Interaction of antibodies with Entamoeba histolytica trophozoites from experimental amebic liver abscess: an immunocytochemical study

Using immunocytochemical techniques, we studied the interaction of antibodies with Entamoeba histolytica trophozoites present during the development of amebic liver abscess. Hamsters were intrahepatically inoculated with HM1-IMSS axenic amebas and sacrificed at different days post-inoculation. IgG of rabbit anti-E. histolytica and IgG of rabbit anti-IgG of hamster were used, both labeled with peroxidase. With the rabbit anti-E. histolytica, all trophozoites present in hepatic lesions from 1–7 days post-inoculation were highly labeled. The IgG of rabbit anti-IgG of hamster intensively stained only those trophozoites present in lesions from 1–2 days post-inoculation. From day 3, the intensity and number of labeled trophozoites decreased progressively. The results suggest that the interaction between the amebas and the IgG of hamster is non-specific during the first 2 days. The absence of labeling in the chronic stages could be due to changes in the membrane antigens of the parasite or to alterations in the bloodstream around necrosis. Also, the anti-E. histolytica antibodies produced in the serum during the development of the hepatic disease are apparently incapable of reaching and interacting with the trophozoites present on the liver abscess. This can explain in part why antibodies do not have an important role in the defense of the host. Received: 26 September 1999 / Accepted: 24 November 1999     

In vitro Entamoeba histolytica adhesion to human endothelium: a comparison using two strains of different virulence

Extraintestinal dissemination of Entamoeba histolytica is frequently manifested by the life-threatening amebic liver abscess (ALA). The hepatic establishment of amebas implies invasion of blood vessels and contact with the endothelium. By means of a fluorescence-based quantitative adhesion assay, we assessed the binding to human endothelial cells of two E.?histolytica strains of different virulence. The highly virulent strain (L-A) adhered substantially more strongly to unstimulated endothelium than the nonvirulent one (BG3). Attachment of L-A was increased by treatment of endothelial cells with interleukin-1β (IL1β). Other proinflammatory cytokines such as interferon-γ (IFNγ) and tumor necrosis factor-α (TNFα) did not modify the spontaneous adhesion capacity of amebas. For purposes of comparison we also performed adhesion of the parasites to skin fibroblasts. Adhesion to this cell type was quite low (相似文献   

In vivo and in vitro experimental intestinal amebiasis in Mongolian gerbils (Meriones unguiculatus )

  One of the main drawbacks of experimental amebiasis is the lack of an adequate animal model for invasive intestinal lesions. Mongolian gerbils are useful because both intestinal and hepatic amebiasis can be produced experimentally with Entamoeba histolytica trophozoites. In this paper we show results obtained with in vivo and in vitro models of intestinal amebiasis in gerbils. We inoculated gerbils intracecally with monoxenic cultures of a highly virulent E. histolytica HM1:IMSS substrain. In the in vivo model an increase in mucus production was observed during the first 6 h of interaction. Microulcerative mucosal lesions appeared at 24–72 h postinoculation. Inflammatory infiltrate and edema of the lamina propria were associated with superficial foci of necrosis. At 96 h the cecal mucosa had an almost normal appearance and live amebas were no longer detected. In the in vitro model, early damage was detected in cecal strips mounted in Ussing chambers as a rapid fall in potential difference, short-circuit current, and transepithelial resistance that correlated with the extent of the microscopic lesions produced. The latter consisted of cellular edema and the appearance of small, translucent vacuoles at the base of epithelial cells. Further damage led to loss of intercellular junctions, destruction of interglandular epithelial cells, and edema of the lamina propria. The present results demonstrate that the gerbil is useful as an experimental model for the analysis of early stages of invasive intestinal amebiasis both in vivo and in vitro. Received: 5 April 1996 / Accepted: 21 August 1996     

Invasive amebiasis: A microcirculatory disorder?

The two current models of invasive amebiasis both hold that direct contact of toxic molecules and amebas with tissue produces the necrotic areas characteristic of this disorder. Whereas one model characterizes these toxic molecules as amebic products (e.g., lectins, amebapores, cysteine proteinases and other proteolytic enzymes), the other describes them as products of the inflammatory response (e.g., cytokines, nitric oxide, reactive oxygen intermediates and cytotoxic granules). Both these models can account for necrotic areas with many amebas present and with acute inflammation, but not those with few or no amebas present or with scarce inflammation.A new model poses that an inadequate immune response leads to a continuous and prolonged activation of endothelial cells (ECs) by amebas, amebic molecules and cytokines, which triggers the mechanisms leading to necrosis. Other toxic molecules later contribute to EC activation: nitric oxide, reactive oxygen intermediates, the activated complement and proteases. Hyperactivated endothelial cells continuously express adhesion molecules (e.g., ICAM-1 and E-selectin), pro-coagulant molecules (e.g., tissue factor, von Willebrand factor, and the plasminogen activator inhibitor), resulting in ever greater inflammation and thrombosis, which eventually reduces or blocks blood flow in some vessels and starves certain tissue areas of an adequate oxygen and nutrient supply. When necrotic areas first develop, they are surrounded by inflammatory cells due to the acute inflammation at this stage. However, these cells are starved of oxygen and essential nutrients by the same microcirculatory dysfunction. The increasing concentration of nitric oxide during amebiasis eventually has an anti-inflammatory and vasodilating effect, creating a new mechanism for the microcirculatory dysfunction. This local microcirculatory dysfunction can explain necrotic areas in the presence of many, few, or no amebas, with abundant or scarce inflammation.     

Entamoeba histolytica : production of nitric oxide and in situ activity of NADPH diaphorase in amebic liver abscess of hamsters

Entamoeba histolytica trophozoites were inoculated into the liver of hamsters and serum nitrate/nitrite levels [expressed as nitric oxide (NO) production] were determined at different times during amebic liver abscess (ALA) development. We also tested the effects of NO synthase (NOS) inhibitors such as N ^G -nitro-L-arginine methyl ester (L-NAME), aminoguanidine, and dexamethasone during ALA production. Since NOS activity has been correlated with expression of reduced nicotinamide adenine dinucleotide phosphate diaphorase (NADPHd) in tissues, we performed histochemistry studies to determine the activity of the latter in livers infected with E. histolytica trophozoites. Production of NO in serum was directly proportional to the size of ALAs, and NOS inhibitors caused low levels of NO and smaller ALAs. Our data suggest that NO does not have any lytic effect on E. histolytica trophozoites and is therefore incapable of providing protection against the amebic liver infection. In addition, NADPHd activity was detected histochemically in hepatocytes and inflammatory cells associated with focal necrosis containing trophozoites. The positive reactivity observed in these parasites may be attributable to a close biochemical similarity of NADPHd to the NADPH:flavin oxidoreductase described in E. histolytica by other investigators. Received: 16 February 2000 / Accepted: 19 June 2000     

Inflammatory reaction in experimental hepatic amebiasis. An ultrastructural study.

One of the hallmarks of tissue necrosis produced by the human protozoan parasite Entamoeba histolytica, the causative agent of human amebiasis, appeared to be the lack of inflammatory reaction to the invading trophozoites. Recent evidence suggests, however, that inflammatory cells do appear during early stages of amebic destructive lesions and that they contribute to the establishment of foci of tissue necrosis in intestinal and liver lesions. The present analysis of the fine-structural changes that take place during early stages of amebic liver abscesses induced in hamsters after the intraportal inoculation of axenic amebas has shown that large numbers of polymorphonuclear leukocytes (PMNs) are recruited around invading amebas. These leukocytes lyse as a consequence of contact-mediated damage induced by the trophozoites. Amebas were also capable of ingesting apparently intact PMNs. Macrophages and eosinophils were also recruited at the foci of inflammation. At all times examined, trophozoites of Entamoeba histolytica survived in spite of being in close contact with PMNs or degranulating eosinophils. The ultrastructural observations have also shown the lack of direct contact between amebas and liver parenchymal cells during the initial stages of the focal liver necrosis induced by the parasite, therefore supporting the view that hepatic damage may be effected indirectly through lysis of inflammatory cells. The results also provide a basis for the understanding of the induction of experimental protective immunity against invasive amebiasis, a process which seems to be mostly dependent on cellular mechanisms.     

Cellular bases of experimental amebic liver abscess formation

The complete sequence of morphologic events during amebic liver abscess formation in the hamster has been studied, from the lodgement of amebas in the hepatic sinusoids to the development of extensive liver necrosis. Following intraportal inoculation of live amebas, the early stages of the lesion (from 1 to 12 hours) were characterized by acute cellular infiltration composed of an increasingly large number of polymorphonuclear leukocytes, which surrounded centrally located trophozoites. Histiocytes and lysed leukocytes were situated on the periphery of the lesions. Hepatocytes close to the early lesions showed degenerative changes which led to necrosis; however, direct contact of liver cells with amebas was very rarely observed. At later stages, the extent of necrosis increased, macrophages and epithelioid cells replaced most leukocytes, and well-organized granulomas developed. Extensive necrosis associated with fused granulomas was present by Day 7. The results suggest that Entamoeba histolytica trophozoites do not produce amebic liver abscesses in hamsters through direct lysis of hepatocytes. Rather, tissue destruction is the result of the accumulation and subsequent lysis of leukocytes and macrophages surrounding the amebas.     

Effect of HSP65 on the Expression of Adhesion Molecules in Mice Heart Endothelial Cells

This study aims to research the effect of HSP65 on the expression of adhesion molecules in activated mice heart endothelial cells (MHECs), which were from myocardial tissue of newborn animals. We used different concentrations of LPS as potent inducers to stimulate MHECs, adhesion molecule expression in vitro, including intercellular adhesion molecule-1 (ICAM-1), vascular adhesion molecule-1 (VCAM-1), E-, and P-selectins, then compared the mRNA and protein levels of adhesion molecules expression with or without HSP65 treatment at different levels. The optimal concentration of LPS to induce MHECs adhesion molecule expression is 100 ng/ml; HSP65 treatment significantly reduced the mRNA and protein levels of MHECs’ ICAM-1, VCAM-1, E-, and P-selectins expression (p < 0.05), and the optimal concentration of HSP65 in inhibiting MHECs activation is 0.8 ng. HSP65 has the inhibitory effect on adhesion molecules expression in activated MHECs.     

Intercellular adhesion molecule 1 is the major adhesion molecule expressed during schistosome granuloma formation.

Endothelial cell adhesion molecules play a key role in inflammation by initiating leukocyte trafficking. One of the most complex inflammatory responses is the formation of a cellular granuloma. Expression of adhesion molecules during granuloma formation was investigated by using the murine host reaction to schistosome parasite eggs deposited in the liver as a model. By both immunohistochemistry and lymphocyte adhesion assays, the predominant interaction identified was between intercellular adhesion molecule 1 (ICAM-1) and its cognate integrin, leukocyte functional antigen 1 (LFA-1). ICAM-1 expression on sinusoidal endothelium was induced when eggs were first deposited in the liver, peaked in parallel with granuloma size, and was downregulated with modulation of the granuloma. Polyacrylamide beads coated with soluble parasite egg antigens could induce ICAM-1 expression on endothelial cells in vitro only in the presence of tumor necrosis factor alpha, a cytokine previously shown to be key to granuloma formation. A role for ICAM-1 in recruiting lymphocytes to the hepatic granuloma was also supported by the observation that lymphocytes preincubated with anti-LFA-1 antibody did not bind to granulomas in tissue sections. While ICAM-1 is the predominant adhesion molecule in schistosome egg granuloma formation in wild-type mice, when the ICAM-1 gene is knocked out, vascular cell adhesion molecule 1 is upregulated and granuloma formation is preserved.     

Damage and activation of endothelial cells during in vitro hypoxia

We studied the effect of hypoxia on activation and stimulation of apoptosis in cultured endothelial cells. The effect of hypoxia was compared to that of apoptosis-inducing agents (tumor necrosis factor and bacterial lipopolysaccharide). Incubation of endothelial cells for 24 h under hypoxic conditions (2% O₂, 5% CO₂, and 93% N₂) increased secretion of von Willebrand factor, but had no effect on the expression of cell adhesion molecule ICAM-1. Tumor necrosis factor and lipopolysaccharide did not stimulate secretion of von Willebrand factor, but significantly increased the expression of ICAM-1. These data attest to significant differences in the mechanisms of endothelium activation under hypoxic conditions and during treatment with tumor necrosis factor or lipopolysaccharide. Hypoxia stimulated apoptosis in endothelial cells, which was seen from the increase in the number of annexin V-binding cells and activation of caspase-3. Similar changes were revealed in the presence of tumor necrosis factor and lipopolysaccharide. Hence, damage to endothelial cells caused by hypoxia and these compounds is mediated by similar mechanisms. __________ Translated from Byulleten’ Eksperimental’noi Biologii i Meditsiny, Vol. 144, No. 10, pp. 384–386, October, 2007     

Proliferation characteristics of cultured human aortic endothelial cells and expression of adhesion molecules

Basal expression of the adhesion molecules P-selectin and ICAM-1, which mediate adhesion and transendothelial migration of leukocytes, by endothelial cells of human aorta and umbilical vein and its relationship with the proliferative behavior of these cells are studied in primary prolonged cultures. Inverse proportionality between the percentage of resting endothelial cells and those expressing the adhesion molecules in preconfluent and confluent monolayers, on the one hand, and the percentage of cells in the active cycle which do not express the adhesion molecules, on the other, is demonstrated. This relationship is one of the major causes of thein vitro functional heterogeneity of the endotheliocyte population in the expression of adhesion molecules and its adhesiveness for leukocytes. Translated fromByulleten' Eksperimental'noi Biologii i Meditsiny, Vol. 122, No. 8, pp. 214–217, August, 1996     

Role of neutrophils in the pathogenesis of acute inflammatory liver injury

Polymorphonuclear leukocytes (neutrophils) are essential in the defense against invading microorganisms, tissue trauma or any inciting inflammatory signals. Hepatic infiltration of neutrophils is an acute response to recent or ongoing liver injury, hepatic stress or unknown systemic inflammatory signals. Once neutrophils reach the liver, they can cause mild-to-severe tissue damage and consequent liver failure. For neutrophils to appear in the liver, neutrophils have to undergo systemic activation (priming) by inflammatory mediators such as cytokines, chemokines, complement factors, immune complexes, opsonized particles and other biologically active molecules, e.g., platelet activating factor. Neutrophils accumulated in the hepatic microvasculature (sinusoids and postsinusoidal venules) can extravasate (transmigrate) into the hepatic parenchyma if they receive a signal from distressed cells. Transmigration can be mediated by a chemokine gradient established towards the hepatic parenchyma and generally involves orchestration by adhesion molecules on neutrophils (beta(2) integrins) and on endothelial cells (intracellular adhesion molecules, ICAM-1). After transmigration, neutrophils adhere to distressed hepatocytes through their beta(2) integrins and ICAM-1 expressed on hepatocytes. Neutrophil contact with hepatocytes mediate oxidative killing of hepatocytes by initiation of respiratory burst and neutrophil degranulation leading to hepatocellular oncotic necrosis. Neutrophil-mediated liver injury has been demonstrated in a variety of diseases and chemical/drug toxicities. Relevant examples are discussed in this review.     

Expression of intercellular adhesion molecule-1 and lymphocytefunction-associated antigen-1 in experimental Schistosoma mansoni infection and in synchronous periparticular hepatic granulomas in mice: immunohistochemistry, confocal laser scanning microscopy, and immunoelectron microscopy

Adhesion molecules play an important role in inflammatory and immunological responses. We assessed the expression pattern of intercellular adhesion molecule-1 (ICAM-1) and lymphocytefunction-associated antigen-1 (LFA-1) in the livers of mice experimentally infected with Schistosoma mansoni and in synchronous hepatic granulomas induced by injection of soluble egg antigen (SEA)-coupled Sepharose beads in a mesenteric vein of mice. By immunohistochemistry, confocal laser scanning microscopy, and immunoelectron microscopy, ICAM-1 was localized on endothelial cells, sinusoidal-lining cells (Kupffer cells and sinusoidal endothelium), the hepatocyte cell membrane facing Disse's space, and inflammatory cells in the granuloma. LFA-1 was visualized on the inflammatory cells of the granuloma and on phagocytic sinusoidal-lining cells, most likely Kupffer cells. ICAM-1- and LFA-1-immunoreactive cells were present in the granuloma as early as at 3 days after injection of SEA-coupled beads and persisted with time. As granulomas became older, nonimmunoreactive granuloma cells appeared. We conclude that adhesion molecules play an important role in the genesis of the schistosomal granuloma. Received: 16 September 1996 / Accepted: 24 October 1996     

High prevalence of infection with Entamoeba dispar, but not E. histolytica, in captive macaques

A total of 268 nonhuman primates (20 species) kept in the Primate Research Institute, Kyoto University, Japan, were surveyed for intestinal amebas. Total positive rates as based on the presence of cysts in the stool following formalin-ether sedimentation were as follows: Entamoeba histolytica/E. dispar, 53%; E. coli, 34%; E. hartmanni, 34%; Iodamoeba buetschlii, 25%; Endolimax nana, 8%; and E. chattoni, 3%. Positive rates were higher in Old World monkeys and lower in New World monkeys. All the 141 E. histolytica/E. dispar-positive animals were Macaca monkeys. The E. histolytica/E. dispar-positive samples were analyzed by polymerase chain reaction (PCR) for identification of E. histolytica and E. dispar. E. dispar DNA was detected in 137 samples, whereas no E. histolytica DNA was seen. Zymodeme analysis and reactivity to monoclonal antibodies of cultured trophozoites also supported the presence of E. dispar and the absence of E. histolytica. When the sera of 93 macaques were examined by an indirect fluorescent antibody test, only 3 animals proved to be positive for E. histolytica, showing the lowest titer. These results demonstrate that infection with E. dispar, but not E. histolytica, is predominant in macaques. Received: 23 March 2000 / Accepted: 3 July 2000     

DNA characterization of simian <Emphasis Type="Italic">Entamoeba histolytica</Emphasis>-like strains to differentiate them from <Emphasis Type="Italic">Entamoeba histolytica</Emphasis>

Two simian Entamoeba histolytica-like strains, EHMfas1 and P19-061405, have been suggested to represent a new species based on genetic characterization. Sequence analyses of the hexokinase, glucose phosphate isomerase, and phosphoglucomutase genes supported the previous findings of isoenzyme analyses demonstrating a new zymodeme pattern. Phylogenetic studies of 18S rDNA, 5.8S rDNA, the chaperonin 60 gene, and the pyridine nucleotide transhydrogenase gene showed original clusters of simian E. histolytica-like strains below or near E. histolytica, respectively. Comparative studies of the chitinase and the serine-rich E. histolytica protein genes and locus 1–2 region revealed that most mutated units were shared among the simian E. histolytica-like strains. The similarities of each of the repeating units within the simian E. histolytica-like strains or E. histolytica and the differences of those between the both might be generated by concerted evolution. Our results indicate that EHMfas1 and P19-061405 should be considered to be the same species, despite that they were isolated from different monkey species and different habitats. Simian E. histolytica-like amebas may be endemic to macaque monkeys, as a counterpart to E. histolytica in humans, and should be differentiated from E. histolytica by the revival name Entamoeba nuttalli, as proposed for P19-061405.     

Phagocytosis and proteinase activity are not related to pathogenicity ofE. histolytica

To examine the relationship between phagocytosis, proteinase activity and pathogenicity of axenically grown trophozoites ofE. histolytica strain HM-1IMSS four different cultures were used: (1) a culture preserved in our laboratory for over 4 years, which lost its pathogenicity 3 years ago; (2) a culture passaged several times through hamster liver, which lost its pathogenicity recently; (3) a highly virulent culture supplied by another laboratory; and (4) amebas recovered from hamster liver abscesses caused by culture 3. Phagocytosis was measured as erythrophagocytosis. Proteinase activity was determined on azocasein. Pathogenicity was defined as the capacity to cause liver abscesses in hamsters. A negative correlation was found between phagocytic activity and pathogenicity, since amebas unable to cause liver abscesses had the highest phagocytic activity, whereas those recovered from liver abscesses had the lowest phagocytic activity. The percent of phagocytic amebas showed wide variations through a 2-month observation period, with no change in amebic pathogenicity. No correlation was found between the level of proteinase activity and pathogenicity. It is concluded that neither phagocytosis nor proteinase activity is an adequate marker of amebic pathogenicity.     

The Treponema pallidum outer membrane protein Tp92 activates endothelial cells via the chemerin/CMKLR1 pathway

Endothelium damage caused by Treponema pallidum is the key step in the systemic dissemination and pathophysiology of syphilis, particularly cardiovascular syphilis and neurosyphilis. However, the molecular mechanisms supporting endothelium damage of syphilis are undefined. The outer membrane proteins were thought to be involved. Tp92 was first identified as an outer membrane protein of T. pallidum. Homologous proteins to Tp92 play important roles in cell attachment, inflammation, and tissue destruction in other bacterial species. In this study, we investigated the effect of Tp92 on endothelial cells activation. The data showed that Tp92 induced chemerin production in activated endothelial cells. Endothelial cell-derived chemerin upregulated the expression of TNF-α and ICAM-1 in endothelial cells via CMKLR1. In addition, endothelial cell-derived chemerin promoted THP-1-derived macrophage migration towards endothelial cells. These findings suggest that Tp92 may play an important role in mediating endothelial cell activation by inducing the secretion of chemerin.     

Dose- and time-dependent functional and structural damage to the colon mucosa byEntamoeba histolytica trophozoite lysates

Analysis of the initial interaction betweenEntamoeba histolytica trophozoites and the large intestine is impossible in humans and very difficult in experimental animals. To circumvent this obstacle we treated the luminal side of full-thickness rabbit colon segments mounted in Ussing-type chambers with trophozoite lysates of theE. histolytica HM1 virulent strain. Exposure to lysates for up to 90 min produced dose- and time-dependent effects on the colon, consisting of (a) increased decay rates for potential difference, short-circuit current, and transmural resistance and (b) mucosal damage ranging from vacuolation at the bases and shortening of epithelial cells to the loss of intercellular junctions, destruction of microvilli, and necrosis of interglandular epithelial zones. This acute model of intestinal amebiasis is sensitive, fast, and reliable.     

Diagnosis of Amebic Liver Abscess and Amebic Colitis by Detection of Entamoeba histolytica DNA in Blood,Urine, and Saliva by a Real-Time PCR Assay

The noninvasive diagnosis of amebic liver abscess is challenging, as most patients at the time of diagnosis do not have a concurrent intestinal infection with Entamoeba histolytica. Fecal testing for E. histolytica parasite antigen or DNA is negative in most patients. A real-time PCR assay was evaluated for detection of E. histolytica DNA in blood, urine, and saliva samples from amebic liver abscess as well as amebic colitis patients in Bangladesh. A total of 98 amebic liver abscess and 28 amebic colitis patients and 43 control subjects were examined. The real-time PCR assay detected E. histolytica DNA in 49%, 77%, and 69% of blood, urine, and saliva specimens from the amebic liver abscess patients. For amebic colitis the sensitivity of the real-time PCR assay for detection of E. histolytica DNA in blood, urine, and saliva was 36%, 61%, and 64%, respectively. All blood, urine, and saliva samples from control subjects were negative by the real-time PCR assay for E. histolytica DNA. When the real-time PCR assay results of the urine and saliva specimens were taken together (positive either in urine or saliva), the real-time PCR assay was 97% and 89% sensitive for detection of E. histolytica DNA in liver abscess and intestinal infection, respectively. We conclude that the detection of E. histolytica DNA in saliva and urine could be used as a diagnostic tool for amebic liver abscess.Entamoeba histolytica is a protozoan parasite that causes amebic diarrhea, colitis, and amebic liver abscess (ALA), mostly in developing countries (5, 7, 22, 25). Eighty percent of infected individuals remain asymptomatic carriers, while the other 20% develop clinically overt disease (7, 9, 22, 25). About 50 million symptomatic cases of amebiasis occur worldwide each year, resulting in 40,000 to 100,000 deaths annually (25). Mortality from amebiasis is mainly due to extra-amebic colitis, of which ALA is the most common.It is difficult to differentiate ALA from pyogenic liver abscess or other space-occupying lesions of the liver. Imaging techniques such as ultrasound, computed tomography, and magnetic resonance have excellent sensitivities for the detection of liver abscess arising from any cause, but there are no findings specific for ALA (13). Further complicating the diagnosis is the fact that most patients with an ALA do not have coexistent intestinal infection with E. histolytica (11). Therefore, detection of E. histolytica antigen or DNA in stool samples is not very helpful for the diagnosis of ALA (1, 6, 8, 12).The current means for diagnosis of ALA is the detection of antiamebic antibody by serological tests combined with aspiration of the abscess. The presence of serum antibodies against E. histolytica and the absence of bacteria in the abscess fluid are consistent with an ALA. A drawback of serologic tests is that the serum antibody levels in people from areas of endemicity remain positive for years after infection with E. histolytica (3, 16, 23). Therefore, antiamebic antibodies in the serum may be due to amebiasis in the past, limiting their specificity for the diagnosis of ALA. A further limitation to the current approach to ALA diagnosis is that collection of liver abscess pus is an invasive procedure that requires technical expertise and can be done only in specialized hospitals.Several groups have reported the detection of E. histolytica DNA in liver abscess pus, stool, and other clinical samples by PCR (14, 15, 18, 19, 21, 24, 26). A real-time PCR assay has also been used for detection of E. histolytica DNA in stool and liver abscess pus specimens (2, 10, 20). Real-time PCR has never been used for detection of E. histolytica DNA in urine, saliva, and blood specimens of ALA patients. In this study, we evaluated a real-time PCR assay to detect E. histolytica DNA in blood, urine, and saliva samples of amebic liver abscess and colitis patients in Bangladesh.