Electrophoretic isoenzyme patterns of Entamoeba histolytica and Entamoeba chattoni in a primate survey

Stocks of Entamoeba histolytica grown in a monoxenic culture system from the feces of nonhuman primates are compared with the eleven zymodemes of E. histolytica so far demonstrated from man. In a similar fashion, Entamoeba chattoni has also been grown and identified. Both E. histolytica and E. chattoni have been demonstrated in keepers of the primate collections. Comparisons have been made using the electrophoretic patterns of three enzymes: glucosephosphate isomerase [(GPI) E.C.5.3.1.9], phosphoglucomutase [(PGM) E.C.2.7.5.1], and L-malate--NADP+ oxidoreductase (oxaloacetate-decarboxylating) [(ME) E.C.1.1.1.40]. Enzyme patterns of E. histolytica from the apes were found to be identical with three of those already demonstrated from man. The enzyme pattern of E. chattoni was distinctly different from that of any of the E. histolytica zymodemes. Other protozoa found in the single fecal sample examined from each subject are also listed.     

Lipophosphoglycan Is Present in Distinctly Different Form in Different Entamoeba histolytica Strains and Absent in Entamoeba moshkovskii and Entamoeba invadens1

ABSTRACT. Lipophosphoglycan has recently been demonstrated on the cell surface of Entamoeba histolytica strain HM-1:IMSS. A monoclonal antibody against this molecule had failed to react with some other strains of E. histolytica, including the strain Rahman. To determine if a structurally distinct lipophosphoglycan existed in Rahman, [³H]galactose-labeled glycoconjugates were electrophoresed through sodium dodecyl sulfate polyacrylamide gel electrophoresis. The electrophoretic pattern in Rahman was very different compared to that obtained with strains HM-1:IMSS and 200:NIH. A number of experiments including sensitivity to mild acid, nitrous acid and phosphoinositol-specific phospholipase C suggest that the Rahman glycoconjugate is indeed a lipophosphogylcan-like molecule but distinctly different from that of HM-1:IMSS. Mild acid-treated glycoconjugates from Rahman and HM-1:IMSS revealed the presence of neutral trisaccharides and monosaccharides in Rahman but not in HM-1:IMSS. Human immune sera from amoebiasis patients and a polyclonal antibody against HM-1:IMSS liphophosphoglycan both recognized Rahman glycoconjugate. Thus, while lipophosphoglycan molecules from the two strains share common epitopes, they are clearly distinct from each other. Molecules bearing resemblance to lipophosphoglycan could not be detected in other Entamoeba species, namely Entamoeba invadens and Entamoeba moshkovskii.     

Differentiation of Entamoeba histolytica: a possible role for enolase

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.     

Molecular Changes in Entamoeba histolytica in Response to Bacteria1

Entamoeba histolytica, the protozoan parasite, is the causative agent of amoebiasis. The degree of virulence, as inferred from invasiveness, of potentially pathogenic strains may be regulated by both host and parasite factors that determine the gut environment. One such factor that plays an important role is the bacterial flora in the gut. Previous studies have clearly shown that bacterial flora is an important determinant of virulence in E. histolytica. However, the exact nature of changes induced in E. histolytica in response to bacteria and their role in virulence is not clear. In this study the levels of a number of molecules potentially important in virulence mechanisms were determined in E. histolytica cells grown with and without normal human bacterial flora, using enzyme-linked immunosorbent assay. Significant changes were observed only after the E. histolytica cells had been adapted to grow with bacterial flora for a number of generations, and not in short term culture.     

Entamoeba dispar: Cultivation with Sterilized Crithidia fasciculata1

Four isolates of Entamoeba dispar identified by their hexokinase and phosphoglucomutase isoenzyme profile and by their failure to react with Entamoeba histolytica-specific monoclonal antibody (4G6) could be grown in either Diamond's BI-S-33 medium, newly developed BCSI-S (Biosate cysteine starch iron-serum) medium, or casein-free YI-S medium in the presence of Crithidia fasciculata (ReF-1:PRR) sterilized by heating 56° C for 30 min and subsequent incubation with 1% hydrogen peroxide for 24 hours at 4° C. After the cultures were maintained for over 50 passages, the amebae were identified as E. dispar by isoenzyme analysis, polymerase chain reaction with E. histolytica- and E. dispar-specific primers, i.e. p11 plus p12 and p13 plus p14, respectively, and by negative reactivity with monoclonal antibody 4G6. The flagellates added to the culture were judged to be metabolically inactive based on the results of nuclear magnetic resonance spectroscopy, electron microscopy, and polarographic analysis. All of these findings suggest that E. dispar can grow in vitro with metabolically inactive C. fasciculata as a culture associate.     

<Emphasis Type="Italic">Entamoeba histolytica</Emphasis> and <Emphasis Type="Italic">E. dispar</Emphasis> infections in captive macaques (<Emphasis Type="Italic">Macaca fascicularis</Emphasis>) in the Philippines

Entamoeba histolytica is a protozoan parasite that infects man and animals. This parasite has a global distribution and the disease it causes is usually characterized by diarrhea. In order to detect the parasite, it is necessary to differentiate it from Entamoeba dispar. E. dispar appears morphologically similar to E. histolytica but does not cause disease and tissue invasion. This study reports on the prevalence of E. histolytica and E. dispar among captive macaques in a primate facility in the Philippines. PCR was used to correctly identify both Entamoeba species. Indirect fluorescent antibody test (IFAT) was also performed to determine the seroprevalence of amebiasis in the captive macaques. Based on PCR targeting of the peroxiredoxin gene, of the 96 stool samples collected, 23 (24%) contained E. histolytica while 32 (33%) contained E. dispar. IFAT revealed 26 (27%) serum samples positive for antibodies against E. histolytica. Sequence analysis of the 18S rRNA gene showed that the 23 E. histolytica isolates were identical to human E. histolytica isolates deposited in the GenBank and not Entamoeba nuttalli as found in macaques in other recent reports. The Philippines is a major exporter of monkeys for biomedical research purposes, so screening animals before transporting them to other locations lessens the risk of spreading zoonoses to a wider area. This is the first report of the molecular detection of E. histolytica and E. dispar among macaques in the Philippines. This study complements the limited information available on the animal hosts of E. histolytica in the Philippines.     

Characterization of a novel Entamoeba histolytica strain from Burkina Faso, Africa, possessing a unique hexokinase-2 gene

An Entamoeba histolytica strain (BF-841 cl1) that originated from Burkina Faso, Africa presented with novel, polymorphic genotypes of the serine-rich E. histolytica protein and the anodic hexokinase-2 (HXK-2) isoenzyme band, which showed less electrophoretic mobility than that of an E. histolytica reference strain [HM-1:IMSS cl6 (zymodeme (Z)-II)] by starch gel electrophoresis and isoelectric focusing (IEF). The HXK-2 gene of BF-841 cl1 had amino acid variations at four positions compared to the sequence of HM-1: IMSS cl6. These variations were absent from the sequences of four other E. histolytica strains with different zymodemes [KU27 (Z-II), SAW1627 (Z-IIα-), SAW755CR clB (Z-XIV), and KU2 (Z-XIX)]. The results of IEF showed no difference in the substrate specificity of HXK (HXK-1 and HXK-2) between BF-841 cl1 and the three reference E. histolytica strains (HM-1:IMSS cl6, SAW755 clB, and KU27). It was also confirmed that BF-841 cl1 was able to form liver abscesses in Syrian hamsters.     

Physiological significance of glucose transport in Entamoeba histolytica.

A glucose transport system, previously found in a bacterial grown strain of Entamoeba histolytica, is also present in a strain grown in axenic culture and in an atypical strain which can grow at room temperature. The last strain has a lower temperature coefficient for glucose transport than the two typical strains, which grow only above 33 C. The uptake of glucose by pinocytosis is much lower than the uptake through the specific transport system. The rate of glucose transport was equal to the rate of glucose consumption from the medium. No free glucose could be detected inside amoebal cells incubated with external glucose. All these observations are consistent with the idea that transport is a rate limiting step in the utilization of glucose by E. histolytica.     

The calcium binding protein EhCaBP6 is a microtubular‐end binding protein in Entamoeba histolytica

The genome of Entamoeba histolytica encodes several calcium binding proteins and those characterized thus far have been shown to participate predominantly in phagocytosis and endocytosis. Our study showed that EhCaBP6 has two EF‐hand domains EFI and EFIII; it can bind Ca²⁺ in vitro and undergoes conformational transition on binding Ca²⁺ suggesting that it can serve as a calcium signal sensor. EhCaBP6 is localized in the nucleus, cytoplasm and plasma membrane and is sensitive to heat stress. Unlike other Ca²⁺ binding proteins that have been studied in E. histolytica, EhCaBP6 is found at microtubule ends and at the intercellular bridge with the microtubules during cytokinesis. Furthermore, increased expression of EhCaBP6 was correlated with a significant increase in the number of microtubular structures suggesting that this protein may regulate chromosome segregation and cytokinesis in E. histolytica.     

A Redescription of Entamoeba Histolytica Schaudinn, 1903 (Emended Walker, 1911) Separating It From Entamoeba Dispar Brumpt, 19251

ABSTRACT. Explaining the low incidence of invasive disease (10%) in humans infected with Entamoeba histolytica has occupied the attention of generations of both clinical and nonclinical investigators. One possible explanation would be the existence of two morphologically identical species—one an invasive pathogen, the other noninvasive. This was first proposed by Brumpt in 1925, but his explanation was virtually ignored until 1978 when the first of several publications appeared suggesting that E. histolytica did indeed consist of two species. We have reexamined Brumpt's claim in light of recent biochemical, immunological and genetic studies and conclude that the data derived from these investigations provide unequivocal evidence supporting his hypothesis. With this in mind, we redescribe the invasive parasite retaining the name Entamoeba histolytica Schaudinn, 1903 (Emended Walker, 1911), and set it apart from the noninvasive parasite described by Brumpt, Entamoeba dispar Brumpt, 1925.     

Entamoeba histolytica and Entamoeba dispar: Morphological and Behavioral Differences Induced by Fibronectin through GTPases Activation and Actin‐Binding Proteins

Early steps of tissue invasion by Entamoeba histolytica are mediated by adhesion and migration through matrix components such as fibronectin with the participation of the actin cytoskeleton. Striking differences in their produced structures, movement, and migration were found. These observations suggest differential changes in their ability to organize the actin cytoskeleton and, therefore, to modify its morphology after adhesion to fibronectin. To understand these observations, we explore deeper the cytoskeleton pathway of E. histolytica compared to Entamoeba dispar, analyzing the activation and involvement of actin cytoskeleton regulatory proteins such as small GTPases (Rho, Rac1 and Cdc42), myosin IB, paxillin, alpha‐actinin, and ARP2/3 during interaction with fibronectin. Results showed a higher activation of Rac1 in E. histolytica compared to E. dispar, while Cdc42 and RhoA were equally activated in both amebae; besides, variations in the amount of myosin IB, paxillin, and ARP2/3 were detected among these species, coinciding and reflected in formation of lamellipodia in E. histolytica and filopodia in E. dispar. These could partially explain the higher invasive capacity of E. histolytica compared to E. dispar, due to its pleomorphic ability, high motility, migration, activation, and abundance of proteins involved in the cytoskeleton arrangement.     

Molecular Identification and Prevalence of Entamoeba histolytica,Entamoeba dispar and Entamoeba moshkovskii in Erbil City,Northern Iraq

The present study was conducted to evaluate the infection rates of Entamoeba histolytica, Entamoeba dispar, and Entamoeba moshkovskii among asymptomatic individuals in Erbil City, northern Iraq. The research intent was to discover whether pathogenic or nonpathogenic species cause a high rate of symptomless Entamoeba infections. Stool samples were microscopically examined, and the 18S-rRNA gene was targeted utilizing the nested PCR technique in the positive specimens. Initial results based on morphological features showed that the Entamoeba prevalence rate was 7.4%. Significantly higher rates of infections were seen in females than in males and in low-income people than in moderate-income people. The incidence rates among the asymptomatic individuals, as determined by molecular analysis, were as follows: E. histolytica – 6%, E. dispar – 4.3%, and E. moshkovskii – 0.3%. Of all the Entamoeba positive samples, a single infection with E. histolytica was identified in 41.4% samples; the single infection with E. dispar in 18.6% samples, 35.7% samples had mixed infections with two Entamoeba species, and 4.3% had mixed infections with three species. The current study concluded that 7.4% of healthy people, who live in the endemic area under investigation, carry Entamoeba species asymptomatically. Additionally, the majority of asymptomatic Entamoeba infections were caused by the pathogenic E. histolytica (81.4%) compared to E. dispar (58.6%), and E. moshkovskii with the lowest rate of infection. Single and co-infections with E. histolytica and E. dispar were noted. E. moshkovskii, which was identified for the first time in the region, was only seen in mixed infections.Key words: Entamoeba histolytica, Entamoeba dispar, Entamoeba moshkovskii, epidemiology, asymptomatic infections     

Production and Characterization of Monoclonal Antibodies Against a Highly Immunogenic Fraction of Entamoeba histolytica (NIH:200) and Their Application in the Detection of Current Amoebic Infection

Six monoclonal antibodies (MAbs) were produced against a highly immunogenic fraction derived by the chromatographic separation of the soluble preparation of axenic Entamoeba histolytica (strain NIH:200) trophozoites. Isotype characterization of the six MAbs revealed that four belonged to the IgM class and one each to the IgG1 and the IgG2a subclasses. The immunoreactivity patterns and the specificity of the MAbs with homologous and heterologous antigens were analyzed by the enzyme-linked immunotransfer blot technique and by the enzyme-linked immunosorbent assay. The MAbs reacted intensely with isolates of E. histolytica (strain NIH:200 as well as a local isolate MX1) but showed no reactivity with Entamoeba coli, Iodamoeba butschlii, Endolimax nana, Entamoeba hartmanni, free-living amoeba (Acanthamoeba harticolus) and other enteric parasites. Using the IgG1 MAb as a detecting antibody, a polyclonal-monoclonal antibody-based enzyme-linked immunosorbent assay was developed for the detection of E. histolytica antigens in stool samples of infected patients. The detection limit of the assay was 8 ng of amoebic antigen. This test was found to be specific and sensitive and yielded 100% positive results in cases with amoebiasis but did not react with controls included in the evaluation. The MAb-based enzyme-linked immunosorbent assay developed in this study will be an important test for the diagnosis of E. histolytica in the feces of infected humans; however, the limitation of the test is the inability to discriminate the pathogenic status of the amoeba detected in the stool.     

Incorporation and Toxicity of 32P-Orthophosphate and Occurrence of Poly phosphate in Entamoeba Trophozoites1

We explored the requirements of inorganic phosphate (Pi), the incorporation of ³²P-orthophosphate (³²Pi), and the occurrence of inorganic polyphosphate (polyP) in axenic Entamoeba cultures. Maximal population densities and growth rates of Entamoeba histolytica trophozoites were attained in complete TP-S-1 medium. As ³²Pi concentration was increased in the medium, its own incorporation and the culture growth rate were progressively inhibited, especially in Pi-deficient medium. PolyP grains were found in the cytoplasm and occasionally in the nuclear membrane of E. histolytica, E. histolytica-like, E. invadens, and E. moshkovskii trophozoites.     

Identification of an avirulent Entamoeba histolytica strain with unique tRNA-linked short tandem repeat markers

Highly polymorphic, non-coding short tandem repeats (STR) are scattered between the tRNA genes in Entamoeba histolytica in a unique tandemly arrayed organization. STR markers that correlate with the virulence of individual E. histolytica strains have recently been reported. Here we evaluated the usefulness of tRNA-linked STR loci as genetic markers in identifying virulent and avirulent strains of E. histolytica from 37 Japanese E. histolytica samples (12 diarrheic/dysenteric, 20 amebic liver abscess (ALA), and 5 asymptomatic cases). Twenty three genotypes, assigned by combining the STR sequence types from all 6 STR loci, were identified. One to 8 new STR sequence types per locus were also discovered. Genotypes found in asymptomatic isolates were highly polymorphic (4 out of 5 genotypes were unique to this group), while in symptomatic isolates, almost half of the genotypes were shared between diarrhea/dysentery and ALA. One asymptomatic isolate (KU27) showed unique STR patterns in 4 loci. This strain, though associated with the typical pathogenic zymodeme II, failed to induce amebic liver abscess by animal challenge, which suggests that inherently avirulent E. histolytica strains exist, that are associated with unique genotypes. Furthermore, STR genotyping and in vivo challenge of 2 other asymptomatic isolates (KU14 and KU26) verified the covert virulence of these strains.     

Entamoeba histolytica infections in wild and semi-wild orangutans in Sumatra and Kalimantan

Key to the success of orangutan conservation management practices is the prevention of the introduction of infectious diseases to the remaining populations. Previous reports of Entamoeba spp. positive orangutans are of concern as Entamoeba spp. infection has been linked to morbidity and mortality in primates. It remains to be determined if the Entamoeba species infecting orangutans is the pathogenic Entamoeba histolytica. Orangutan fecal samples have been collected from orangutans from sites in Sumatra (Bukit Lawang, Ketambe, and Suaq, 241 samples from 64 individuals), and two sites in Kalimantan (Sebangau and Tuanan, 129 samples from 39 individuals). All samples were from wild orangutans except for a proportion from Sumatra which were from semi-wild (108 samples, 10 individuals). E. histolytica-specific nested PCR assays were carried out on the fecal samples. A total of 36 samples from 17 individuals tested positive for E. histolytica. When compared with published sequences using NCBI BLAST the E. histolytica positive samples showed a 98–99% concordance. The majority (76%, n = 36) of the positive isolates came from semi-wild orangutans in Bukit Lawang. This study supports the growing body of evidence that contact with humans is an important risk factor for infection of wild primates with E. histolytica.     

Discovery of Entamoeba histolytica hexokinase 1 inhibitors through homology modeling and virtual screening

Abstract

Entamoeba histolytica, the parasite which causes amebiasis is responsible for 110?000 deaths a year. Entamoeba histolytica depends on glycolysis to obtain ATP for cellular work. According to metabolic flux studies, hexokinase exerts the highest flux control of this metabolic pathway; therefore, it is an excellent target in the search of new antiamebic drugs. To this end, a tridimensional model of E. histolytica hexokinase 1 (EhHK1) was constructed and validated by homology modeling. After virtual screening of 14?400 small molecules, the 100 with the best docking scores were selected, purchased and assessed in their inhibitory capacity. The results showed that three molecules (compounds 2921, 11275 and 2755) inhibited EhHK1 with an I₅₀ of 48, 91 and 96?µM, respectively. Thus, we found the first inhibitors of EhHK1 that can be used in the search of new chemotherapeutic agents against amebiasis.     

Influence of Heterologous Transplant of DNA‐lacking Mitochondria from Entamoeba histolytica on Proliferation of Entamoeba invadens

In mitochondria, compatibility of proteins encoded in mitochondrial DNA and nuclear DNA is essential for the normal functioning 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 Entamoeba 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. The heterologous mitosomes‐injected cells proliferated and growth rate of the microinjected‐cells was similar to that of intact cells. Therefore, we conclude that interspecies transplant of DNA‐lacking mitochondria does not result in incompatibility.     

New observations of the nuclear division in Entamoeba histolytica. The chromosomes

The morphologic organization of the nucleus and DNA during the nuclear division of Entamoeba histolytica was examined. The DNA of dividing amebic trophozoites was visualized with the fluorescent probe, Hoechst 33258 for light microscopy, and a DNA-specific antibody and phosphotungstic acid for electron microscopy. These techniques demonstrated features of the dividing amebic nuclei and the presence of spherical DNA-containing bodies corresponding to the condensed chromosomes. Based on light microscopy observations the number of chromosomes in E histolytica is five. Microtubules (MT) radiating from the microtubule organizing center (MTOC) were observed attached to the putative chromosomes.