in comparison to that using SO2, which can be directly related to the combined severity of each pretreatment. According to XRD data, untreated bagasse showed, as expected, a lower crystallinity index (CI = 48.0%) when compared to pretreated samples with SO2 (CI = 65.5%) or CO2 (CI = 56.4%), due to the hemicellulose removal of 68.3% and 40.5%, respectively. FTIR spectroscopy supported SEM, TEM and XRD results, revealing a more extensive action of SO2. Conclusions: The SEM, TEM, XRD and FTIR spectroscopy techniques used in this work contributed to structural and chemical analysis of the untreated and pretreated bagasse. The images from SEM and TEM can be related to the severity of SO2 pretreatment, which is almost twice higher. The crystallinity index values obtained from XRD showed that pretreated materials have higher values when compared with untreated material, due to the partial removal of hemicellulose after pretreatment. FTIR spectroscopy supported SEM, TEM and XRD results. CO2 can actually be used as impregnating agent for steam pretreatment, although the present study confirmed a more extensive action of SO2. [ABSTRACT FROM AUTHOR]

Published

2012

37. Evaluation of three novel azasterols against Toxoplasma gondii

Author

Martins-Duarte, Érica S., Lemgruber, Leandro, Lorente, Silvia Orenes, Gros, Ludovic, Magaraci, Filippo, Gilbert, Ian H., de Souza, Wanderley, and Vommaro, Rossiane C.

Subjects

*TOXOPLASMA gondii, *ULTRASTRUCTURE (Biology), *DRUG therapy, *TOXOPLASMOSIS treatment, *STEROLS, *ELECTRON microscopy, *THERAPEUTICS

Abstract

Abstract: Previous studies from our group have demonstrated the high susceptibility of Toxoplasma gondii tachyzoites to the sterol analogues 22,26-azasterol and 24,25-(R,S)-epiminolanosterol. In this work we present data on testing in vitro three novel azasterols as potential agents for the treatment of toxoplasmosis. The three compounds inhibited parasite growth at micromolar concentrations, in a dose-dependent manner. Electron microscopy analysis of intracellular tachyzoites after treatment with the most effective compound showed drastic mitochondrion swelling associated with the appearance of an electron-lucent matrix and disrupted cristae. Parasite lysis also took place. The appearance of electron dense cytoplasmic structures similar to amylopectin granules distributed throughout the parasite suggests that azasterols might be inducing differentiation of those tachyzoites which were not lysed to the bradyzoite stage. [Copyright &y& Elsevier]

Published

2011

38. Leishmania (Leishmania) chagasi interactions with Serratia marcescens: Ultrastructural studies, lysis and carbohydrate effects

Author

Moraes, Caroline S., Seabra, Sergio H., Castro, Daniele P., Brazil, Reginaldo P., de Souza, Wanderley, Garcia, Eloi S., and Azambuja, Patrícia

Subjects

*LEISHMANIA, *SERRATIA marcescens, *ELECTRON microscopy, *FUNGUS-bacterium relationships

Abstract

Abstract: Studies on the lysis of L. chagasi caused by the bacteria Serratia marcescens were carried out. In vitro experiments demonstrated that S. marcescens variant SM 365, a prodigiosin pigment producer, lysed this species of Leishmania but variant DB11, a nonpigmented bacteria, was unable to lyse the parasite. High concentrations of d-mannose were found to protect L. chagasi markedly diminishing the lysis by S. marcescens SM 365. Promastigotes of L. chagasi bound the lectin Concanavalin A conjugated with FITC, the fluorescence was intensely found at the base of the flagellum (flagellar pocket). Scanning electron microscopy revealed that the bacteria adherence occurred mainly in the flagellar pocket. S. marcescens SM 365 formed filamentous structures, identified as biofilms, which connect the protozoan to the developing bacterial clusters, in low concentrations of bacteria after 30min incubation time. We suggest that bacterial mannose-sensitive (MS) fimbriae are relevant to S. marcescens SM 365 in the lysis of L. chagasi. [Copyright &y& Elsevier]

Published

2008

39. Kinetics of pyrophosphate-driven proton uptake by acidocalcisomes of Leptomonas wallacei

Author

Moraes Moreira, Bernardo Luiz, Soares Medeiros, Lia Carolina A., Miranda, Kildare, de Souza, Wanderley, Hentschel, Joachim, Plattner, Helmut, and Barrabin, Hector

Subjects

*PYROPHOSPHATES, *ELECTRON microscopy, *TRYPANOSOMA, *IMMUNOGLOBULINS

Abstract

Abstract: In this work, we show the kinetics of pyrophosphate-driven H+ uptake by acidocalcisomes in digitonin-permeabilized promastigotes of Leptomonas wallacei. The vacuolar proton pyrophosphatase activity was optimal in the pH range of 7.5–8.0, was inhibited by imidiodiphosphate, and was completely dependent on K+ and PPi. H+ was released with the addition of Ca2+, suggesting the presence of a Ca2+/H+ antiport. In addition, X-ray elemental mapping associated with energy-filtering transmission electron microscopy showed that most of the Ca, Na, Mg, P, K, Fe, and Zn were located in acidocalcisomes. L. wallacei immunolabeled with antibodies against Trypanosoma cruzi pyrophosphatase show intense fluorescence in cytoplasmatic organelles of size and distribution similar to the acidocalcisomes. Altogether, the results show that L. wallacei acidocalcisomes possess a H+-pyrophosphatase with characteristics of type I V-H+-PPase. However, we did not find any evidence, either for the presence of H+-ATPases or for Na+/H+ exchangers in these acidocalcisomes. [Copyright &y& Elsevier]

Published

2005

40. Bacteroides fragilis interferes with iNOS activity and leads to pore formation in macrophage surface

Author

Vieira, Jessica Manya B.D., Vallim, Deyse C., Ferreira, Eliane O., Seabra, Sergio H., Vommaro, Rossiane C., Avelar, Kátia E.S., De Souza, Wanderley, Ferreira, Maria Cândida S., and Domingues, Regina M.C.P.

Subjects

*BACTEROIDES, *ELECTRON microscopy, *MACROPHAGES, *SCANNING electron microscopy

Abstract

Abstract: Bacteroides fragilis is the anaerobe most commonly recoverable from clinical specimens. The wide genetic diversity of this bacterium related with virulence potential is still an open question. In this study, we analyzed the morphological aspects and microbicide action of MØ during interactions with B. fragilis. A filamentous cytoplasm content release and a different actin organization colocalized with iNOS were detected. It was also possible to observe the reduction of NO production in the same conditions. The scanning electron microscopy showed the formation of pore-like structures in the surface of macrophages in the bacterial presence and by transmission electron microscopy we could observe the extrusion of cytoplasm contents as well as the condensation of chromatin in the nucleus periphery. These data suggest the existence of an inhibitory mechanism developed by B. fragilis strains for one of the macrophage microbicide actions. [Copyright &y& Elsevier]

Published

2005

41. Visualization of the funis of Giardia lamblia by high-resolution field emission scanning electron microscopy—new insights

Author

Benchimol, Marlene, Piva, Bruno, Campanati, Loraine, and de Souza, Wanderley

Subjects

*GIARDIA lamblia, *CELL motility, *MICROTUBULES, *ELECTRON microscopy

Abstract

Giardia lamblia is a multiflagellar parasite and one of the earliest diverging eukaryotic cells. It possesses a cytoskeleton made of several microtubular structures—an adhesive disc, four pairs of flagella, median body, and funis. This protozoan displays different types of movements, including a lateral and dorso-ventral dislocation of its posterior region, which has not been completely elucidated. In the present study, high-resolution field emission scanning electron microscopy was used to analyze the funis structure of G. lamblia trophozoites. It was shown that the funis is made of short arrays of microtubules emanating from the axonemes of the caudal flagella, which are anchored to dense rods that run parallel to the posterior-lateral flagella. After emergence of the posterior-lateral flagella, funis microtubules are anchored to the epiplasm, a fibrous layer that underlies the portion of membrane that presents tail contractility. Based on these observations a model for the tail flexion of G. lamblia is proposed. [Copyright &y& Elsevier]

Published

2004

42. In vitro activities of adamantylidene-substituted alkylphosphocholine TCAN26 against Trypanosoma cruzi: Antiproliferative and ultrastructural effects.

Author

Barrias, Emile, Reignault, Lissa Catherine, Calogeropoulou, Theodora, and de Souza, Wanderley

Subjects

*CHAGAS' disease, *TRYPANOSOMA cruzi, *GOLGI apparatus, *AMASTIGOTES, *ELECTRON microscopy, *MITOCHONDRIAL membranes

Abstract

Phospholipids are the main component of membranes and are responsible for cell integrity. Alkylphospholipid analogues (APs) were first designed as antitumoral agents and were later tested against different cell types. Trypanosoma cruzi , the Chagas disease etiological agent, is sensitive to APs (edelfosine, miltefosine and ilmofosine) in vitro. We investigated the effect of synthetic ring substituted AP against epimastigotes, amastigotes and trypomastigotes. TCAN26, could inhibit the in vitro growth of epimastigotes and amastigotes with the 50% inhibitory concentrations (IC50) in the nanomolar range. Trypomastigotes lysis was also induced with 24-h treatment and a LC50 of 2.3 μM. Ultrastructural analysis by electron microscopy demonstrated that TCAN26 mainly affected the parasite's membranes leading to mitochondrial and Golgi cisternae swelling, membrane blebs, and autophagic figures in the different parasite developmental stages. While the Golgi of the parasites was significantly affected, the Golgi complex of the host cells remained normal suggesting a specific mechanism of action. In summary, our results suggest that TCAN 26 is a potent and selective inhibitor of T. cruzi growth probably due to disturbances of phospholipid biosynthesis. Image 1069750 • Chagas' disease, caused by Trypanosoma cruzi , is one of the world's 13 neglected tropical diseases. • Efficacy of convencional treatment during the chronic phase is controversial with poor indices of parasitological cure. • Alylphospholipids are immunomodulators and antimetabolites of phospholipid metabolism. • TCAN26 appears to be highly effective against T. cruzi infective forms in vitro. [ABSTRACT FROM AUTHOR]

Published

2019