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1.
Int J Parasitol ; 51(2-3): 193-200, 2021 02.
Article in English | MEDLINE | ID: mdl-33264648

ABSTRACT

The protozoan parasite Entamoeba histolytica is an important human pathogen and a leading parasitic cause of death on a global scale. The lack of molecular tools for genome editing hinders the study of important biological functions of this parasite. Due to its versatility, the CRISPR (clustered regularly interspaced short palindromic repeat)-Cas9 system has been successfully used to induce site-specific genomic alterations, including in protozoan parasites. In this study, we optimised CRISPR-Cas9 for use as a genetic tool in E. histolytica. We chose a single plasmid approach containing both guide RNA (gRNA) and Cas9 nuclease expression cassettes. The amebic U6 promoter was used to drive the expression of the gRNA and its expression was confirmed by Northern blot analysis. Stable transfectant cell lines were obtained using a destabilising domain of dihydrofolate reductase fused to myc-tagged Cas9 (ddCas9). With this system, we were able to induce ddCas9 expression 16 h following treatment with the small molecule ligand trimethoprim (TMP). Stable cell lines expressing ddCas9 and Luc-gRNA or non-specific (NS)-gRNA were transiently transfected with a plasmid containing a mutated luciferase gene (pDeadLuc) targeted by Luc-gRNA and another plasmid with a truncated luciferase gene (pDonorLuc) to restore luciferase expression and consequent activity. We observed that luminescence signal increased for the cell line expressing Luc-gRNA, suggesting that homologous recombination was facilitated by Cas9 activity. This evidence is supported by the presence of chimeric DNA detected by PCR and confirmed by sequencing of the resulting repaired DNA obtained by homologous recombination. We believe this represents the first report of a CRISPR/Cas9 system use in Entamoeba and provides evidence that this genome editing approach can be useful for genetic studies in this early branching eukaryote.


Subject(s)
CRISPR-Cas Systems , Entamoeba histolytica , Entamoeba histolytica/genetics , Gene Editing , Humans , Plasmids/genetics , RNA, Guide, Kinetoplastida/genetics
2.
Int J Biol Macromol ; 81: 165-70, 2015 Nov.
Article in English | MEDLINE | ID: mdl-26162246

ABSTRACT

The present study investigated in vitro the effects of sulphated heterorhamnan (Go3), iota-/nu-carrageenans (G3d and EHW-I) and arabinogalactan (ARAGAL) polysaccharides on macrophage activation and inhibition of intracellular amastigotes of Leishmania (L.) amazonensis. All the sulphated polysaccharides (Go3, G3d and EHW-I) promoted increased nitric oxide production varying from 71 to 110%. The leishmanicidal activity of all compounds was compared to the inhibition effect of Meglumine Antimoniate at 300µg/mL (∼79%), used as positive control. Inhibition of Leishmania (L.) amazonensis growth was 55% with 5µg/mL of Go3, 50% and 98% to G3d and EHW-I, respectively at 10µg/mL, and 88% with 10µg/mL of ARAGAL. The superoxide anion scavenging activity for the sulphated polysaccharides varied from approximately 30-55% at 10µg/mL. In conclusion, the results of the present study indicate the promising potential of these polysaccharides for the development of new alternative therapeutic agents against leishmaniasis.


Subject(s)
Leishmania/drug effects , Polysaccharides/chemistry , Polysaccharides/pharmacology , Trypanocidal Agents/chemistry , Trypanocidal Agents/pharmacology , Animals , Cytotoxicity, Immunologic/drug effects , Leishmania/metabolism , Macrophages, Peritoneal/drug effects , Macrophages, Peritoneal/immunology , Macrophages, Peritoneal/metabolism , Macrophages, Peritoneal/parasitology , Mice , Nitric Oxide/biosynthesis , Parasitic Sensitivity Tests , Superoxides/metabolism
3.
BMC Microbiol ; 13: 10, 2013 Jan 17.
Article in English | MEDLINE | ID: mdl-23327097

ABSTRACT

BACKGROUND: Amastins are surface glycoproteins (approximately 180 residues long) initially described in Trypanosoma cruzi as particularly abundant during the amastigote stage of this protozoan parasite. Subsequently, they have been found to be encoded by large gene families also present in the genomes of several species of Leishmania and in other Trypanosomatids. Although most amastin genes are organized in clusters associated with tuzin genes and are up-regulated in the intracellular stage of T. cruzi and Leishmania spp, distinct genomic organizations and mRNA expression patterns have also been reported. RESULTS: Based on the analysis of the complete genome sequences of two T. cruzi strains, we identified a total of 14 copies of amastin genes in T. cruzi and showed that they belong to two of the four previously described amastin subfamilies. Whereas δ-amastin genes are organized in two or more clusters with alternating copies of tuzin genes, the two copies of ß-amastins are linked together in a distinct chromosome. Most T. cruzi amastins have similar surface localization as determined by confocal microscopy and western blot analyses. Transcript levels for δ-amastins were found to be up-regulated in amastigotes from several T. cruzi strains, except in the G strain, which is known to have low infection capacity. In contrast, in all strains analysed, ß-amastin transcripts are more abundant in epimastigotes, the stage found in the insect vector. CONCLUSIONS: Here we showed that not only the number and diversity of T. cruzi amastin genes is larger than what has been predicted, but also their mode of expression during the parasite life cycle is more complex. Although most T. cruzi amastins have a similar surface localization, only δ-amastin genes have their expression up-regulated in amastigotes. The results showing that a sub-group of this family is up-regulated in epimastigotes, suggest that, in addition of their role in intracellular amastigotes, T. cruzi amastins may also serve important functions during the insect stage of the parasite life cycle. Most importantly, evidence for their role as virulence factors was also unveiled from the data showing that δ-amastin expression is down regulated in a strain presenting low infection capacity.


Subject(s)
Gene Expression Regulation , Gene Order , Membrane Glycoproteins/biosynthesis , Membrane Glycoproteins/genetics , Protozoan Proteins/biosynthesis , Protozoan Proteins/genetics , RNA, Messenger/biosynthesis , Trypanosoma cruzi/chemistry , Trypanosoma cruzi/genetics , Animals , Blotting, Western , Gene Expression Profiling , Genetic Variation , Microscopy, Confocal
4.
Chem Biol Interact ; 189(1-2): 127-33, 2011 Jan 15.
Article in English | MEDLINE | ID: mdl-20888807

ABSTRACT

Storage xyloglucans from the seeds of Copaifera langsdorffii, Hymenaea courbaril and Tamarindus indica were obtained by aqueous extraction from the milled and defatted cotyledons, XGC, XGJ and XGT, respectively. The resulting fractions showed similar monosaccharide composition with Glc:Xyl:Gal molar ratios of 2.4:1.5:1.0, 3.8:1.5:1,0 and 3.6:2.4:1.0 for XGC, XGJ and XGT, respectively. High-performance size-exclusion chromatography of the polysaccharides showed unimodal profiles, and the average molar mass (M(w)) was obtained for XGC (9.6 × 105 g/mol), XGJ (9.1 × 105 g/mol) and XGT (7.3 × 105 g/mol). The immunomodulatory effects of the xyloglucans on peritoneal macrophages were evaluated. Phagocytic activity was observed in macrophages treated with XGT. The effect of XGT was tested on the production of O2(.-) and NO. At 25 µg/ml XGT caused a 100% increase in NO production when compared to the control group; however, it did not affect O2(.-) production in the absence of PMA. The production of TNF-α, interleukins 1ß and 6 by macrophages in the presence of the xyloglucans was evaluated. The polysaccharides affected the production of the cytokines by macrophages to different degrees. XGC caused an enhancement of IL-1ß and TNF-α production, compared to the other xyloglucans. For IL-6 production, XGT gave greater stimulation than XGC and XGJ, reaching 87% at 50 µg/ml. XGJ promoted a statistically significant effect on all cytokine productions tested. The results indicate that the xyloglucans from C. langsdorffii, H. courbaril and T. indica can be classified as biological response modifiers (BRM).


Subject(s)
Fabaceae/chemistry , Glucans/pharmacology , Macrophage Activation/drug effects , Macrophages, Peritoneal/drug effects , Xylans/pharmacology , Animals , Cell Survival/drug effects , Cotyledon/chemistry , Cytokines/metabolism , Glucans/isolation & purification , Mice , Nitrites/metabolism , Phagocytosis/drug effects , Superoxides/metabolism , Xylans/isolation & purification
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