A Novel Whole Yeast-Based Subunit Oral Vaccine Against Eimeria tenella in Chickens

Cheap, easy-to-produce oral vaccines are needed for control of coccidiosis in chickens to reduce the impact of this disease on welfare and economic performance. Saccharomyces cerevisiae yeast expressing three Eimeria tenella antigens were developed and delivered as heat-killed, freeze-dried whole yeast oral vaccines to chickens in four separate studies. After vaccination, E. tenella replication was reduced following low dose challenge (250 oocysts) in Hy-Line Brown layer chickens (p<0.01). Similarly, caecal lesion score was reduced in Hy-Line Brown layer chickens vaccinated using a mixture of S. cerevisiae expressing EtAMA1, EtIMP1 and EtMIC3 following pathogenic-level challenge (4,000 E. tenella oocysts; p<0.01). Mean body weight gain post-challenge with 15,000 E. tenella oocysts was significantly increased in vaccinated Cobb500 broiler chickens compared to mock-vaccinated controls (p<0.01). Thus, inactivated recombinant yeast vaccines offer cost-effective and scalable opportunities for control of coccidiosis, with relevance to broiler production and chickens reared in low-and middle-income countries (LMICs).

[1]  D. Werling,et al.  Impact of Eimeria tenella Oocyst Dose on Parasite Replication, Lesion Score and Cytokine Transcription in the Caeca in Three Breeds of Commercial Layer Chickens , 2021, Frontiers in Veterinary Science.

[2]  Wenjing Chen,et al.  Eimeria tenella: IMP1 protein delivered by Lactococcus lactis induces immune responses against homologous challenge in chickens. , 2020, Veterinary parasitology.

[3]  J. Rushton,et al.  Revisiting the Economic Impacts of Eimeria and Its Control in European Intensive Broiler Systems With a Recursive Modeling Approach , 2020, Frontiers in Veterinary Science.

[4]  J. Rushton,et al.  Re-calculating the cost of coccidiosis in chickens , 2020, Veterinary Research.

[5]  M. Kogut,et al.  Feeding of yeast cell wall extracts during a necrotic enteritis challenge enhances cell growth, survival and immune signaling in the jejunum of broiler chickens , 2020, Poultry science.

[6]  Wen-Tao Yang,et al.  Protective effects of a food-grade recombinant Lactobacillus plantarum with surface displayed AMA1 and EtMIC2 proteins of Eimeria tenella in broiler chickens , 2020, Microbial cell factories.

[7]  M. Awais,et al.  Immunomodulatory and ameliorative effects of Lactobacillus and Saccharomyces based probiotics on pathological effects of eimeriasis in broilers. , 2019, Microbial pathogenesis.

[8]  D. Hume,et al.  Dissecting the Genomic Architecture of Resistance to Eimeria maxima Parasitism in the Chicken , 2018, Front. Genet..

[9]  D. Hume,et al.  Phenotypic and genetic variation in the response of chickens to Eimeria tenella induced coccidiosis , 2018, Genetics Selection Evolution.

[10]  Ravinder Kumar Investigating the long-term stability of protein immunogen(s) for whole recombinant yeast-based vaccines , 2018, bioRxiv.

[11]  D. Ferguson,et al.  Development of cross-protective Eimeria-vectored vaccines based on apical membrane antigens. , 2018, International journal for parasitology.

[12]  Jian Li,et al.  Recombinant lactococcus lactis expressing Eimeria tenella AMA1 protein and its immunological effects against homologous challenge. , 2018, Experimental parasitology.

[13]  M. Nolan,et al.  Recombinant anticoccidial vaccines - a cup half full? , 2017, Infection, genetics and evolution : journal of molecular epidemiology and evolutionary genetics in infectious diseases.

[14]  F. Roohvand,et al.  Biomedical applications of yeast- a patent view, part one: yeasts as workhorses for the production of therapeutics and vaccines , 2017, Expert opinion on therapeutic patents.

[15]  R. Patterson,et al.  Effect of yeast-derived products and distillers dried grains with solubles (DDGS) on growth performance, gut morphology, and gene expression of pattern recognition receptors and cytokines in broiler chickens. , 2016, Poultry science.

[16]  P. Kaiser,et al.  Quantitative real-time PCR (qPCR) for Eimeria tenella replication — Implications for experimental refinement and animal welfare , 2015, Parasitology international.

[17]  Hui Sun,et al.  Evaluation of immune protective efficacies of Eimeria tenella EtMic1 polypeptides with different domain recombination displayed on yeast surface. , 2015, Experimental parasitology.

[18]  Tareq B. Malas,et al.  Genomic analysis of the causative agents of coccidiosis in domestic chickens , 2014, Genome research.

[19]  F. Breinig,et al.  Heat treatment improves antigen-specific T cell activation after protein delivery by several but not all yeast genera. , 2014, Vaccine.

[20]  Yihong Xiao,et al.  Display of Eimeria tenella EtMic2 protein on the surface of Saccharomyces cerevisiae as a potential oral vaccine against chicken coccidiosis. , 2014, Vaccine.

[21]  B. Verrier,et al.  Dectin-1 Is Essential for Reverse Transcytosis of Glycosylated SIgA-Antigen Complexes by Intestinal M Cells , 2013, PLoS biology.

[22]  I. Yoon,et al.  Efficacy of Saccharomyces cerevisiae fermentation product on intestinal health and productivity of coccidian-challenged laying hens. , 2012, Poultry science.

[23]  D. Ferguson,et al.  The Role of Sialyl Glycan Recognition in Host Tissue Tropism of the Avian Parasite Eimeria tenella , 2011, PLoS pathogens.

[24]  E. Brummer,et al.  Immune responses induced by heat killed Saccharomyces cerevisiae: a vaccine against fungal infection. , 2011, Vaccine.

[25]  M. Quail,et al.  Genetic Mapping Identifies Novel Highly Protective Antigens for an Apicomplexan Parasite , 2011, PLoS pathogens.

[26]  J. Poch On Chickens , 2010 .

[27]  G. Qi,et al.  Effect of Saccharomyces cerevisiae fermentation product on immune functions of broilers challenged with Eimeria tenella. , 2009, Poultry science.

[28]  D. Blake,et al.  Development and validation of real-time polymerase chain reaction assays specific to four species of Eimeria , 2008, Avian pathology : journal of the W.V.P.A.

[29]  Yi Ping Li,et al.  Evaluation of the suitability of six host genes as internal control in real-time RT-PCR assays in chicken embryo cell cultures infected with infectious bursal disease virus. , 2005, Veterinary microbiology.

[30]  A. Franzusoff,et al.  Yeasts encoding tumour antigens in cancer immunotherapy , 2005, Expert opinion on biological therapy.

[31]  Adrian L. Smith,et al.  The biology of avian Eimeria with an emphasis on their control by vaccination. , 2005, Advances in parasitology.

[32]  C. Hollenberg,et al.  Heterologous protein production in yeast , 1992, Antonie van Leeuwenhoek.

[33]  R. Willians Anticoccidial vaccination: The absence or reduction of numbers of endogenous parasites from grosslesions in immune chickens after virulent coccidial challenge , 2003 .

[34]  H. D. Chapman,et al.  The Houghton strain of Eimeria tenella: A review of the type strain selected for genome sequencing , 2003, Avian pathology : journal of the W.V.P.A.

[35]  R. Williams Anticoccidial vaccination: the absence or reduction of numbers of endogenous parasites from gross lesions in immune chickens after virulent coccidial challenge. , 2003, Avian pathology : journal of the W.V.P.A.

[36]  R. Williams,et al.  Comparison of an attenuated anticoccidial vaccine and an anticoccidial drug programme in commercial broiler chickens in Italy , 2002, Avian pathology : journal of the W.V.P.A.

[37]  R B Williams,et al.  Quantification of the crowding effect during infections with the seven Eimeria species of the domesticated fowl: its importance for experimental designs and the production of oocyst stocks. , 2001, International journal for parasitology.

[38]  R. Williams,et al.  The origins and biological significance of the coccidial lesions that occur in chickens vaccinated with a live attenuated anticoccidial vaccine , 2001, Avian Pathology.

[39]  D. Kuritzkes,et al.  Whole recombinant yeast vaccine activates dendritic cells and elicits protective cell-mediated immunity , 2001, Nature Medicine.

[40]  H. D. Chapman Practical use of vaccines for the control of coccidiosis in the chicken , 2000 .

[41]  R. Williams,et al.  A new protocol for a challenge test to assess the efficacy of live anticoccidial vaccines for chickens. , 2000, Vaccine.

[42]  D. R. Bond,et al.  The efficacy and economic benefits of Paracox, a live attenuated anticoccidial vaccine, in commercial trials with standard broiler chickens in the United Kingdom. , 1999, International journal for parasitology.

[43]  L. Rothwell,et al.  Comparison of immune responses in inbred lines of chickens to Eimeria maxima and Eimeria tenella , 1995, Parasitology.

[44]  R. Wyatt,et al.  Eimeria tenella: clinical effects in partially immune and susceptible chickens. , 1980, Poultry science.

[45]  H. D. Chapman Eimeria tenella in chickens: Studies on resistance to the anticoccidial drugs monensin and lasalocid , 1976 .

[46]  C C Norton,et al.  A guide to laboratory techniques used in the study and diagnosis of avian coccidiosis. , 1976, Folia veterinaria Latina.

[47]  J. Johnson,et al.  Anticoccidial drugs: lesion scoring techniques in battery and floor-pen experiments with chickens. , 1970, Experimental parasitology.