Eimeria meleagrimitis, E. adenoeides, and E. dispersa: Severity of infection and changes in the intestinal mucosa of the Turkey

Glucose and methionine were malabsorbed in some intestinal regions of turkeys infected with Eimeria meleagrimitis, E. adenoeides, or E. dispersa. The decrease in absorption was not always related to the numbers of parasites in the cells or the extent of damage to the mucosa. With E. adenoeides, malabsorption was found in the jejunum even though parasites were not present. Conversely, with E. dispersa, no malabsorption was observed in the duodenum even though light microscopy showed numerous parasites. In many intestinal regions, damage to the mucosal surface visible with scanning electron microscopy (SEM) was slight or absent, although malabsorption was marked. No changes were noted with SEM in the structure and orientation of the brush border in these regions. Villar height was significantly reduced in the regions of heaviest infection when intestinal damage was visible. Conversely, the crypts of Lieberkühn were often two or three times as deep in infected poults as in uninfected poults. In general, no differences were found in the thickness of the circular and longitudinal muscle layers between the infected and uninfected poults. The dry weight of the intestinal tissue was less from infected poults than from uninoculated controls and was related to both region of the intestine and severity of the infection.     

Eimeria Spp.: Influence of coccidia on digestion (amylolytic activity) in broiler chickens

Loss in pancreatic weight and an overall decrease in amylolytic activity in the pancreas were seen in broiler chickens infected with Eimeria acervulina, E. maxima, and E. necatrix. Only E. acervulina and E. maxima reduced amylolytic activity in the surface mucosa of the regions they infected. Surface-bound amylolytic activity decreased as the severity of infection (as measured by lesion score) with E. acervulina increased. This decrease in activity was not related to the decreased feed consumption in infected birds. Little decrease in amylase activity was found in the lumenal contents with the exception of E. acervulina in the jejunum. When the effect of pH on enzyme activity was studied in vitro, a marked reduction in amylolytic activity was observed as the pH went below 5.0.     

Eimeria acervulina, E. brunetti, and E. maxima: pathogenic effects of single or mixed infections with low doses of oocysts in chickens.

The pathogenic effects of E. acervulina, E. brunetti, and E. maxima were modified when chickens received mixed infections with these species.Six-week-old chickens were inoculated with doses of 20,000 oocysts of E. acervulina, 1250 oocysts of E. brunetti, and 5000 oocysts of E. maxima given as a single or mixed infection.Typical signs of coccidiosis were apparent in chickens infected with a single Eimeria sp. When birds were given infections composed of two species, the weight loss was greater than that due to either given alone but when three species were given, weight loss was slightly less than that due to infection will E. brunetti alone. Oocyst production due to E. acervulina tended to be similar in birds given this species alone or with E. brunetti. Output fell to less than 50% when E. acervulina was administered with E. maxima. Oocyst production due to E. brunetti and E. maxima decreased when these species were inoculated together and when they were administered with E. acervulina. Lesions of E. acervulina and E. brunetti were superimposed on those of E. maxima in birds given mixed infections.Growth retardation was not evident in chickens inoculated with E. acervulina alone, although weight loss increased when this species was administered with either E. brunetti or E. maxima.     

Effect of dietary zinc level on serum carotenoid levels,body and shank pigmentation of chickens after experimental infection with coccidia

Abstract

Two experiments were conducted to test the effects of a dietary zinc amino acid complex (Zn-AA) and an anticoccidial drug on Eimeria acervulina or Eimeria tenella infections. In each experiment, 288 day-old Three-Yellow-Chickens were used in a 2 × 3 factorial experimental design. Six groups were arranged randomly to receive three levels of Zn-AA (0, 40, or 80 mg/kg) alone or with salinomycin (60 mg/kg). Additionally an uninfected group was set as negative control. At the age of 21 days birds in Exp. 1 were inoculated with 3 · 10⁴ sporulated E. acervulina oocysts, while birds in Exp. 2 were inoculated with 1.5 · 10⁴ sporulated E. tenella oocysts. In Exp. 1, E. acervulina did not suppress growth performance significantly, but in groups without salinomycin it significantly reduced serum carotenoid levels on day 7 after inoculation and body and shank pigmentation on day 42. Salinomycin medication maintained serum carotenoids and visual colour of inoculated birds, but Zn-AA did not influence these parameters. In Exp. 2, growth performances of infected and uninfected chickens were similar. Infection decreased to only serum carotenoid levels on day 14 after infection, and colour scores on day 42 in the inoculated group without salinomycin and Zn-AA supplementation. The birds that received Zn-AA had significantly higher serum carotenoid levels and colour scores than those that did not. Although supplementation of Zn-AA cannot avoid coccidial damage of caecum, it prevents the reduction of serum carotenoids and pigmentation of Three-Yellow-Chicken infected with E. tenella, but not after infection with E. avervulina. The interactive effects between Zn-AA and salinomycin on growth performance and pigmentation were not significant.     

E. coli Infection Modulates the Pharmacokinetics of Oral Enrofloxacin by Targeting P-Glycoprotein in Small Intestine and CYP450 3A in Liver and Kidney of Broilers

P-glycoprotein (P-gp) expression determines the absorption, distribution, metabolism and excretion of many drugs in the body. Also, up-regulation of P-gp acts as a defense mechanism against acute inflammation. This study examined expression levels of abcb1 mRNA and localization of P-gp protein in the liver, kidney, duodenum, jejunum and ileum in healthy and E. coli infected broilers by real time RT-PCR and immunohistochemistry. Meanwhile, pharmacokinetics of orally administered enrofloxacin was also investigated in healthy and infected broilers by HPLC. The results indicated that E. coli infection up-regulated expression of abcb1 mRNA levels significantly in the kidney, jejunum and ileum (P<0.05), but not significantly in the liver and duodenum (P>0.05). However, the expression level of CYP 3A37 mRNA were observed significantly decreased only in liver and kidney of E. coli infected broilers (P<0.05) compared with healthy birds. Furthermore, the infection reduced absorption of orally administered enrofloxacin, significantly decreased C_max (0.34 vs 0.98 µg mL⁻¹, P = 0.000) and AUC_0-12h (4.37 vs 8.88 µg mL⁻¹ h, P = 0.042) of enrofloxacin, but increased T_max (8.32 vs 3.28 h, P = 0.040), T_1/2a(2.66 vs 1.64 h⁻¹, P = 0.050) and V/F (26.7 vs 5.2 L, P = 0.040). Treatment with verapamil, an inhibitor of P-gp, significantly improved the absorption of enrofloxacin in both healthy and infected broilers. The results suggest that the E. coli infection induces intestine P-gp expression, altering the absorption of orally administered enrofloxacin in broilers.     

Genetic variability of resistance to Eimeria acervulina and E. tenella in chickens

Summary The genetic variability of 18 sire families of the Athens-Canadian randombred population infected with coccidiosis was assessed by examining the response variables of weight gain, packed red blood cell volume, mortality and coccidial lesions. A significant gain and PCV depression and high lesion scores for Eimeria tenella and E. acervulina were produced in the infected group compared to the noninfected group. Significant variation among the sire families was observed for all of the response variables except E. acervulina lesions and a significant sex x sire interaction was observed for weight gain. The heritability (h²) estimates for the response variables revealed that resistance to coccidiosis in chickens is moderately heritable. The h² estimates for gain and PCV increased with the coccidial infections indicating that maximum progress in selecting for resistance should be made when the population was exposed to coccidial infection. Gain was positively correlated to the other measures of resistance and thus selecting for coccidial resistance should not reduce growth rates. PCV was similarly correlated but had higher positive correlation with E. tenella lesion. Percent mortality which is the selection parameter in most coccidial selection programs was correlated with resistance to coccidiosis. The phenotypic and genotypic correlations demonstrated that chickens susceptible to E. tenella were also susceptible to E. acervulina. Total lesion scores were moderately to highly correlated with the other variables and would be a suitable variable to use in coccidiosis experimentation including a genetic selection program for resistance. This study shows that progress could be made in selecting for resistance to coccidiosis in chickens using one or a combination of these response variables.     

Serum and liver zinc,copper, and iron in chicks infected withEimeria acervulina orEimeria tenella

Two-wk-old broiler chicks were inoculated via crop intubation withEimeria acervulina at two doses: 10⁵ or 10⁶ sporulated oocysts/bird or withEimeria tenella at a dose of 10⁵ sporulated oocysts/bird. Serum and liver samples were collected on days 3 and 6 post-inoculation (PI). There were no significant changes in serum or liver zinc, copper, and iron concentrations in any of the infected groups by 3 d PI. However, on d 6, PI serum protein was significantly reduced in all of the infected groups compared to their pair-fed controls. The chicks infected withE. tennella had significantly reduced serum zinc (1.20 vs 1.77 μg/mL) and iron (0.44 vs 1.28 μg/mL) concentrations and significantly elevated serum copper (0.28 vs 0.17 μg/mL) and ceruloplasmin levels (20.33 vs 11.11 μg/mL) compared to their pair-fed counterparts. Those chicks infected withE. acervulina (10⁶ oocysts/bird) exhibited significantly reduced serum iron concentration by 6 days PI (0.90 vs 1.14 μg/mL). Liver zinc was significantly increased in the chicks infected withE. tenella (349 vs 113 μg/g dry liver wt), as was copper (24 vs 19 μg/g), whereas liver iron concentration was significantly reduced (172 vs 243 μg/g) compared to pair-fed controls. At both dose levels, the chicks infected withE. acervulina exhibited a significant reduction in liver iron by 6 d PI. Hepatic cytosol metals generally reflected whole tissue levels. Metallothionein (MT)-bound zinc was significantly elevated in the chicks infected withE. tenella. Iron bound to a high molecular weight, heat-stable protein fraction (presumably cytoplasmic ferritin) was significantly reduced in chicks infected withE. acervulina, as well as those infected withE. tenella. Collectively, the changes in serum zinc, copper, and iron concentrations, as well as the changes in hepatic zinc and MT-zinc concentrations in the chicks infected withE. tenella were similar to changes evoked during an acute phase response to infection. It is possible that a secondary bacterial infection or inflammation stemming from erosion of the lining of the cecum may play a role in the response of trace element metabolism to theE. tenella infection. Mentions of a trademarkr, proprietary product or specific equipment does not consitute a guarantee or warranty by the US Department of Agriculture and does not imply its approval to the exclusion of other products.     

Anticoccidial Activity of Berberine against Eimeria-Infected Chickens

Avian coccidiosis has a major economic impact on the poultry industry, it is caused by 7 species of Eimeria, and has been primarily controlled using chemotherapeutic agents. Due to the emergence of drug-resistant strains, alternative control strategies are needed. We assessed anticoccidial effects of berberine-based diets in broiler chickens following oral infection with 5 Eimeria species (E. acervulina, E. maxima, E. tenella, E. mitis, and E. praecox). When 0.2% berberine, a concentration that does not affect weight gain, was added to the diet, the 4 groups infected with E. acervulina, E. tenella, E. mitis, or E. praecox showed significant reductions in fecal oocyst shedding (P<0.05) compared to their respective infected and untreated controls. In chickens treated 0.5% berberine instead of 0.2% and infected with E. maxima, fecal oocyst production was significantly reduced, but body weight deceased, indicating that berberine treatment was not useful for E. maxima infection. Taken together, these results illustrate the applicability of berberine for prophylactic use to control most Eimeria infections except E. maxima. Further studies on the mechanisms underlying the differences in anticoccidial susceptibility to berberine, particularly E. maxima, are remained.     

Correlation between intestinal health and coccidiosis prevalence in broilers in Brazilian agroindustries

Coccidiosis is caused by protozoa of the genus Eimeria. These are intracellular parasites of enterocytes that rupture the host cell, causing lesions in the intestinal mucosa. The lesions caused by Eimeria reduce nutrient absorption capacity, negatively affecting productive gains in broilers, and representing a gateway for other enteropathogens. The objective of this study was to analyze the correlation between lesions caused by Eimeria and the prevalence of coccidiosis and other alterations found in the gastrointestinal tracts of broilers produced in Brazil from 2017 to 2018. Intestinal health evaluations were performed in 32 integrations (farm) of broilers in Brazil, totaling 726 birds analyzed between the ages of 22 and 40 days. Necropsied chickens were collected at three different points, with at least three birds per shed. We analyzed the following changes in the gastrointestinal tract: presence of cellular desquamation, fluid and mucus excess, ingestion of bedding, small and large intestine lesion, food passage, altered tone, “Turkish towel” lesions, worm infection, enteritis and gizzard erosion. The definition of macroscopic lesion scores caused by Eimeria acervulina, Eimeria maxima, Eimeria tenella followed a specific methodology. Mucosal oocyst counts for E. maxima (E. maxima micro) was performed using an optical microscope with a magnification of 100×. We found that the species E. acervulina had the highest prevalence (5.5%). With respect to E. acervulina, a positive correlation was observed with cellular desquamation, bedding ingestion and passage of food. The second highest prevalence was E. maxima (average of 4%), showing positive correlations with cellular desquamation, fluid excess, bed ingestion, feed passage and E. acervulina. E. tenella represented the lowest prevalence (0.8%) among the species of Eimeria analyzed, showing a positive correlation with altered intestinal tone. On microscopic evaluation, E. maxima was present in 45% of mucosa scrapings, representing subclinical coccidiosis of 1125% (11.25-fold) greater than the rate of clinical coccidiosis. Regarding other alterations that were visualized in the gastrointestinal tract, we have recorded the incidence of altered intestinal tone (0.1%), worm infection (0.4%), small intestine (0.8%), enteritis (1%), duodenitis (1.5%), “Turkish towel” lesions (3.3%), excess fluid (4.5%), bed ingestion (6.9%), excess mucus (8.4%), food passage (10.3%), cellular desquamation (11%) and gizzard erosion (13.4%). We conclude that monitoring is of paramount importance to understand the intestinal health status of poultry lots. Microscopic E. maxima is present in 45%. We identified factors that correlate with reduction in intestinal health, impairing zoo-economic performance.     

Eimeria tenella,E. necatrix,E. acervulina,and E. maxima: Anticoccidial activity of 1,6-dihydro-6-oxo-2-pyrazinecarboxylic acid 4-oxide

The anticoccidial activity of an orotic acid analog, 1,6-dihydro-6-oxo-2-pyrazinecarboxylic acid 4-oxide (carboxyemimycin), was tested in battery experiments, utilizing 9-day-old Single-Comb White Leghorn cockerels. Carboxyemimycin, at 125 ppm and more in feed, exhibited marked anticoccidial activities against Eimeria tenella, E. necatrix, E. acervulina, and E. maxima. High doses of carboxyemimycin—up to 1000 ppm—did not cause any reduction in weight gains. The battery and in vitro studies with delayed and restricted medications revealed that carboxyemimycin affected the development of E. tenella in first and second generation schizogony and in gametogony.     

Eimeria acervulina, E. brunetti, and E. maxima: immunity in chickens with low multiple doses of mixed oocysts.

Young chickens inoculated with multiple low doses of mixed oocysts of Eimeria acervulina, E. brunetti, and E. maxima had a high level of resistance to reinfection with a mixed challenge dose on Day 28, Day 84, or Day 140. Immunity was enhanced when the number of immunizing doses was increased from three to four. Resistance was also high in birds maintained on a proprietary mixture of amprolium, ethopabate, and sulphaquinoxaline (Pancoxin-Merck, Sharp and Dohme Ltd.) during immunization, although immunity to E. acervulina was lower in these birds. Oocyst production was lower in birds given mixed infections as compared with that of birds given pure infections with similar doses of oocysts. Competition between species did not inhibit the development of immunity in birds given low doses of mixed oocysts.     

Dynamic of apoptosis of cells in duodenal villi infected with <Emphasis Type="Italic">Eimeria acervulina</Emphasis> in broiler chickens

The aim of our study was to evaluate the parasite — host interactions at apoptosis level. We studied histopathological changes and time course of apoptosis in the duodenum during Eimeria acervulina infection. One-day-old broiler chicks were randomly allocated into two equal groups. At the age of two weeks the first group was experimentally infected with a pure suspension of sporulated E. acervulina oocysts. The second group served as a negative control. Tissue samples from the upper part of duodenum were obtained at 0.5, 1, 2, 3, 4, 5 and 6 days post infection. Biopsies of duodenum were studied immunohistochemically using DeadEnd™ Colometric TUNEL System for apoptosis detection in duodenal mucosa. Number of parasites in duodenal epithelium was also investigated. Our experimental results demonstrate: (i) macroscopic and histopathological changes in epithelium detected mainly in proximal segment of duodenum in infected groups; (ii) the number of developmental stages of E. acervulina (DSEA) during our trial increased, reaching the maximum 5 days post infection (dpi) (332.2 ± 16.12) (mean ± SEM), whereas the amount of DSEA declined significantly as late as 6 dpi (124.6 ± 3.91); (iii) the highest apoptosis level was recorded in initiatory 0.5 dpi (13.2 ± 1.02) and on the end of parasite development cycle after 5 dpi (12.6 ± 1.36). Finally, results showed that there was a period of inhibition of apoptosis during infection by E. acervulina.     

Montanide™ ISA 71 VG adjuvant enhances antibody and cell-mediated immune responses to profilin subunit antigen vaccination and promotes protection against Eimeria acervulina and Eimeria tenella

The present study was conducted to investigate the immunoenhancing effects of Montanide™ ISA 71 VG adjuvant on profilin subunit antigen vaccination. Broiler chickens were immunized subcutaneously with a purified Eimeria acervulina recombinant profilin protein, either alone or mixed with ISA 71 VG, and host immune responses were evaluated. After secondary immunization, antigen-specific antibody and T-cell responses were higher in the group which received profilin plus ISA 71 VG compared with the other groups. Furthermore, body weight gains and fecal oocyst shedding were evaluated following oral challenge infection with live E. acervulina or Eimeria tenella oocysts. Vaccination with profilin plus ISA 71 VG reduced oocyst shedding compared with animals immunized with profilin alone. These results demonstrate that the recombinant profilin subunit vaccine, when given in combination with Montanide™ ISA 71 VG, augments protective immunity against E. acervulina and E. tenella.     

Eimeria acervulina,E. brunetti,E. maxima, and E. necatrix: Low doses of oocysts to immunize young chickens

Resistance to reinfection varied with the species of Eimeria and with the number of oocysts in the inoculum. Chickens immunized with doses of 20,000 and 80,000 oocysts of E. acervulina, 312 and 1250 oocysts of E. brunetti or E. necatrix, or 1250 and 5000 oocysts of E. maxima at 2 and 4 weeks of age, respectively, were almost completely immune to a challenge dose at 6 weeks of age. Resistance was slightly less in chickens immunized with 1250 and 5000 oocysts of E. acervulina or 312 and 1250 oocysts of E. maxima. Birds given three immunizing infections of 1250, 5000, and 20,000 oocysts of E. maxima were completely immune 8 weeks after the last dose. Resistance was slightly less in birds immunized with similar doses of E. brunetti or E. necatrix. Doses of 20,000, 80,000, and 320,000 oocysts appeared necessary to confer a high level of immunity to E. acervulina. More than three low doses of oocysts appear necessary to induce a complete and enduring immunity against a high challenge for E. acervulina, E. brunetti, and E. necatrix. Higher immunizing doses would not be satisfactory due to the pathogenic effects of the coccidia after the initial infection.     

Kinetics of phosphorus absorption by mycorrhizal and nonmycorrhizal tomato roots

Kinetics of P absorption were investigated in mycorrhizal (Glomus fasciculatus) and nonmycorrhizal tomato (Lycopersicon esculentum) roots to determine why increased ion absorption by mycorrhizae occurs. Initial rates of absorption of ³²P were measured at 1 to 100 micromolar KH₂PO₄ (pH 4.6). Absorption rates of mycorrhizae were about twice those of control roots. Augustinsson-Hofstee analysis yielded two linear phases; V_max and K_m were calculated for each phase. In the low phase (1 to 20 micromolar), V_max values for the mycorrhizal and nonmycorrhizal roots were each 0.10 micromoles P per gram fresh weight per hour while K_m values were 1.6 and 3.9 micromolar KH₂PO₄, respectively. For the high phase (30 to 100 micromolar), V_max values for mycorrhizal and nonmycorrhizal roots were 0.32 and 0.25 micromoles P per gram fresh weight per hour and K_m values were 35 and 42 micromolar, respectively. These results indicate that at the lower phase concentrations, similar to those expected in most soil solutions, a major factor contributing to the increased uptake was an apparent greater affinity of the absorbing sites for H₂PO₄⁻ (lower K_m).     

Developing an in vitro method for Eimeria tenella attachment to its preferred and non-preferred intestinal sites

A frozen section method utilising chicken intestinal tissue was developed to study the Eimeria tenella attachment ex vivo. In order to examine Eimeria-epithelial cell attachment, 10⁵E. tenella sporozoites were incubated with each caecal frozen section (6, 10 and 14 μm) for 1 h in 5% CO₂ incubator at 41 °C. E. tenella sporozoites attached successfully to enterocytes in 14 μm thick of caecal sections. Sporozoite attachment to caecal sections was shown to be dependent on the number of parasites added. To evaluate the method, E. tenella sporozoites were incubated to its preferred (caecum) and non-preferred (duodenum and jejunum) intestinal sites. The number of sporozoites attached to the caecal enterocytes was significantly greater (P < 0.0001) in comparison with the limited number of sporozoites attached to enterocytes of non-preferred intestinal sites. This method was shown to be able to reveal differences in binding capability and allows for comparison of intestinal site attachment.     

Tissue and Organ Specificity of Eimeria tenella (Railliet and Lucet, 1891) Fantham, 1909 in Cecectomized Chickens*†

SYNOPSIS. The ceca of 2-week-old chicks were surgically removed. One week post-operation each cecectomized bird was given 2 × 10⁶ sporulated Eimeria tenella oocysts per os. Birds from the same hatch, with intact ceca, served as controls and were infected the same time as the cecectomized birds. However, in order to reduce mortality, control birds were each given 1 × 10⁴ sporulated E. tenella oocysts per os. Four cecectomized and 5 control birds were killed 12, 24, 48, 72, 96, 120, and 144 hours after inoculation. Tissues from the small and large intestine of each bird proximal to the cecal junction were removed, processed by the dioxan method, and studied microscopically for developmental stages of the parasite. Developmental stages of the parasite were observed in all sections from the large intestine of cecectomized chickens. Initial sporozoite penetration and subsequent development of the parasite in this location was similar to that observed in the cecal mucosa of non-cecectomized chickens. No parasites were observed in sections of the small intestine of cecectomized birds 12 or 24 hours after inoculation, and findings after 48 and 72 hours were inconsistent. However, numerous parasites were observed in sections 96, 120, and 144 hours post-inoculation. In contrast, endogenous stages of the parasite were not seen in tissue sections of the small and large intestine of birds with intact ceca until 120 hours after inoculation. Numerous young gametocytes were then observed in sections from all birds. Similarly, mature gametocytes were observed in all fixed sections 144 hours after inoculation. No evidence was found that would indicate whether or not infection in the small and large intestine of birds with intact ceca or the small intestine of cecectomized birds was initiated by sporozoites or merozoites, nor was evidence found to suggest that development of any stage of the parasite was suppressed in these organs.     

Eimeria dispersa, E. adenoeides, and E. meleagrimitis: intestinal mucosal disruption in turkeys as seen with scanning electron microscopy.

Tissues from the digestive tract of turkeys infected with Eimeria dispersa, E. adenoeides, or E. meleagrimitis were compared with tissues from uninfected controls as seen with light microscopy (LM) and scanning electron microscopy (SEM). Six regions were examined--duodenum, jejunum, ileum, cecal neck, cecal pouch, and large intestine. Although LM showed large numbers of E. dispersa in the epithelial cells, SEM usually showed little mucosal disruption. Occasionally the surface of duodenum and jejunum, as seen with SEM, was convoluted and disrupted. In one bird, some parasite-induced damage was found with either LM or SEM in the duodenum and jejunum of turkeys given E. adenoeides oocysts. Although LM showed parasites in the rest of the digestive tract of all E. adenoeides infected birds, SEM showed only a localized sloughing of the mucosa in the cecal pouch. The most extensive damage to the villar surface was caused by E. meleagrimitis. Infections often disrupted the villar tips, especially in the small intestine and cecal neck. Localized areas of pitting were often found on individual villi. All 3 species produced oocyst extrusion sites, especially in the ileum and the ceca.     

Eimeria pragensis infection alters the gut microenvironment to favor extrinsic shiga toxin-producing Escherichia coli O157:H7 colonization in mice

We examined the effects of Eimeria pragensis infection on intestinal peristalsis, goblet cell proliferation and intestinal flora in C57BL/6 mice. Intestinal peristalsis was evaluated by radiography using barium at 7 days post-infection (p.i.). The intestinal peristalsis of E. pragensis-infected mice was significantly suppressed compared with uninfected control mice. Twenty-three mice were divided into 5 groups of 4 or 5 mice each; 2 groups of mice were infected with E. pragensis and the others were kept uninfected. At 7 days p.i., E. pragensis-infected and -uninfected mice were sacrificed to examine goblet cell numbers in the intestines, and significant decreases were observed only in the infected mice. Shiga toxin-producing Escherichia coli (STEC) O157:H7 was inoculated orally in mice both infected and uninfected with E. pragensis at 7 days p.i., with the remaining mice used as uninoculated controls. When mice were sacrificed at 2 days after STEC inoculation, STEC was only detected in the intestines of E. pragensis-infected mice. Colonization of STEC was also confirmed by immunohistochemistry on the surface of epithelial cells in concurrently infected/inoculated mice. Also, an overgrowth of residential E. coli was observed only in E. pragensis-infected mice. These results suggest that E. pragensis induces the suppression of intestinal peristalsis and modifies the intestinal environment to facilitate artificially introduced STEC colonization and multiplication, in addition to residential E. coli overgrowth.