Effect of cytochalasin D on the growth,encystation, and multinucleation of <Emphasis Type="Italic">Entamoeba invadens</Emphasis>

The effect of cytochalasin D, a specific inhibitor of microfilaments, on the growth, encystation, and multinucleation of Entamoeba invadens was examined. Cytochalasin D blocked the growth of axenic E. invadens strain IP-1 in a dose-dependent manner, which suggests that the drug is effective against this species of Entamoeba as well as against E. histolytica strain HM1: IMSS as previously demonstrated. Encystation of E. invadens as induced in vitro was also inhibited by cytochalasin D. This is the first evidence of the participation of microfilaments in the encystation process. Concentrations of cytochalasin D effective for the inhibition of encystation were lower than those effective for the inhibition of growth. Trophozoites grown with cytochalasin D became multinucleate; more than three nuclei per cell were observed in 71% of trophozoites grown in the presence of the drug as opposed to only 5% of those grown in the absence of the drug. Also, trophozoites grown with cytochalasin D produced multinucleate cysts following their transfer to encystation medium. Encystation with cytochalasin D was more strongly inhibited among trophozoites grown in the presence of the drug than among those grown in the absence of the drug. Also, encystation without cytochalasin D was less frequently observed among trophozoites grown in the presence of the drug than among those grown in the absence of the drug. Thus, the multinucleation of trophozoites induced by cytochalasin D had an inhibitory effect on their encystation. Received: 28 September 1999 / Accepted: 25 November 1999     

Entamoeba invadens: Identification of a SERCA protein and effect of SERCA inhibitors on encystation

Calcium has an important role on signaling of different cellular processes, including growth and differentiation. Signaling by calcium also has an essential function in pathogenesis and differentiation of the protozoan parasites Entamoeba histolytica and Entamoeba invadens. However, the proteins of these parasites that regulate the cytoplasmic concentration of this ion are poorly studied. In eukaryotic cells, the calcium-ATPase of the SERCA type plays an important role in calcium homeostasis by catalyzing the active efflux of calcium from cytoplasm to endoplasmic reticulum. Here, we reported the identification of SERCA of E. invadens (EiSERCA). This protein contains a putative sequence for endoplasmic reticulum retention and all domains involved in calcium transport identified in mammalian SERCA. By immunofluorescence assays, an antibody against SERCA of E. histolytica detected EiSERCA in a vesicular network in the cytoplasm of E. invadens trophozoites, co-localizing with calreticulin. Interestingly, EiSERCA was redistributed close to plasma membrane during encystation, suggesting that this pump could participate in regulate the calcium concentration during this process. In addition, thapsigargin and cyclopiazonic acid, both specific inhibitors of SERCA, affected the number and structure of cysts, supporting the hypothesis that calcium flux mediated by SERCA has an important role in the life cycle of Entamoeba.     

Ultrastructure of cyst differentiation in parasitic protozoa

Cysts represent a phase in the life cycle of biphasic parasitic protozoa that allow them to survive under adverse environmental conditions. Two events are required for the morphogical differentiation from trophozoite to cyst and from cyst to trophozoite: the encystation and excystation processes. In this paper, we present a review of the ultrastructure of the encystation and excystation processes in Entamoeba invadens, Acanthamoeba castellanii, and Giardia lamblia. The comparative electron microscopical observations of these events here reported provide a morphological background to better understand recent advances in the biochemistry and molecular biology of the differentiation phenomena in these microorganisms.     

Effect of the antitubulin drug oryzalin on the encystation of Entamoeba invadens

We have recently demonstrated that the antimicrotubule drug oryzalin inhibits the growth of Entamoeba invadens as well as E. histolytica, the former being more resistant to the drug than the latter, and that effective doses of oryzalin are higher for Entamoeba than for the other parasitic protozoa examined thus far. The aim of the present study was to examine the effect of oryzalin on the encystation of E. invadens using an axenic encystation system in vitro. Oryzalin inhibited the encystation of E. invadens strain IP-1 in a dose-dependent manner. The addition of oryzalin after the induction of encystation was also inhibitory for encystation and cyst maturation. Trophozoites incubated for 1 day in encystation medium with oryzalin did not encyst after removal of the drug. Although trophozoites grown in the presence of 300 μM oryzalin for 2 days did not encyst after their transfer to encystation medium containing the same concentration of drug, a number of trophozoites survived for at least 3 days. In contrast, trophozoites grown in the absence of oryzalin neither survived nor encysted after their transfer to encystation medium supplemented with the drug, which suggests that pretreatment of trophozoites with oryzalin contributes to their continued survival as trophozoites, i.e., without their transforming into cysts, in encystation medium. Trophozoites grown with oryzalin did encyst after their transfer to encystation medium without the drug. Accumulation of trophozoites in the mitotic phase was observed after culture with oryzalin. When cysts prepared at day 1 of encystation, most of which were mononucleate, were reincubated in the presence of oryzalin for an additional 2 days, inhibition of their maturation was observed. Thus, oryzalin is a potent mitotic-phase inhibitor of E. invadens and may become a useful tool for studies on the relationship between the cell cycle and encystation of this parasite. Received: 29 November 1999 / Accepted: 28 January 2000     

Ultrastructural characteristics and molecular identification of Entamoeba suis isolated from pigs with hemorrhagic colitis: implications for pathogenicity

Protozoan parasites of the genus Entamoeba infect many classes of vertebrates and are primarily classified based on morphological criteria. To date, only a few species have been proven to cause disease. Here, we examined the pathology of infected pigs with hemorrhage and detected Entamoeba parasites. Isolates were characterized genetically and ultrastructurally to identify the species. Histopathologically, bleeding and thrombus formation were seen only in the large intestine mucosa, where a large number of trophozoites or some Entamoeba cysts were observed around breakdowns in the lamina propria. No screw-shaped bacteria were detected in the lesions, and no pathogenic bacteria such as Brachyspira spp. were detected in fecal cultures. Interestingly, electron microscopy revealed that the parasites possessed mitochondrial organelles, unlike other Entamoeba spp. The isolates were identified as Entamoeba suis by PCR analysis and sequencing of the small subunit ribosomal RNA (SSU rRNA) gene. In phylogenetic analyses based on the actin gene, the E. suis isolate formed a cluster with Entamoeba histolytica and Entamoeba invadens, as well as with other parasites of the Amoebidae. Whether the pathogenicity of the E. suis isolate is affected by the severity of infection or host health status remains unclear; however, our results suggest that E. suis could cause or exacerbate clinical symptoms such as hemorrhagic colitis or diarrhea.     

DNA polymerase activity in encysting Entamoeba invadens

Using an axenic encystation system of Entamoeba invadens as a model for E. histolytica encystation, we examined the level of DNA polymerase activity in E. invadens during encystation induced in vitro. We first characterized the DNA polymerase activity of trophozoites of E. invadens, comparing it with that of E. histolytica, and found that the activity of E. invadens was lower than that of E. histolytica at pH 2, 4, and 6 and was higher at pH 8 and 10. The activity of E. invadens was completely inhibited by high concentrations of K⁺. Among inhibitors of mammalian DNA polymerases, aphidicolin and N-ethylmaleimide inhibited the activity, but 2′,3′-dideoxythymidine-5′-triphosphate did not. Thus, the sensitivity of the E. invadens activity to salt and inhibitors of mammalian DNA polymerases was basically the same as that recorded for E. histolytica in our previous results. The level of DNA polymerase activity in cysts decreased as encystation proceeded as compared with that of trophozoites. The results indicate that encystation is accompanied by a reduced level of DNA polymerase activity, which correlates with the previous finding that nuclear division occurs during cyst maturation in the absence of DNA synthesis. Received: 28 November 1998 / Accepted: 16 December 1998     

Different effects of cytochalasins on the growth and differentiation of<Emphasis Type="Italic"> Entamoeba invadens</Emphasis>

The effect of five different cytochalasins on the growth, encystation and excystation of Entamoeba invadens was examined. At 10 M, cytochalasins B, D, E and dihydrocytochalasin B markedly inhibited growth. Encystation was inhibited by cytochalasin D at 1 M but not by other cytochalasins at the same concentration, whereas it was inhibited by 10 M of cytochalasins B, E and dihydrocytochalasin B as well as cytochalasin D. Excystation, which was assessed by counting the number of metacystic amoebae after inducing excystation, was markedly enhanced by cytochalasin D as previously demonstrated, whereas the enhancing effect of cytochalasins A, B and dihydrocytochalasin B was weak. In contrast, cytochalasin E at 10 M inhibited excystation and metacystic development. These results indicate that there is a difference in the effect of different cytochalasins on the growth and differentiation of E. invadens, depending on differences in their chemical structure.     

Effect of proteasome inhibitors on the growth,encystation, and excystation of <Emphasis Type="Italic">Entamoeba histolytica and Entamoeba invadens</Emphasis>

The effect of three proteasome inhibitors, lactacystin, clasto-lactacystin beta-lactone, and MG-132, on the growth, encystation, and excystation of Entamoeba histolytica and Entamoeba invadens was examined. All of these drugs blocked E. histolytica growth in a concentration-dependent manner; lactacystin was most potent for the inhibition and MG-132 showed the inhibitory effect only at higher concentrations. E. invadens was more resistant to these drugs than E. histolytica. Encystation of E. invadens was also inhibited and was more sensitive to the drugs than was growth. Beta-lactone was the most potent encystation inhibitor. The inhibitory effect of lactacystin and the beta-lactone on encystation was slightly and little abrogated by the removal of the drug, respectively. Multinucleation occurred in E. histolytica trophozoites treated with these drugs, being most marked with lactacystin. In contrast, no multinucleation was observed in E. invadens treated with the drugs. Electron microscopy revealed that the treatment of E. histolytica trophozoites with lactacystin led to an increase in the number of cells with many glycogen granules in the cytoplasm. Lactacystin, beta-lactone and MG-132 had no or little effect on the excystation and metacystic development of E. invadens. These results suggest that proteasome function plays an important role for Entamoeba growth and encystation, but has no obvious effect on excystation or metacystic development.     

Involvement of signaling through protein kinase C and phosphatidylinositol 3-kinase in the excystation and metacystic development of<Emphasis Type="Italic"> Entamoeba invadens</Emphasis>

Using an axenic excystation system in vitro, we examined the effect of protein kinase C (PKC) and phosphatidylinositol 3-kinase (PI3K), which are signaling molecules responsible for numerous cellular responses, on the excystation and metacystic development of Entamoeba invadens. Excystation, which was assessed by counting the number of metacystic amoebae after the induction of excystation, was inhibited by the PKC inhibitors staurosporine, chelerythrine chloride and calphostin C in a concentration-dependent manner during incubation, compared with the controls. As cyst viability was not affected by these inhibitors, reduced excystation was not due to their direct toxic effects on cysts. Metacystic development, when determined by the number of nuclei in the amoebae, was delayed by these PKC inhibitors, because the percentage of 1-nucleate amoebae was lower than in controls at day 3 of incubation. Wortmannin, a potent inhibitor of PI3K, also inhibited excystation and metacystic development of E. invadens in a concentration-dependent manner, compared with the controls. These results indicate that signaling through PKC and PI3K contributes to the excystation and metacystic development of E. invadens.     

Effect of artificial gastrointestinal fluids on the excystation and metacystic development of Entamoeba invadens

The effect of artificial gastric fluid (AGF), containing 0.5% pepsin and 0.6% hydrochloric acid, pH 1.8, in distilled water, on the excystation and metacystic development of Entamoeba invadens was examined. Excystation, which was assessed by counting the number of metacystic amoebae after inducing excystation, was enhanced by pretreatment of cysts with AGF for 30 to 60 min at 37°C but not 26°C. Longer exposure of cysts to AGF significantly reduced their viability. Significant enhancement of excystation was observed by pretreatment of cysts with distilled water only at 37°C. In addition, 0.6% hydrochloric acid had a comparable enhancing effect on excystation to AGF. Metacystic development, when determined by the number of nuclei in amoeba, was slightly enhanced by pretreatment with AGF. An artificial intestinal fluid (AIF), containing 1% pancreatin, 1% sodium bicarbonate, and 5% ox bile, pH 8.0, in distilled water, had a significant toxic effect on cysts, where 1% pancreatin had neither an enhancing effect on excystation nor a toxic effect on cysts, whereas 5% ox bile had a toxic effect on cysts. Pretreatment of cysts with AGF followed by AIF had a similar toxic effect on cysts to that by AIF only. These results suggest that gastric fluid but not intestinal fluid at 37°C contributes to enhancing excystation for Entamoeba infection.     

Expression analysis of Entamoeba invadens profilins in encystation and excystation

Cell motility by actin cytoskeleton is essential for differentiation processes of excystation and encystation of Entamoeba. We recently studied an actin depolymerizing factor (ADF)/cofilin (Cfl) of Entamoeba invadens (Ei), and demonstrated its contribution to the encystation and excystation of E. invadens through actin cytoskeletal reorganization. Profilin is also an actin-binding protein but its function is different from that of Cfl in actin assembly. This study investigated E. invadens profilins in relation to encystation and excystation which were induced in axenic culture systems. A homology search of the E. invadens genome database and molecular cloning identified four profilins of the parasite named EiPFN1, EiPFN2, EiPFN3, and EiPFN4. There were also multiple genes of profilin in Entamoeba histolytica (Eh) and Entamoeba dispar (Ed), each of which had three profilins. A search for conserved domains revealed that these profilins of Entamoeba had actin, phosphoinositide, and poly-proline binding sites. Phylogenetic analysis revealed that EiPFN3 and EiPFN4 formed the same clades including EhPFN3 and EdPFN3, and EhPFN2 and EdPFN2, respectively, while EiPFN1 and EiPFN2 were separated from EhPFN1 and EdPFN1. Rabbit anti-EiPFN1 serum reacted with recombinant EiPFN3 and EiPFN4 but not EiPFN2, and also reacted with EiPFN in lysates of cysts and trophozoites. Immunofluorescence staining with this antiserum showed co-localization of EiPFN with actin beneath the cell membrane through the life stages and also showed cytoplasmic localization. Both proteins proved to be rich in pseudopodia of trophozoites. Real-time RT-PCR showed that the mRNA level of EiPFN1 and EiPFN4 in trophozoites was comparable but that of EiPFN2 and EiPFN3 was very low. During encystation, the mRNA expression of EiPFN1 and EiPFN4 increased remarkably in the early phase much higher than that of EiPFN2 and EiPFN3. Then, the expression of all four PFNs sharply decreased in the later phase. This was in contrast to the sharp decrease in the mRNA level of EiCfl-2 during encystation in our previous study. In cysts, EiPFN1 was most abundantly expressed and EiPFN4 was at a lower level, while the expressions of EiPFN2 and EiPFN3 were virtually absent. Following the induction of excystation, mRNA levels of EiPFN1, EiPFN2, and EiPFN4 in cysts 5 h after induction were significantly higher than those in cysts before induction, while that of EiPFN3 was slightly higher than before induction. The mRNAs of EiPFN1 increased most extensively when the excystation was induced in the presence of cytochalasin D. Small interfering RNA (siRNA) to EiPFN1 inhibited both encystation and excystation but not growth. These findings demonstrate different expression of EiPFNs and the contribution of EiPFN to the encystation and excystation.     

Transient and stable transfection in the protozoan parasite Entamoeba invadens

Entamoeba histolytica is an important human pathogen and a major health problem worldwide. Many aspects of parasite biology can be studied with the exception of stage conversion, which cannot be reproduced adequately in E. histolytica. The reptile parasite Entamoeba invadens is a vital model system for studying stage conversion since it can be induced to undergo both encystation and excystation with high efficiency in vitro. However, functional studies using E. invadens have been limited by the lack of genetic tools in this species. Here, we report a new method for both transient and stable transfection of E. invadens. These new tools will greatly enhance research into Entamoeba development.     

Molecular biology of the hexokinase isoenzyme pattern that distinguishes pathogenic Entamoeba histolytica from nonpathogenic Entamoeba dispar

The electrophoretic patterns of hexokinase and phosphoglucomutase have been widely used to distinguish Entamoeba histolytica from Entamoeba dispar isolates. Although E. histolytica and E. dispar, previously called pathogenic and nonpathogenic Entamoeba histolytica, differ clearly in sequences of many homologous genes, a conversion between the two has been reported by several laboratories, in each case showing the conversion of hexokinase (ATP, d-hexose 6-phosphotransferase, EC 2.7.1.1) isoenzyme patterns. An apparent mobility shift of this enzyme may either be due to posttranslational modification or processing, or to the appearance of a new isoform encoded by a second gene. In this study we observed that the four observed bands in the isoenzyme patterns of pathogenic and nonpathogenic forms of Entamoeba were correlated with four different cDNAs, and that the four recombinant hexokinases produced in Escherichia coli comigrated with their natural counterparts. Polymerase chain reaction (PCR) experiments did not reveal hidden genes which might be responsible for conversion phenomena. These results strongly support the redefinition of pathogenic and nonpathogenic Entamoeba histolytica as two closely related species Entamoeba histolytica and Entamoeba dispar.     

Differential identification of Entamoeba spp. based on the analysis of 18S rRNA

Entamoeba histolytica is known to cause intestinal and extra-intestinal disease while the other Entamoeba species are not considered to be pathogenic. However, all Entamoeba spp. should be reported when identified in clinical samples. Entamoeba polecki, Entamoeba coli, and Entamoeba hartmanii can be differentiated morphologically from E. histolytica, but some of their diagnostic morphologic features overlap. E. histolytica, Entamoeba dispar, and Entamoeba moshkovskii are morphologically identical but can be differentiated using molecular tools. We developed a polymerase chain reaction (PCR) procedure followed by DNA sequencing of specific regions of 18S rRNA gene to differentiate the Entamoeba spp. commonly found in human stools. This approach was used to analyze 45 samples from cases evaluated for the presence of Entamoeba spp. by microscopy and a real-time PCR method capable of differential detection of E. histolytica and E. dispar. Our results demonstrated an agreement of approximately 98% (45/44) between the real-time PCR for E. histolytica and E. dispar and the 18S rRNA analysis described here. Five previously negative samples by microscopy revealed the presence of E. dispar, E. hartmanii, or E. coli DNA. In addition, we were able to detect E. hartmanii in a stool sample that had been previously reported as negative for Entamoeba spp. by microscopy. Further microscopic evaluation of this sample revealed the presence of E. hartmanii cysts, which went undetected during the first microscopic evaluation. This PCR followed by DNA sequencing will be useful to refine the diagnostic detection of Entamoeba spp. in stool and other clinical specimens.     

Prevalence and genetic diversity of Entamoeba species infecting macaques in southwest China

Many colonies of macaques (Macaca fascicularis and Macaca mulatta) are maintained in China, especially in Guangxi and Guizhou. A total of 803 fresh stool samples infected with Entamoeba were obtained from three big colonies of macaques located in southwest China. The samples were examined for the presence of five Entamoeba species using PCR. Entamoeba nuttalli, Entamoeba dispar, Entamoeba coli, and Entamoeba chattoni infections were detected, but Entamoeba histolytica infection was not. This study is the first to report on the prevalence of E. nuttalli in wild macaques from China. Eighteen E. nuttalli isolates and five E. dispar isolates were obtained by culturing the samples in Tanabe–Chiba medium. The serine-rich protein (SRP), ribosomal RNA (rRNA), hexokinase (HXK), glucose-6-phosphate isomerase (GPI), and phosphoglucomutase (PGM) genes of E. nuttalli isolates were compared with other reported isolates. The results showed clear differences among the Chinese E. nuttalli isolates and other isolates based on the SRP gene sequences. However, HXK, GPI, and PGM genes of these strains were similar to those of other isolates. The rRNA genes of E. coli and E. chattoni were also amplified and analyzed from these samples. The results suggested that host species might be a more important factor than geographic location in amebic genetic diversity.