Academic literature on the topic 'Eimeria tenella. Poultry'

Parasitosis occupies the third place in the world аmong animal diseases. Prevention of helminthoses in industrial poultry farming is based on a complex of measures aimed at effective neutralization of pathogens at different stages of their development. One of the most effective of them is dezinvasion. Dezinvasion in the industrial zones of poultry farms must be subject to premises and their equipment, inventory and all bird care items, walking grounds, poultry droppings. Determination of the resistance of the causative agent of poultry eimeriosis to the action of disinfectant «Deszan». The diagnosis of eimeriosis was established according to the results of laboratory studies of poultry droppings by the method of Füleborn. As the active substance, the preparation «Deszan» was used in a concentration of 2.0 and 3.0% with exposures of 2, 3 and 4 hours. When studying the influence of the disinfectant on the eimeria of the Eimeria tenella bird, it was found that when the oocyst is treated with the «Dezsan» preparation at a concentration of 2.0% with 2 hours exposure, the sporulation process stops in the oocysts. The observation was carried out for 5 days, however, no external changes were observed in the eimerias. When oocysts of coccidia were treated with a solution of the preparation «Deszan» at a concentration of 2.0 and 3.0%, during 3 hours of exposure, the sporulation process and compression of the cytoplasm were observed. The exposure of 3–4 hours observed in the field of view of the microscope rupture of shells and fragments of destroyed oocysts of coccidia. The disinfection effect of the «Deszan» preparation was established at a concentration of 2.0% with an exposure of 4 hours and 3.0% with an exposure of 3 hours to the ovine’s of the poultry Eimeria tenella. After 2 hours of exposure in oocysts, there was a decrease in sporulation and morphological changes in their cytoplasm.

Eimeria tenella (E. tenella) is one of the most frequent and pathogenic species of protozoan parasites of the genus Eimeria that exclusively occupies the cecum, exerting a high economic impact on the poultry industry. To investigate differentially expressed genes (DEGs) in the cecal tissue of Jinghai yellow chickens infected with E. tenella, the molecular response process, and the immune response mechanism during coccidial infection, RNA-seq was used to analyze the cecal tissues of an E. tenella infection group (JS) and an uninfected group (JC) on the seventh day post-infection. The DEGs were screened by functional and pathway enrichment analyses. The results indicated that there were 5477 DEGs (p-value < 0.05) between the JS and the JC groups, of which 2942 were upregulated, and 2535 were downregulated. GO analysis indicated that the top 30 significantly enriched GO terms mainly involved signal transduction, angiogenesis, inflammatory response, and blood vessel development. KEGG analysis revealed that the top significantly enriched signaling pathways included focal adhesion, extracellular matrix–receptor interaction, and peroxisome proliferator-activated receptor. The key DEGs in these pathways included ANGPTL4, ACSL5, VEGFC, MAPK10, and CD44. These genes play an important role in the infection of E. tenella. This study further enhances our understanding of the molecular mechanism of E. tenella infection in chickens.

In developing countries, animal production is being subjected to great pressure to satisfy the demand for animal protein required by the continuous increasing human population and to have surplus for international trade. Coccidiosis is a major health problem of poultries. This aim of this study is to determine the prevalence of caecal coccidiosis infections in poultry birds in Ekiti State. Three poultry sites were randomly selected and studied in Ekiti state. 10,000 birds were examined out of which 1033 birds tested positive to coccidiosis infection. Test tube floatations for faecal content and wet smear preparation for the caecal lining were done to test the presence of Eimeria tenella(Et)based on the dimension of oocyst and respiratory disease respectively. The result showed the highest percentage of Et infection in Yomi poultry farms in Ifaki Ekiti representing 6.8% while Daac poultry farms had the least percentage of 3%. The percentage occurrence of respiratory disease is highest in Daac farms with 6% and a least percentage of 3% in Christ's power poultry. The result implies that there is a still presence of Et infections in the poultries considered for study in Ekiti, thus the need for biosafety measures, information and protection programs against the disease.

Avian coccidiosis is a disease caused by members of the genus Eimeria. Huge economic losses incurred by the global poultry industry due to coccidiosis have increased the need for cost-effective and easily available recombinant vaccines. Microneme protein 2 (MIC2) and surface antigen 1 (SAG1) of E. tenella have been recognised as potential vaccine candidates. However, the genetic diversity of the antigens in field isolates, which affects vaccine efficacy, has yet to be largely investigated. Here, we analysed genetic diversity and natural selection of etmic2 and etsag1 in Korean E. tenella isolates. Both genes exhibited low levels of genetic diversity in Korean isolates. However, the two genes showed different patterns of nucleotide diversity and amino acid polymorphism involving the E. tenella isolates obtained from different countries including China and India. These results underscore the need to investigate the genetic diversity of the vaccine candidate antigens and warrant monitoring of genetic heterogeneity and evolutionary aspects of the genes in larger numbers of E. tenella field isolates from different geographical areas to design effective coccidial vaccines.

Eimeriosis is responsible for causing serious problems in poultry, mainly characterized by reduced weight gain and abnormalities of food conversion efficiency, thereby causing great economic losses. The aim of this study was to evaluate the epidemiology of eimeriosis in broiler chickens in the Araguaina region, State of Tocantins, Brazil. Samples from five farm properties were collected and sent to the Hygiene and Public Health Laboratory, School of Veterinary Medicine and Zootechnics, Federal University of Tocantins. From the parasitological analysis, it was shown that all the properties examined were positive for Eimeria species. 63.1% of the sheds were positive, with findings of oocysts of E. maxima, E. acervulina, E. mitis and E. tenella. It was concluded that all properties evaluated were positive for four species of the genus Eimeria, thus demonstrating that the sanitary strategies followed in poultry rearing had flaws that allowed pathogens to spread in poultry pens.

In the present study five Eimeria species viz. Eimeria tenella, E. acervulina, E. necatrix, E. maxima and E. brunetti responsible for coccidiosis are reported and its general prevalence was found to be 24 percent. Among the five Eimeria species, prevalence of E. tenella was recorded to be the highest (25%), followed by E. acervulina (15%), E. necatrix (10%). E. maxima (7%) and E. brunetti (3%). Altogether 400 stool samples (dropping) were collected by random sampling methods from four poultry farms. These samples were preserved in preservative solution (2% potassium dichromate solution). Stool samples were examined by thin feacal smear methods. There were altogether 96 cases of coccidiosis of which 25% were caecal, 35% intestinal and 40% mixed. Prevalence of coccidiosis was recorded in all the 12 months and four seasons of the study period. The highest (38%) prevalence rate was found in the month of July and the lowest (5.71%) in the month of October. The difference in monthly prevalence of Eimeria was insignificant (x2 =19.675, P<0.05). Similarly season wise prevalence showed the highest (35%) prevalence rate in the spring season followed by summer (25%), winter (23%) and autumn (12%). Season-wise difference in prevalence of Eimeria was found to be insignificant (x2= 7.815, P> 0.05). The age- wise prevalence was the highest (34.66%) in 61 weeks above chicken, followed by 30% in the 46-60 weeks age group, 22.5% in the 31-45 weeks age group, 17.14% in the 0-15 weeks age group and 15.78% in the 16-30 weeks age group. The difference in age- wise prevalence was found to be insignificant (x2= 9.488,P> 0.05). J. Nat. Hist. Mus. Vol. 28, 2014: 66-72

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.

ABSTRACT Eimeria tenella is the causative agent of coccidiosis in poultry. Infection of the chicken intestine begins with ingestion of sporulated oocysts releasing sporocysts, which in turn release invasive sporozoites. The monoclonal antibody E2E5 recognizes wall-forming body type II (WFBII) in gametocytes and the WFBII-derived inner wall of oocysts. Here we describe that this antibody also binds to the stieda body of sporocysts and significantly impairs in vitro excystation of sporozoites. Using affinity chromatography and protein sequence analysis, E2E5 is shown to recognize EtGAM56, the E. tenella ortholog of the Eimeria maxima gametocyte-specific GAM56 protein. In addition, this antibody was used to screen a genomic phage display library presenting E. tenella antigens as fusion proteins with the gene VIII product on the surfaces of phagemid particles and identified the novel 22-kDa histidine- and proline-rich protein EtGAM22. The Etgam22 mRNA is expressed predominantly at the gametocyte stage, as detected by Northern blotting. Southern blot analysis in combination with data from the E. tenella genome project revealed that Etgam22 is an intronless multicopy gene, with approximately 12 to 22 copies in head-to-tail arrangement. Conspicuously, Etgam56 is also intronless and is localized adjacent to another gam56-like gene, Etgam59. Our data suggest that amplification is common for genes encoding oocyst wall proteins.

Avian coccidiosis is an intestinal disease of chickens caused by several species of protozoan parasites within the genus Eimeria. The total cost of this disease has been estimated to be at least $ 3 billions per year to the worldwide poultry industry. In order to develop a new generation of vaccine which can provide a safer, more effective and cost-effective approach for avian coccidiosis control, bioinformatic and molecular approaches are used to predict and analyze the structures and functions of Eimeria antigens. In the present study, the information about structures and functions of the antigen SO7 of Eimeria tenella（E.tenella） MY strain was predicted using bioinformatics softwares and tools. The SO7 gene was predicted to encode a polypeptide of 216 amino acids with a putative molecular mass of 22.369 kDa , no transmembrane domain in the polypeptide and a predicted isoelectric point of 6.86. The acid sequence analysis showed that the potential antigenic epitopes are situated in 25-33, 84-91, 101-107,148-152, 157-162,193-200, and 206-212 amino acids. The results obtained from the present study may provide necessary data for further study of E.tenella SO7 and development of recombinant vaccines and epitope vaccines.

Background: Commercial poultry farming is expanding every day and contributing to the provision of affordable and high-quality protein. However, this sector is confronted with many diseases of which coccidiosis is among the most important. There are many registered patents affirming the health benefits of Garcinia kola in poultry. Objective: Evaluation of in vitro anticoccidial activities of the extracts and fractions of Garcinia kola against Eimeria tenella oocyst was carried out. Method: Fresh seeds of G. kola were collected, dried under shade at room temperature, and pulverized using a mortar and a pestle. The powder was exhaustively extracted with a soxhlet apparatus using 70% methanol, and the crude methanol extract (CME) was concentrated to dryness using a rotary evaporator. The CME was further partitioned using butanol, ethylacetate, and n-hexane. The CME, butanol fraction (BTF), ethylacetate fraction (EAF), and hexane fraction (HXF) were concentrated in vacuo and tested for the presence of phytochemical constituents using standard procedures. Similarly, the CME, butanol, ethyl acetate, and hexane fractions were evaluated in vitro for oocyst sporulation inhibition. Results: Phytochemical analysis revealed the presence of cardiac glycosides, saponins, carbohydrates, steroids/triterpenes, tannins, flavonoids, and alkaloids in the CME and BTF. The EAF contains all the metabolites mentioned except saponins. Similarly, HXF contains only cardiac glycosides, tannins, and steroids/ triterpenes. The CME and BTF caused a concentration-dependent increase in the inhibition of sporulation of unsporulated oocysts of E. tenella. In the acute toxicity studies, the CME did not produce any toxic effect or mortality at doses between 10 and 5000 mg/kg. The CME was then considered safe, and the LD50 was assumed to be >5000 mg/kg. Conclusion: The data obtained in this study suggested that the crude methanol extract (CME) of G. kola could be an appreciable beneficial effect as an anticoccidial agent against Eimeria tenella oocyst.

Coccidiosis is a disease caused by protozoa of the genus Eimeria ssp. These protozoa are intracellular parasites of enterocytes that rupture the host cell, causing damage to the intestinal mucosa. The lesions caused by Eimeria reduce nutrient uptake by broilers, affecting their productivity gain, and also represent a portal of entry for other enteropathogens. The aim of this study was to assess the correlation between lesions caused by Eimeria and the prevalence of coccidiosis and other gastrointestinal disorders among broilers reared in Brazil from 2012 to 2014. Intestinal health was evaluated at 82 poultry houses in Brazil, totaling 5,528 birds aged 12 to 40 days. The rearing period was divided into two phases: phase 1 (12 to 21 days) and phase 2 (22 to 40 days). The broilers, at least three per shed, were collected from three different sites. The following gastrointestinal aspects were analyzed in the present study: presence of cell desquamation, excess fluid, excess mucus, ingestion of contaminated litter, thickened intestinal walls, thin intestinal walls, movement of food bolus, abnormal intestinal tonus, Turkish towel appearance, verminosis, and necrotic enteritis. The classification of the scores for gross lesions caused by Eimeria acervulina, Eimeria maxima, and Eimeria tenella followed the method proposed by Johnson & Reid, [8] and the oocyst count of E. maxima (E. maxima micro) in the mucosa was performed under a light microscope at 100X magnification. The statistical analysis of the Pearson correlation coefficient was carried out by the SAS 9.3 software program [16], using a 95% confidence interval. The results of this study revealed that E. acervulina was the most prevalent (mean of 13.5%) species in both rearing stages. Also, there was a positive correlation with thin intestinal walls and abnormal intestinal tonus in phases 1 and 2, as well as a positive correlation with ingestion of contaminated litter in phase 2. The second highest prevalence was that of E. maxima (mean of 6.75%), with a positive correlation with excess mucus, thickened and thin intestinal walls in phase 1, and a positive correlation with cell desquamation, excess fluid, and Turkish towel appearance in phase 2. E. tenella yielded the lowest prevalence rates (mean of 4.35) among the analyzed Eimeria species, showing a positive correlation with excess fluid in phases 1 and 2 and with thickened intestinal walls and lesions caused by E. maxima in phase 2. The microscopic analysis demonstrated that E. maxima was found in 18% of mucosal scrapings in phase 1, which accounts for a subclinical coccidiosis rate of 282.98% compared with clinical coccidiosis. A positive correlation was observed for E. maxima micro between thickened intestinal walls and lesions caused by E. maxima. E. maxima was detected in mucosal scrapings of 29.6% of the broilers in phase 2, accounting for a subclinical coccidiosis rate of 236.37% compared with clinical coccidiosis. E. maxima micro revealed a positive correlation with excess fluid, necrotic enteritis, E. acervulina, E. maxima, and E. tenella in phase 2. The comparison between the rearing periods showed that subclinical coccidiosis affected 64.45% more broilers in phase 2 than in phase 1. In the gross analysis, E. acervulina was the most prevalent species in both rearing periods. A lesion score equal to 1 was the most frequent among all Eimeria species. Subclinical coccidiosis affected a significant number of broilers in the analyzed Brazilian flocks, and was correlated with several factors that reduce intestinal health. It may be concluded that monitoring is of utmost importance to find out the status of intestinal health of poultry. The microscopic detection of E. maxima (mean of 23.8%) is correlated with factors that negatively affect intestinal health.
A coccidiose é uma enfermidade causada por protozoários do gênero Eimeria ssp. Esses são parasitas intracelulares de enterócitos que rompem a célula hospedeira causando lesões na mucosa intestinal. As lesões causadas pelas Eimerias resultam em redução na capacidade de absorção de nutrientes, afetando o ganho produtivo dos frangos de corte, e representam uma porta de entrada para outros enteropatógenos. Sendo assim, o objetivo desse estudo foi analisar a correlação entre as lesões causadas pelas Eimerias, e a prevalência de coccidiose e de demais alterações encontradas no trato gastrointestinal de frangos de corte produzidos, no Brasil, no período de 2012 a 2014. As avaliações da saúde intestinal foram realizadas em 82 integrações de frangos de corte, no Brasil, totalizando 5.528 aves analisadas com idades entre 12 e 40 dias. O período de produção analisado foi dividido em duas fases: 1ª fase (12 aos 21 dias) e 2ª fase (22 aos 40 dias). Os frangos necropsiados foram coletados em três diferentes pontos e no mínimo três aves por galpão. No presente estudo foram analisadas as seguintes alterações do trato gastrintestinal: presença de descamação celular, excesso de fluido, excesso de muco, ingestão de cama, intestino espesso, intestino fino, passagem de alimento, tônus alterado, toalha turca, verminose e enterite necrótica. A definição dos escores macroscópicos de lesão causados pelas Eimeria acervulina, Eimeria maxima, Eimeria tenella seguiram a metodologia de Johnson & Reid [8], e a contagem de oocistos na mucosa para E. maxima (E. maxima micro) foi realizada com auxílio de microscópio óptico com aumento de 100 X. A análise estatística do coeficiente de correlação de Pearson foi feita com o programa SAS 9.3., com intervalo de confiança de 95%. Os resultados desse estudo demonstraram que a espécie E. acervulina foi a que apresentou maior prevalência (média de 13,5%) em ambas as fases de produção avaliadas. Ainda, referente à E. acervulina, observou-se correlação positiva com intestino fino e tônus intestinal alterado na 1ª e 2ª fase, bem como correlação positiva com ingestão de cama apenas na 2ª fase. A segunda maior prevalência foi da espécie E. maxima (média de 6,75%), obteu-se correlação positiva com excesso de muco, intestino espesso e fino na 1a fase e correlação positiva com descamação celular, excesso de fluído e toalha turca na 2a fase avaliada. A E. tenella representou a menor prevalência (média de 4,35) entre as espécies de Eimerias analisadas, apresentando uma correlação positiva na 1ª e 2ª fase com o excesso de fluído e na 2ª fase com o intestino espesso e com lesões de E. maxima. Na avaliação microscópica, a E. maxima esteve presente em 18% dos raspados de mucosa realizados na 1ª fase, o que representa uma coccidiose subclínica de 282,98% com relação a coccidiose clínica. Para a E. maxima micro foi detectada correlação positiva entre os achados com o intestino espesso e com as lesões de E. maxima. Na 2ª fase, E. maxima foi encontrada nos raspados de mucosa de 29,6% das aves, representando uma coccidiose subclínica de 236,37% com relação à coccidiose clínica. A E. maxima micro apresentou na 2ª fase uma correlação positiva com o excesso de fluido, enterite necrótica, E. acervulina, E. maxima e E. tenella. Na análise comparativa entre os períodos, a coccidiose subclínica acometeu 64,45% mais frangos de corte na 2ª fase em relação a 1ª fase. Na avaliação macroscópia de lesões relacionadas à coccidiose, a E. acervulina foi a espécie de maior prevalência em ambas fases de produção. O escore de lesão mais frequente para todas as espécies de Eimerias foi o de grau 1. A coccidiose subclínica acometeu um número expressivo de frangos de corte do plantel brasileiro e foi correlacionada com diversos fatores de diminuição de saúde intestinal. Concluiu-se que o monitoramento é de suma importância para conhecer o status de saúde intestinal dos lotes avícolas. Pois, a E. maxima microscópica está presente (média de 23,8%) com correlação aos fatores que reduzem a saúde intestinal.

In-vitro-Koinfektionsstudien mit Toxoplasma gondii und Eimeria tenella in primären Hühnermakrophagen Institut für Parasitologie der Veterinärmedizinischen Fakultät der Universität Leipzig Eingereicht im Feburar 2020 91 Seiten, 3 Publikationen, 2 eingreichte Manuskripte, 17 Abbildungen, 5 Tabellen, 188 Literaturangaben Schlüsselwörter: Toxoplasma gondii, Eimeria tenella, Koinfektion, Makrophagen, in vitro, Wirt-Parasit-Interaktion, Parasitenwachstum, Wirtsimmunantwort, Cell-imaging Einleitung: Toxoplasma gondii und Eimeria tenella sind intrazelluläre apikomplexe Parasiten, die in Hühnern weit verbreitet sind. Während Infektionen mit dem zoonotischen Erreger T. gondii beim Geflügel im Allgemeinen subklinisch verlaufen, kann E. tenella in Hühnerbeständen schwere Erkrankungen und wirtschaftliche Verluste verursachen. Aufgrund der hohen Seroprävalenz beider Parasiten bei Hühnern sind Koinfektionen wahrscheinlich. Hühnermakrophagen sind wichtig für die Wirtsimmunantwort gegen diese beiden Protozoen. Es ist jedoch wenig über die Wirt-Parasit- sowie Parasit-Parasit-Interaktion in Hühnermakrophagen während einer Koinfektion bekannt. Ziele der Arbeit: Ein geeignetes In-vitro-Koinfektionsmodell für T. gondii- und E. tenella-Infektionen in primären Hühnermakrophagen wurde erstellt und angewendet, um die Makrophagenantwort auf beide Parasitenarten und Koinfektionen zu untersuchen. Tiere, Material und Methoden: Von Monozyten abgeleitete Makrophagen wurden aus Hühnerblut isoliert und aufgereinigt. Eine Koinfektion mit zwei Tachyzoiten des RH-Stammes von T. gondii und zwei Sporozoiten des E. tenella-Houghton-Stammes pro Zelle wurde gleichzeitig oder nacheinander in vitro durchgeführt. Morphologische Veränderungen der Makrophagen und die Parasitenentwicklung wurden mittels Konfokalmikroskopie (CLSM) 2, 6, 12, 24, 48 und 72 Stunden nach Infektion (hpi) visualisiert. Die Parasitenvermehrung wurde evaluiert, indem die Expression des 529-bp-Fragments von T. gondii und des ITS-1-Genfragments von E. tenella durch qPCR bewertet wurden. Die Makrophagen-Phagozytose wurde durch Exposition gegenüber pH-sensitiven fluoreszierenden Biopartikeln stimuliert und durch ein dreidimensionales Modell unter Verwendung von CLSM und Imaris®-Software 2, 6, 12 und 24 hpi quantifiziert. Weiterhin wurden während der Infektion relevante Zytokine (IL-6, IL-10, IL-12, iNOS, TNF-α und IFN-γ) durch Genexpressionsanalyse 24, 48 und 72 hpi untersucht. Zusätzlich wurden die Zellinvasion durch und das Überleben von T. gondii im Verlauf einer sequentiellen Infektion evaluiert, indem Makrophagen zuvor der Infektion mit E. tenella ausgesetzt waren. Die Motilität invasiver Tachyzoiten wurde innerhalb von 20 hpi durch Live-Cell-Imaging verfolgt. Ergebnisse: Die Makrophagen zeigten eine deutliche immunologische Reaktion und Phagozytoseaktivierung ab 2 hpi. Signifikante Veränderungen der Morphologie mit erhöhter Zellvakuolisierung und -ablösung wurden ab 24 hpi während der Koinfektion beobachtet. Bei zuvor E. tenella-exponierten Makrophagen fiel auf, dass T. gondii bei hoher Motilität über 4 Stunden an der Makrophagenmembran anhaftete, bevor es zu einer Penetration kam. Ab 24 hpi vermehrten sich T. gondii in koinfizierten Makrophagen besser als E. tenella. Eine Koinfektion hemmte die Phagozytoseaktivität von Makrophagen nach 2 hpi erheblich, so dass Biopartikel nicht aufgenommen wurden (12 hpi). Mittels qPCR wurde gezeigt, dass bei sequenzieller Koinfektion 2 hpi circa 4-fach weniger T. gondii überlebten als bei Monoinfektion (P < 0,05). Die Anzahl beider Parasiten nahm während der simultanen Koinfektion zu, aber bei der sequentiellen Koinfektion war die Vermehrung von T. gondii im Vergleich zur Monoinfektion bis 24 hpi auf etwa die Hälfte reduziert. Bis 72 hpi verdoppelte sich die Anzahl von E. tenella, während T. gondii bei Koinfektion in diesem Zeitraum auf dem gleichen Niveau wie 48 hpi blieb. Die mRNA-Expression von iNOS (48 hpi), TNF-α (72 hpi) und von IL-10 (48 hpi und 72 hpi) war während der Koinfektion im Vergleich zur E. tenella Monoinfektion signifikant (P < 0,05) erhöht. Schlussfolgerungen: In dem Koinfektionsmodell wurde eine Interaktion zwischen T. gondii und E. tenella beobachtet. Zusätzlich zu den morphologischen Veränderungen und der Phagozytosehemmung der Makrophagen unterschieden sich die Parasitenvermehrung sowie die Zytokinexpression zwischen Koinfektion und Monoinfektion. E. tenella beeinträchtigt das aktive Eindringen von T. gondii in Wirtszellen, wie dies erfolgt, ist derzeit noch nicht geklärt.
In vitro co-infection studies on Toxoplasma gondii and Eimeria tenella in primary poultry macrophages Institute of Parasitology, Faculty of Veterinary Medicine, University of Leipzig Submitted in February 2020 91 pages, 3 publications, 2 submitted manuscripts, 17 figures, 5 tables, 188 references Keywords: Toxoplasma gondii, Eimeria tenella, co-infection, macrophages, in vitro, host-parasite interaction, parasite growth, host immune response, cell imaging. Introduction: Toxoplasma gondii and Eimeria tenella are intracellular apicomplexan parasites that are widely distributed in chicken. Whereas infections with the zoonotic pathogen T. gondii are generally subclinical in poultry, E. tenella may cause severe disease and economical loss in chicken herds. Due to the high seroprevelences with both parasites in chicken, co-infections are likely to exist. Chicken macrophages are essential in the host innate immune response against these two protozoa. However, little is known about the host-parasite and parasite-parasite interaction in chicken macrophages during co-infection. Objectives: A suitable in vitro model for both T. gondii and E. tenella infection in chicken primary macrophages was established and applied to study the course of infection in mono- or co-infection. Animals, materials and methods: Monocyte-derived macrophages were isolated and purified from chicken blood. Co-infection with two T. gondii RH strain tachyzoites and two E. tenella Houghton strain sporozoites per cell were performed simultaneously or sequentially in vitro. Morphologic alterations of macrophages and parasite development were visualized by confocal laser scanning microscopy (CLSM) at 2, 6, 12, 24, 48 and 72 hours post infection (hpi). Parasite growth was evaluated by assessing expression of the 529-bp fragment of T. gondii and ITS-1 gene fragment of E. tenella by qPCR in parallel. Macrophage phagocytosis was stimulated by exposure to pH sensitive fluorescent bioparticles and quantified by a three-dimensional model using CLSM and Imaris® software at 2, 6, 12 and 24 hpi. Furthermore, infection-related cytokines (IL-6, IL-10, IL-12, iNOS, TNF-α and IFN-γ) were evaluated by gene expression analysis at 24, 48, 72 hpi. The course of sequential infection was evaluated to determine cell invasion and survival of T. gondii in macrophages previously exposed to E. tenella sporozoites. Motility of invasive stages was tracked at the early phase of infection (within 20 hpi) by real time life cell imaging. Results：By cell imaging, macrophages displayed distinctly immunologic activation and phagocytosis at 2 hpi and thereafter. Significant changes of morphology with increased cell vacuolation and detachment were observed on 24 hpi during co-infection. T. gondii tachyzoites adhered for more than 4 hours to host cells displaying high motility instead of cell entry during the early sequential co-infection. However, T. gondii showed better replication than E. tenella in co-infected macrophages from 24 hpi onwards. Co-infection caused inhibition of phagocytosis by macrophages and bioparticles were not incorporated into co-infected cells at 12 hpi by CLSM. By qPCR, it was shown that approximately 4-fold less T. gondii survived in sequentially co-infected cultures at 2 hpi as compared to mono-infection (P < 0.05). Replication of both parasites increased during simultaneous co-infection whereas only half numbers of replicated T. gondii was found in sequential co-infection compared to mono-infection at 24 hpi. At the end of the study period (72 hpi), E. tenella multiplication tended to double increase while T. gondii replication was not distinctly altered during co-infection compared to 48 hpi. Expression of mRNA for iNOS at 48 hpi, for TNF-α at 72 hpi and for IL-10 at 48 and 72 hpi was significantly elevated during co-infection compared to mono-infection (P < 0.05). Conclusions：Mutual interaction between T. gondii and E. tenella were observed in the selected co-infection model. Increased macrophage stress may explain vacuolization and phagocytosis inhibition. In addition to morphologic alterations of macrophages, cytokine up/down- regulation differed between co-infected and mono-infected macrophage cultures. It appears that E. tenella, impairs the active penetration of T. gondii into host cells which deserves further study. The established in vitro infection model may serve to investigate host immune response of macrophages to diverse intracellular pathogens that infect chicken.

Eimeria spp. are parasites specialized in invade and replicate in the intestine, causing coccidiosis, an enteric disease of major economic importance worldwide. The disease causes losses in production and high morbidity ranging from bloody enteritis, with high mortality, to being subclinical silent but affecting feed intake and efficiency. However, intestinal lesions of the infection vary, depending on the species of coccidia. The most important Eimeria species in poultry are: E. tenella, E. acervulina, E. maxima, E. necatrix, E. mitis, E. praecox and E. brunetti. All those species affect different anatomic sites of the intestine. Thus, they alter the homeostasis of the host reducing nutrient absorption and utilization. Nutritional factors are key players in several steps of the coccidiosis disease. Firstly, as a susceptibility or protection factor, secondly, during the process of infection and pathogenesis, and thirdly, in the recovery and compensatory growth of the bird. Otherwise, coccidiosis also triggers immune response in the intestine. To counter these complicated effects, there are nutritional strategies (including formulation of key amino acids, vitamins, short and medium chain fatty acids, prebiotics, enzymes, among others) that can be utilized to reduce the infection, alleviate the signs, and boost the compensatory growth after infection. This chapter review the impacts of coccidiosis in nutrition and discuss about of strategies to mitigate these risks.