Mitosomes of Entamoeba histolytica are abundant mitochondrion-related remnant organelles that lack a detectable organellar genome (original) (raw)
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Entamoeba histolytica mitosomes: Organelles in search of a function
Experimental Parasitology, 2008
It has been more than eight years since the discovery of mitosomes (mitochondrial remnant organelles) in the intestinal human pathogen Entamoeba histolytica. Despite detailed knowledge about the biochemistry of this parasite and the completion of the E. histolytica genome sequencing project no physiological function has yet been unequivocally assigned to these organelles. Entamoeba mitosomes seem to be the most degenerate of all endosymbiosis-derived organelles studied to date. They do not appear to participate in energy metabolism and may have dispensed completely with the proteins required for iron-sulphur cluster biosynthesis. However, the large number of mitosomes found in E. histolytica trophozoites hints at a significant biological role for these organelles in their natural environment. Identifying the protein complement of mitosomes will provide answers as to their biological significance and the reason(s) for their retention in this parasite.
Behavior of DNA-lacking mitochondria in Entamoeba histolytica revealed by organelle transplant
Scientific reports, 2017
The anaerobic protozoan parasite Entamoeba histolytica has mitosomes that are mitochondria lacking some canonical functions and organelle DNA. Mitosomes play an important role in the life cycle of the parasite. The distribution of proteins in mitosomes is not uniform, and how mitosomes are maintained and retained is unknown. To answer these questions, we developed a transplant method for mitosomes with hemagglutinin-tagged protein into recipient cells containing mitosomes with Myc-tagged protein. Immunofluorescence staining showed that the two protein tags colocalized in single mitosomes in some recipient cells. These results suggest that our transplant method can be used in anaerobic protozoa and that donor mitosomes may obtain recipient proteins through fusion with other mitosomes or through de novo synthesis of proteins in recipient cells.
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.
A novel cytoplasmic structure containing DNA networks in Entamoeba histolytica trophozoites
Molecular and General Genetics, 1997
We report here the presence of cytoplasmic DNA arranged in networks in the trophozoites of the human parasite Entamoeba histolytica. Cytoplasmic DNA was detected in live trophozoites in a structure that we called EhkO, using the fluorescent dye acridine orange, and by in situ hybridization to trophozoites with a rDNA probe. The EhkO was found in the axenically grown clones A, L6 (strain HM1:IMSS) and MAVax (strain MAV) and in the polyxenically grown clone MAVpx (strain MAV). Bacteria present in MAVpx did not cross hybridize with the DNA probe neither in in situ hybridization or in Southern blot experiments. Autoradiography of metabolically [ 3 H]thymidine-labeled trophozoites showed the presence of EhkO, and an EhkO-enriched fraction, purified from a nuclei-free extract and examined by light microscopy, exhibited [ 3 H]thymidine incorporation into this structure. DNA was purified from the EhkO and enriched nuclear fractions and analyzed by transmission electron microscopy. The EhkO fraction contained DNA networks resembling those of trypanosome kDNA, whereas nuclear DNA was present mainly as linear molecules and some circles. Our findings imply that E. histolytica may be taxonomically more closely related to the Trypanosomatidae than previously suspected.
Entamoeba histolytica: DNA carrier vesicles in nuclei and kinetoplast-like organelles (EhkOs)
Molecular Genetics and Genomics, 2002
Entamoeba histolytica, the protozoan responsible for human amoebiasis, has a complex genome, whose linear chromosomes and DNA circles have so far eluded detailed analysis. We report the detection by transmission electron microscopy of nuclear vesicles (0.05-0.3 lm in diameter) carrying DNA in E. histolytica trophozoites. In late anaphase many of these nuclear vesicles were found to be organized in structures of 2.5·1 lm, in association with chromosomes and microtubules. In glutaraldehyde-fixed and detergenttreated trophozoites, nuclear vesicles displayed a nonmembranous envelope. Binding of phosphotungstate stain and recognition by serum from patients with systemic lupus erythematosus indicated that these vesicles contain DNA. Similar DNA carrier vesicles were found in the cytoplasm and in the E. histolytica kinetoplast-like organelle (EhkO). By Feulgen staining, we detected DNA carrier vesicles entering or leaving the nuclei, suggesting a structural relationship between the nuclear vesicles and the vesicles present in the EhkOs.
Analysis of Genes of Mitochondrial Origin in the Genus Entamoeba
The Journal of Eukaryotic Microbiology, 2003
Entamoeba histolytica is the protozoan parasite that causes amoebic dysentery and amoebic liver abscesses in humans. For many years it was believed to be a primitive organism because it lacks many typical eukaryotic features including mitochondria. Recently, two genes that in other organisms encode proteins normally found in the mitochondrion have been isolated, giving evidence for the secondary loss of mitochondrial function in E. histolytica. These are the pyridine nucleotide transhydrogenase (PNT) and the mitochondrial chaperonin cpn60 genes. In this study we isolated and characterised a gene encoding a mitochondrial-type heat shock protein 70 from E. histolytica. cDNA and genomic library clones have been isolated and sequenced. Comparison with previously published sequences confirmed the assumption that E. histolytica comes from mitochondrion-bearing ancestors. Southern blot hybridisation revealed there are two copies of the gene in the genome. Northern blot analysis revealed two transcripts hybridising to the mt-hsp70 probe that differ in length and which are induced by heat shock. In addition, an apparently noncoding, polyadenylated RNA that is also induced by heat shock is encoded immediately upstream of the mitochondrial-type hsp70 gene. Expression analysis was also performed in four other Entamoeba species. Partial cpn60, PNT, and mt-hsp70 genes were isolated and the size of the mRNAs and their heat shock induction levels were investigated by hybridisation to these probes. The similarity of the mt-hsp70 amino terminus to those of hydrogenosomal proteins in conjunction with the phylogenetic analyses suggests it is also likely to be targeted to the mitochondrion-derived organelle of E. histolytica known as the mitosome. III
Entamoeba histolytica: ultrastructure of the chromosomes and the mitotic spindle
Experimental parasitology, 2006
We have analyzed by transmission electron microscopy the mitotic process of Entamoeba histolytica trophozoites in an asynchronous population of axenically cultured parasites. Our observations showed that nuclear microtubules, initially located at random in the karyosome during prophase, formed in subsequent stages a mitotic spindle closely related to the nuclear membrane at the polar regions of dividing nuclei. In late prophase and in anaphase, chromosomes appeared as dense bodies 0.1-0.5 microm. At least 15 chromosomes appeared in favorable planes of section, arranged as an incomplete elliptical circle, in close contact with microtubules. There was no morphological evidence of structures resembling the kinetochores of higher eukaryotes. When cut in cross-section, the mitotic spindle was made of 28-35 microtubular rosette assemblies. The latter probably correspond to a similar number of chromosomes, as has been shown by others with pulse-field electrophoresis and fluorescence micros...
Journal of Eukaryotic Microbiology, 2018
In mitochondria, compatibility of proteins encoded in mitochondrial DNA and nuclear DNA is essential for normal function of the organelle. Incompatibility between mitochondrial and nuclear DNA can lead to dysfunctional respiration, mitochondrial diseases and lethal problems, which suggests that the presence of heterologous mitochondria is unfavorable. In a previous study, we established a transplant method for DNA-lacking mitochondria (mitosomes) in the anaerobic protozoan Entamoeba histolytica. In this study, interspecies transplant of mitosomes from E. histolytica into E. invadens, which is a parasitic protozoon of reptiles, was performed using the microinjection method at various temperatures and injection volumes. When E. invadens was used as recipient, it showed higher tolerance to a lower temperature and larger injection volume, in comparison with E. histolytica. After microinjection, donor mitosomes expressing HA-tag conjugated protein were observed in recipient cells by immunofluorescent staining. Growth rate of the microinjected-cells was similar to that of intact cells. These observations suggest that heterologous transplant of mitosomes between Entamoeba species were successful without affect proliferation. Therefore, we conclude that interspecies transplant of DNA-lacking mitochondria does not result in incompatibility.