Entamoeba invadens, encystation process and enolase (original) (raw)
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Transcriptome Analysis of Encystation in Entamoeba invadens
PLoS ONE, 2013
Encystation is an essential differentiation process for the completion of the life cycle of a group of intestinal protozoa including Entamoeba histolytica, the causative agent of intestinal and extraintestinal amebiasis. However, regulation of gene expression during encystation is poorly understood. To comprehensively understand the process at the molecular level, the transcriptomic profiles of E. invadens, which is a related reptilian species that causes an invasive disease similar to that of E. histolytica, was investigated during encystation. Using a custom-generated Affymetrix platform microarray, we performed time course (0.5, 2, 8, 24, 48, and 120 h) gene expression analysis of encysting E. invadens. ANOVA analysis revealed that a total of 1,528 genes showed ≥3 fold up-regulation at one or more time points, relative to the trophozoite stage. Of these modulated genes, 8% (116 genes) were up-regulated at the early time points (0.5, 2 and 8h), while 63% (962 genes) were up-regulated at the later time points (24, 48, and 120 h). Twenty nine percent (450 genes) are either up-regulated at 2 to 5 time points or constitutively up-regulated in both early and late stages. Among the up-regulated genes are the genes encoding transporters, cytoskeletal proteins, proteins involved in vesicular trafficking (small GTPases), Myb transcription factors, cysteine proteases, components of the proteasome, and enzymes for chitin biosynthesis. This study represents the first kinetic analysis of gene expression during differentiation from the invasive trophozoite to the dormant, infective cyst stage in Entamoeba. Functional analysis on individual genes and their encoded products that are modulated during encystation may lead to the discovery of targets for the development of new chemotherapeutics that interfere with stage conversion of the parasite.
Differentiation of Entamoeba histolytica: A possible role for enolase
Experimental Parasitology, 2011
The study of the encystation process of Entamoeba histolytica has been hampered by the lack of experimental means of inducing mature cysts in vitro. Previously we have found that cytoplasmic vesicles similar to the encystation vesicles of Entamoeba invadens are present in E. histolytica trophozoites only in amebas recovered from experimental amebic liver abscesses. Here we report that a monoclonal antibody (B4F2) that recognizes the cyst wall of E. invadens also identifies a 48 kDa protein in vesicles of E. histolytica trophozoites recovered from hepatic lesions. This protein is less expressed in trophozoites continuously cultured in axenical conditions. As previously reported for E. invadens, the B4F2 specific antigen was identified as enolase in liver-recovered E. histolytica, by two-dimensional electrophoresis, Western blot and mass spectrometry. In addition, the E. histolytica enolase mRNA was detected by RT PCR. The antigen was localized by immunoelectron microscopy in cytoplasmic vesicles of liver-recovered amebas. The B4F2 antibody also recognized the wall of mature E. histolytica cysts obtained from human samples. These results suggest that the enolase-containing vesicles are produced by E. histolytica amebas, when placed in the unfavorable liver environment that could be interpreted as an attempt to initiate the encystation process.
Entamoeba invadens:Characterization of Cysteine Proteinases
Experimental Parasitology, 1996
Entamoeba invadens: Characterization of cysteine proteinases. Experimental Parasitology 84, 84-91. Cysteine proteinases have a number of important functions in the life cycle of protozoan parasites. Based on our previous studies demonstrating the role of cysteine proteinases in invasion by Entamoeba histolytica, we evaluated the cysteine proteinases of E. invadens, a related protozoan which causes invasive disease of reptiles. E. invadens readily encysts in axenic culture and provides a model to investigate the role of cysteine proteinases in encystation. Broad bands of ∼130-230, 55, and 35 kDa were detected on gelatin substrate gels and were inhibited with specific cysteine proteinase inhibitors. Maximal enzymatic activity was detected with peptide substrates containing arginine in the P2 position. A 567-bp fragment containing the active site of an E. invadens cysteine proteinase gene was amplified by PCR and had 37.7, 79.1, and 67.9% identity to the derived amino acid sequences of the acp 1, 2, and 3 genes, respectively, of E. histolytica. The PCR product hybridized with a single band of 1.1 kb on a Southern blot of EcoRI-restricted E. invadens genomic DNA. Long-term inhibition of cysteine proteinase activity during encystation resulted in significantly fewer cysts (P < 0.02); however, this effect appeared to be secondary to decreased trophozoite cell division. No difference in chitin synthase activity was detected between controls and encysting cells with inhibited cysteine proteinases, suggesting that these proteinases are not critical for activation of a zymogen form of chitin synthase. These studies demonstrate that cysteine proteinases may be critical for the survival of E. invadens, and specific inhibition may ultimately interrupt transmission.
Cyst production and transmission of Entamoeba and Endolimax
Transactions of the Royal Society of Tropical Medicine and Hygiene, 2002
We studied the cyst production of 340 asymptomatic carriers with single or mixed infections of Entamoeba histolyticalEntamoeba dispar, Endolimax nana and Entamoeba coli. It was found that the main source of transmission was a small group of 37 (10.9%) carriers who produced 70.2% of all cysts. Gender was an important factor for cyst production of Em. histolytica/Ent. dispar, since males produced 6-fold more cysts than females. Females produceds'large' (13-15 p) Ent. histoZytica/Ent. dispar cysts and males small (lo-12 l.& cysts when concentration was >2000 cysts/g. When concentration was <2000 cysts/g, cysts were the same size for both sexes (11.6 I!C 0.3 pm). In Ent. coli infections, an inverse relationship between the number and size of cyst was found for both sexes. Cysts of End. nana were not affected by gender or cyst concentration. Following cyst production by a carrier infected with Em. coli and Ent. histolytica for 28 days, we identified synchronized cycles of cyst production for both species. Altogether, these data suggest that cyst-mediated transmission is a highly regulated process in which synchronization among different species and gender of the host have an important role in transmission.
BioMed Research International, 2013
Inhibition of encystment can be conceived as a potentially useful mechanism to block the transmission of Entamoeba histolytica under natural conditions. Unfortunately, amoeba encystment has not been achieved in vitro and drugs inhibiting the formation of cysts are not available. Luminal conditions inducing encystment in vivo are also unknown, but cellular stress such as exposure to reactive oxygen species from immune cells or intestinal microbiota could be involved. A role for certain divalent cations as cofactors of enzymes involved in excystment has also been described. In this study, we show that trophozoite cultures, treated with hydrogen peroxide in the presence of trace amounts of several cations, transform into small-sized spherical and refringent structures that exhibit resistance to different detergents. Ultrastructural analysis under scanning and transmission electron microscopy revealed multinucleated structures (some with four nuclei) with smooth, thick membranes and multiple vacuoles. Staining with calcofluor white, as well as an ELISA binding assay using wheat germ agglutinin, demonstrated the presence of polymers of N-acetylglucosamine (chitin), which is the primary component of the natural cyst walls. Over-expression of glucosamine 6-phosphate isomerase, likely to be the rate-limiting enzyme in the chitin synthesis pathway, was also confirmed by RT-PCR. These results suggest that E. histolytica trophozoites activated encystment pathways when exposed to our treatment. Citation: Aguilar-Díaz H, Díaz-Gallardo M, Laclette JP, Carrero JC (2010) In vitro Induction of Entamoeba histolytica Cyst-like Structures from Trophozoites. PLoS Negl Trop Dis 4(2): e607.
Mitosomes in trophozoites and cysts of the reptilian parasite entamoeba invadens
Eukaryotic Cell, 2011
Heat shock protein genes led to the discovery of mitosomes in Entamoeba histolytica, but mitosomes have not been described for any other Entamoeba species, nor have they been identified in the cyst stage. Here, we show that the distantly related reptilian pathogen Entamoeba invadens contains mitosomes, in both trophozoites and cysts, suggesting all Entamoeba species contain these organelles.
Species-Specific Immunodetection of an Entamoeba histolytica Cyst Wall Protein
PLoS neglected tropical diseases, 2016
Entamoeba histolytica causes intestinal disease in endemic settings throughout the world. Diagnosis of E. histolytica infection would be improved by the identification of biomarkers that are expressed by cysts of E. histolytica, but not by cysts of closely related commensal species of Entamoeba. Herein, we describe two novel monoclonal antibodies (1A4 and 1D3) produced against a spacer region of the E. histolytica Jacob2 lectin, an outer cyst wall protein. These reagents demonstrated no cross-reaction to E. dispar recombinant antigen and low picomolar molecular detection limits when paired in ELISA sandwich assays. In an immunofluorescence microscopy assay, the α-Jacob2 murine antibodies labeled cysts of three xenically cultured E. histolytica isolates but did not label cysts of three E. bangladeshi isolates. Monoclonal antibody 1A4 did not cross-react with xenic cultures of three E. dispar isolates, demonstrating specificity to E. histolytica, while monoclonal antibody 1D3 cross-re...
Entamoeba invadens: In vitro axenic encystation with a serum substitute
Experimental Parasitology, 2005
The current media for axenic cultivation of Entamoeba histolytica and Entamoeba invadens are supplemented with bovine or equine serum, which provides several essential nutrients to amoebas. Serum has also been considered an essential component in encystation media for E. invadens. A substitute of serum, PACSR has been described as an alternative for growth of E. histolytica and also maintains growth of E. invadens. When PACSR was used instead of serum for encystation of E. invadens the efficiency was the same as for serum. Our present data show that PACSR can support the growth and induction of encystation of E. invadens strain IP-1.
Encystation of Entamoeba histolytica in Axenic Culture
Microorganisms, 2021
Entamoeba histolytica is a parasitic protozoan that causes amoebic dysentery, which affects approximately 90 million people each year worldwide. E. histolytica is transmitted through ingestion of food and water contaminated with the cyst form, which undergoes excystation in the small intestine to the trophozoite form that colonizes the large intestine. The reptile pathogen Entamoeba invadens has served as a model for studying stage conversion between the trophozoite and cyst form due to lack of reproducible encystation of E. histolytica in the laboratory. Although much has been learned about encystation and excystation using E. invadens, the findings do not fully translate to E. histolytica due to the extensive genetic and host differences between these species. Here, we present the first reproducible encystation of E. histolytica in vitro. The cysts produced were viable and displayed the four characteristic hallmarks: round shape, chitinous cell wall, tetranucleation, and detergent...