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Human amoebiasis still represents a major health problem worldwide. Metronidazole has been used as the most common drug to treat the disease; however, it is also known that the drug causes undesirable side effects. This has led to the search for new pharmacological alternatives which include phytochemical compounds with antiamoebic effects. We analyzed the amoebicidal activity of stevioside (STV), a diterpene glycoside present in Stevia rebaudiana, on trophozoites of E. histolytica. Different concentrations of STV were tested, and an inhibitory concentration of 50% of cell viability (IC50) was determined with an exposition of 9.53 mM for 24 h. Trophozoites exposed to STV showed morphological changes evidenced by the decrease in the basic structures related to the movement and adherence to the substrate, as well as ultrastructural features characterized by a loss of regularity on the cell membrane, an increase in cytoplasmic granularity, and an increase in apparent autophagic vacuoles. Also, the decrease in cysteine protease expression and the proteolytic activity of trophozoites to degrade the cell monolayer were analyzed. A histological analysis of hamster livers inoculated with trophozoites and treated with STV showed changes related to the granulomatous reaction of the liver parenchymal tissue. Our results constitute the first report related to the possible use of STV as a therapeutic alternative in amoebiasis.

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BACKGROUND Giant viruses have brought new insights into different aspects of virus-cell interactions. The resulting cytopathic effects from these interactions are one of the main aspects of infection assessment in a laboratory routine, mainly reflecting on the morphological features of an infected cell. OBJECTIVES In this work, we follow the entire kinetics of the cytopathic effect in cells infected by viruses of the Mimiviridae family, spatiotemporally quantifying typical features such as cell roundness, loss of motility, decrease in cell area and cell lysis. METHODS Infections by Acanthamoeba polyphaga mimivirus (APMV), Tupanvirus (TPV) and M4 were carried out at multiplicity of infection (MOI) 1 and MOI 10 in Acanthamoeba castellanii. Monitoring of infections was carried out using time lapse microscopy for up to 72 hours. The images were analyzed using ImageJ software. FINDINGS The data obtained indicate that APMV is the slowest virus in inducing the cytopathic effects of rounding, decrease in cell area, mobility and cell lysis. However, it is the only virus whose MOI increase accelerates the lysis process of infected cells. In turn, TPV and M4 rapidly induce morphological and behavioral changes. MAIN CONCLUSIONS Our results indicate that mimiviruses induce different temporal responses within the host cell and that it is possible to use these kinetic data to facilitate the understanding of infection by these viruses.

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The cytopathic effect comprises the set of cellular alterations produced by a viral infection. It is of great relevance since it constitutes a direct marker of infection. Likewise, these alterations are often virus-specific which makes them a phenotypic marker for many viral species. All these characteristics have been used to complement the study of the dynamics of virus-cell interactions through the kinetic study of the progression of damage produced by the infection. Various approaches have been used to monitor the cytopathic effect, ranging from light microscopy, immunofluorescence assays, and direct labeling with fluorescent dyes, to plaque assay for the characterization of the infection over time. Here we address the relevance of the study of cytopathic effect and describe different experimental alternatives for its application.

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BACKGROUND: Dengue virus (DENV) is a Flaviviridae member classified into four antigenically distinct serotypes (DENV 1, 2, 3, and 4) and further subdivided genotypes. DENV3 is subdivided into four or five genotypes, depending on the classification adopted. Despite their high genetic proximity, as revealed by phylogenetic complete polyprotein analysis, DENV3 MG-20 and DENV3 PV_BR showed different neurovirulence in mice models. Our group identified six amino acid mutations in protein E, including the E62K and E123Q, which may affect interactions of hydrophobic clusters on domain II, thus leading to the observed differences in the studied viruses. METHODS: Human glioblastoma cells (U251) derived from a malignant glioblastoma tumor by explant technique were infected by the DENV3 GIL1 isolates DENV3 MG-20 and DENV3 PV_BR and analyzed by plaque assays and titration, optical, immunofluorescence, and transmission electronic microscopy. RESULTS: The two isolates showed different cytopathic effects (CPE) and fusogenic patterns, further confirmed by indirect immunofluorescence. Transmission electron microscopy revealed intense cytopathic effects in DENV3 MG-20 infected U251 cells, displaying endoplasmic reticulum hypertrophy and turgid vesicles with proteins and multiple viruses, distinct from DENV3 PV_BR infected cells. It is hypothesized that the different amino acids in the DENV3 MG-20 isolate are related to an increased membrane fusion ability in viral infection, thus facilitating immune system evasion and increased chances of central nervous system cell infection. CONCLUSION: These results emphasize the biological differences between the isolates, which could be a critical factor in host-virus interaction and severe dengue development. Our study presents comparative results of highly similar isolates with the potential to generate more subsidies for a deeper understanding of the DENV pathogenesis. The neurotropism of the isolate DENV3 MG-20 (belonging to the DENV3 GI L1 genotype) showing infection of nervous system cells (U251) could contribute to understanding neurological dengue disease.

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Acanthamoeba castellanii genotype T4 is a clinically significant free-living amoeba that causes granulomatous amoebic encephalitis and amoebic keratitis in human beings. During the initial stages of infection, trophozoites interact with various host immune responses, such as lactoferrin (Lf), in the corneal epithelium, nasal mucosa, and blood. Lf plays an important role in the elimination of pathogenic microorganisms, and evasion of the innate immune response is crucial in the colonization process. In this study, we describe the resistance of A. castellanii to the microbicidal effect of bovine apo-lactoferrin (apo-bLf) at different concentrations (25, 50, 100, and 500 µM). Acanthamoeba castellanii trophozoites incubated with apo-bLf at 500 µM for 12 h maintained 98% viability. Interestingly, despite this lack of effect on viability, our results showed that the apo-bLf inhibited the cytopathic effect of A. castellanii in MDCK cells culture, and analysis of amoebic proteases by zymography showed significant inhibition of cysteine and serine proteases by interaction with the apo-bLf. From these results, we conclude that bovine apo-Lf influences the activity of A. castellanii secretion proteases, which in turn decreases amoebic cytopathic activity.

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This article describes a practical method for prospecting and isolating giant viruses based on direct inoculation of environmental samples into amoeba cultures of Acanthamoeba castellanii. The giant viruses that infect amoebas have already been isolated from various environmental samples in several countries worldwide, including in extreme environments. Here we describe the methodologic procedures regarding the prospecting of giant viruses in A. castellanii, including the preparation of environmental samples, the culture of amoebas, and the observation of cytopathic effects that can indicate the presence and potential isolation of giant viruses. © 2022 Wiley Periodicals LLC. Basic Protocol 1: Sample collection Support Protocol: Propagation of Acanthamoeba castellanii Basic Protocol 2: Prospecting of giant viruses in environmental samples by cytopathic effect analysis.

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Human Cytomegalovirus (HCMV) is a frequent opportunistic pathogen in immunosuppressed patients, which can be involved in kidney allograft dysfunction and rejection. In order to study the pathophysiology of HCMV renal diseases, we concentrated on the impact of HCMV infection on human renal tubular epithelial HK-2 cells. Our aim was to develop a model of infection of HK-2 cells by using the viral strain TB40/E, that contains the extended cell tropism of clinical isolates and the efficient viral multiplication in cell culture of laboratory-adapted strains. We observed that HK-2 cells can be infected by HCMV and expressed viral antigens, but they do not produce extracellular viral particles. We then studied the interplay of HCMV with ciliogenesis and autophagy. Primary cilium (PC) is a stress sensor important to maintain renal tissue homeostasis that projects from the apical side into the lumen of tubule cells. PC formation and length were not modified by HCMV infection. Autophagy, another stress response process critically required for normal kidney functions, was inhibited by HCMV in HK-2 cells with a reduction in the autophagic flux. HCMV classically induces an enlargement of infected cells in vivo and in vitro, and we observed that HCMV infection led to an enlargement of the HK-2 cell volume. Our results constitute therefore an excellent starting point to further explore the role of these mechanisms in renal cells dysfunction.

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Acanthamoeba is a genus of free-living amoebae widely distributed in nature, associated with the development of encephalitis and keratitis. Despite the fact that it is common to find genotype T5 in environmental samples, only a few cases have been associated with clinical cases in humans. The wide distribution of Acanthamoeba, the characteristic of being amphizoic and the severity of the disease motivate researchers to focus on the isolation of these organisms, but also in demonstrating direct and indirect factors that could indicate a possible pathogenic potential. Here, we performed the characterization of the pathogenic potential of an Acanthamoeba T5 isolate collected from a water source in a hospital. Osmo- and thermotolerance, the secretion of proteases and the effect of trophozoites over cell monolayers were analyzed by different methodologies. Additionally, we confirm the secretion of extracellular vesicles (EVs) of this isolate incubated at two different temperatures, and the presence of serine and cysteine proteases in these vesicles. Finally, using atomic force microscopy, we determined some nanomechanical properties of the secreted vesicles and found a higher value of adhesion in the EVs obtained at 37 °C, which could have implications in the parasite´s survival and damaging potential in two different biological environments.

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Acanthamoeba spp. are free-living amoebae with a worldwide distribution. These amoebae can cause granulomatous amoebic encephalitis and amoebic keratitis in humans. Proteases are considered virulence factors in pathogenic Acanthamoeba. The objective of this study was to evaluate the behavior of Acanthamoeba mauritaniensis, a nonpathogenic amoeba. We analyzed the cytopathic effect of A. mauritaniensis on RCE1(5 T5) and MDCK cells and compared it to that of Acanthamoeba castellanii. A partial biochemical characterization of proteases was performed in total crude extracts (TCE) and conditioned medium (CM). Finally, we evaluated the effect of proteases on tight junction (TJ) proteins and the transepithelial electrical resistance of MDCK cells. The results showed that this amoeba can induce substantial damage to RCE1(5T5) and MDCK cells. Moreover, the zymograms and Azocoll assays of amoebic TCE and CM revealed different protease activities, with serine proteases being the most active. Furthermore, A. mauritaniensis induced the alteration and degradation of MDCK cell TJ proteins with serine proteases. After genotyping this amoeba, we determined that it is an isolate of Acanthamoeba genotype T4D. From these data, we suggest that A. mauritaniensis genotype T4D behaves similarly to the A. castellanii strain.

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Plaque assay has been used for a long time to determine infectious titers and characterize prokaryotic and eukaryotic viruses forming plaques. Indeed, plaque morphology and dimensions can provide information regarding the replication kinetics and the virulence of a particular virus. In this work, we present ViralPlaque, a fast, open-source and versatile ImageJ macro for the automated determination of viral plaque dimensions from digital images. Also, a machine learning plugin is integrated in the analysis algorithm for adaptation of ViralPlaque to the user's needs and experimental conditions. A high correlation between manual and automated measurements of plaque dimensions was demonstrated. This macro will facilitate reliable and reproducible characterization of cytolytic viruses with an increased processing speed.

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Entamoeba histolytica is an anaerobic parasitic protozoan and the causative agent of amoebiasis. E. histolytica expresses proteins that are structurally homologous to human proteins and uses them as virulence factors. We have previously shown that E. histolytica binds exogenous interferon gamma (IFN-γ) on its surface, and in this study, we explored whether exogenous IFN-γ could modulate parasite virulence. We identified an IFN-γ receptor-like protein on the surface of E. histolytica trophozoites by using anti-IFN-γ receptor 1 (IFN-γR1) antibody and performing immunofluorescence, Western blot, protein sequencing, and in silico analyses. Coupling of human IFN-γ to the IFN-γ receptor-like protein on live E. histolytica trophozoites significantly upregulated the expression of E. histolytica cysteine protease A1 (EhCP-A1), EhCP-A2, EhCP-A4, EhCP-A5, amebapore A (APA), cyclooxygenase 1 (Cox-1), Gal-lectin (Hgl), and peroxiredoxin (Prx) in a time-dependent fashion. IFN-γ signaling via the IFN-γ receptor-like protein enhanced E. histolytica's erythrophagocytosis of human red blood cells, which was abrogated by the STAT1 inhibitor fludarabine. Exogenous IFN-γ enhanced chemotaxis of E. histolytica, its killing of Caco-2 colonic and Hep G2 liver cells, and amebic liver abscess formation in hamsters. These results demonstrate that E. histolytica expresses a surface IFN-γ receptor-like protein that is functional and may play a role in disease pathogenesis and/or immune evasion.

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Free-living amoeba of the genus Acanthamoeba can eventually act as parasites, causing infections in humans. Some physiological characteristics of Acanthamoeba have been related to the grade of pathogenicity, allowing inferences about the pathogenic potential. The main goal of this study was to characterize isolates of Acanthamoeba obtained in Brazil and evaluate properties associated with their pathogenicity. A total of 39 isolates obtained from keratitis cases (n = 16) and environmental sources (n = 23) were classified into morphological groups and genotyped by sequencing the 18S rDNA fragments ASA.S1 and GTSA.B1. Samples were also tested regarding their thermo-tolerance, osmo-tolerance, and cytopathogenicity in MDCK cells. Isolates were identified and classified as follows: group I (T17, T18); group II (T1, T3, T4, T11); and group III (T5, T15), with the predominance of genotype T4 (22/39). Clinical isolates were genotyped as T3 (1/16), T4 (14/16) and T5 (1/16). The majority of isolates (38/39) were able to grow at 37 °C, but tolerance to 40 °C was more frequent among environmental samples. The tolerance to 1 M mannitol was infrequent (4/39), with three of these corresponding to clinical samples. The variable ability to cause cytopathic effects was observed among isolates of distinct genotypes and origins. This study identified, for the first time, T1 and T18 in Brazil. It also indicated a weak association between the clinical origin of the isolates and tolerance to high temperatures, high osmolarity, and cytopathogenicity, demonstrating that some in vitro parameters do not necessarily reflect a higher propensity of Acanthamoeba to cause a disease.

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INTRODUCCIÓN: el virus del dengue es responsable de un creciente problema de salud pública, sin que se haya dilucidado aún el papel de algunos atributos biológicos en la virulencia y(o) patogenicidad de los serotipos virales. OBJETIVO: evaluar propiedades biológicas in vitro e in vivo de 4 cepas venezolanas de DENV2 (LAR1693, LAR19094, LAR2303, INH35262) causantes de fiebre de dengue y fiebre hemorrágica del dengue y la cepa (16681) aislada de un paciente con fiebre hemorrágica del dengue /síndrome de choque del dengue. MÉTODOS: las cepas evaluadas fueron aisladas de sueros de pacientes virémicos con fiebre de dengue y fiebre hemorrágica del dengue. La titulación se realizó mediante el ensayo de titulación en placas en la línea celular BHK-21, esta metodología permitió determinar el tamaño de placa y la cinética de multiplicación viral. Se determinó el tiempo y la intensidad del efecto citopático e inmunofluorescencia específica en la línea celular C6/36-HT mediante las técnicas de microscopia óptica y de fluorescencia, respectivamente. De manera adicional, se emplearon las metodologías de citometría de flujo para cuantificar la replicación viral en las células C6/36-HT y la inoculación en ratones lactantes para la determinación de neurovirulencia. RESULTADOS: las cepas, excepto 16681, produjeron placas pequeñas (m.o.i.: 0,01). La replicación viral en C6/36-HT fue mayor para 16681. El efecto citopático permitió clasificar las cepas en baja (LAR19094 y LAR2303), moderada (INH35262 y 16681) y alta citopatogenicidad (LAR1693). El primer día posinoculación se detectó inmunofluorescencia entre 5 y 50 %, excepto para 16681. La neurovirulencia en ratones lactantes inoculados con 10(4) ufp/mL causó 77,5 % (INH35262) a 100 % (LAR1693 y 16681) de mortalidad, con variabilidad en los días de supervivencia. La replicación viral (24, 36 y 48 h posinoculación) mediante citometría de flujo fue desde 3,33 % hasta 90,3 %. CONCLUSIONES: los resultados permitieron concluir que el comportamiento de las cepas virales no fue evidencia suficiente para correlacionar estos atributos biológicos in vitro e in vivo con la severidad de los cuadros clínicos.

INTRODUCTION: the dengue virus causes a growing public health problem, but it has not been possible yet to determine the role of some biological attributes in the virulence and /or pathogeneity of viral serotypes. OBJECTIVE: to evaluate the in vitro and in vivo biological properties of 4 Venezuelan DENV-2 strains (LAR1693, LAR19094, LAR2303, IHN35262) responsible for dengue fever and dengue hemorrhagic fever and the reference strain (16681) isolated from a patient suffering dengue hemorrhagic fever and dengue shock syndrome. METHODS: the evaluated strains were isolated from sera of viremic patients with dengue fever and dengue hemorrhagic fever. They were then subjected to the plaque titration assay in BHK-21 cell line in order to determine the plaque size and kinetics of viral replication. The length of time and intensity of cytopathic effect and specific immunofluorescence on the C6/36-HT cell line was evaluated by optical microscopy and fluorescence respectively. Additionally, the flow cytometry to quantify viral replication in C6/36-HT cells and the intracerebral inoculation in newborn mice to find out neurovirulence were both used. RESULTS: all strains, except for 16681, showed small plaques at 0.01 m.o.i. The viral replication in C6/36-HT was higher for 16681 strain. Through cytophatic effect observations the strains were classified with low (LAR19094 and LAR2303), mild (INH35262 y 16681) and high (LAR1693) cytophatogeneity. The specific immunofluoresce ranged 5 to 50 % in the first day post inoculation, except for 16681 strain. The neurovirulence in newborn mices inoculated with 10(4) pfu/mL yielded 77.5 (INH35262) to 100% (LAR1693 y 16681) mortality rate and variability during survival days. The viral replication at 24.36 and 48 hours after inoculation was assessed by flow cytometry, ranging from 3.33 to 90.3% CONCLUSIONS: the results led to the conclusion that viral strain behaviors were not sound evidence to correlate these in vitro e in vivo biological attributes with the severity of the clinical pictures.

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Caracterizou-se o efeito citopático produzido pela amostra de vírus respiratório sincicial bovino (BRSV) RC-98, isolada na Argentina, por meio de imunocitoquímica em cultivos de células da linhagem Hep-2. Um soro policlonal anti-BRSV foi utilizado para a imunocitoquímica em células Hep-2 infectadas. Sinais específicos do virus foram observados no citoplasma de um grande número de células, consistindo em inclusões citoplasmáticas e células sinciciais. Efeitos citopáticos distintos foram observados, com frequência, no núcleo das células infectadas, aparecendo como sinais específicos fortes, podendo corresponder a inclusões intranucleares. A presença de sinais intranucleares pode consistir uma característica particular da amostra RC98 do BRSV. (AU)

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The present study evaluated the efficacy of various culture media for performing the isolation and growth of the rubella virus inoculated into SIRC cells. Rubella virus RA-27/3 strain and RVi/SãoPaulo/BRA99wild type strain (GenBank number DQ458965) were inoculated into SIRC cell line and cultivated in 199, DMEM, MEM and RPMI media. The inoculated cells when examined on phase contrast microscopy showed the characteristic rounded and multipolar cells. The CPE was observed at the first 48 hours cultivation in the respective tested media. The curve of the infectivity increase was higher in the cultures maintained in DMEM and RPMI media. Hence, the SIRC cellular lineage cultivated in DMEM or RPMI media is an excellent substratum for performing the rubella virus isolation. These findings are relevant since the SIRC has been one of the few cell lines described in the literature which presents a cytopathic effect, and on that account it can be useful for carrying out the virus isolation from clinical specimens.

O presente estudo avaliou a eficiência de vários meios de cultura no isolamento e crescimento do vírus da rubéola inoculado na linhagem celular SIRC. O vírus da rubéola padrão RA27/3 e o vírus selvagem RVi/SãoPaulo/BRA99 (GenBank número DQ458965) foram inoculados na linhagem celular SIRC e cultivada nos meios de cultura 199, DMEM, MEM e RPMI. As células inoculadas observadas em microscopia de fase apresentaram aspecto arredondado, com produção de células multinucleadas. O efeito citopático foi observado após 48 horas de cultivo nos respectivos meios de cultura testados e a curva do crescimento da infectividade do vírus foi maior nas células cultivadas em meios DMEM e RPMI. Os resultados obtidos indicam que SIRC é um ótimo substrato para crescimento do vírus da rubéola, uma vez que poucas linhagens celulares descritas na literatura apresentam efeito citopático considerável e mostram que o potencial dessa linhagem celular ser utilizadas para efetuar o isolamento do vírus da rubéola em amostras clínicas.