Prebiotics modulate immune responses in the gut-associated lymphoid tissue of chickens.

The recent European Union ban on the prophylactic use of in-feed antibiotics has escalated the search for alternatives for use within the poultry industry. When evaluating the efficacy of potential antibiotic alternatives on bird health and productivity, it is important to analyze the competence of the immune cells in the gut-associated lymphoid tissue (GALT), because it is routinely involved in the surveillance of colonizing microbes as well as in interacting with the ingested feed antigens. Therefore, we studied the effect of the prebiotics mannan-oligosaccharide (MOS) and fructo-oligosaccharide (FOS) on the phenotypic and functional competence of immune cells in cecal tonsil (CT), which is a major GALT. Day-old Cobb 500 male broilers were randomized to 4 groups. Control chickens were fed the basal diet only. Chickens in experimental groups received 0.05 g/kg zinc bacitracin or 5 g/kg of either FOS or MOS in addition to basal diet. At the end of 25 d, our comparison of the experimental groups with controls revealed that the addition of prebiotics to diet resulted in a significant reduction in the proportion of B cells and in mitogen responsiveness of lymphocytes in CT. Furthermore, FOS treatment significantly enhanced the IgM and IgG antibody titers in plasma. These findings emphasize the need for the analyses of the gut immune function following treatment with novel feed additives. The knowledge obtained from such analyses may aid in understanding the mechanisms underlying the immune competence of the birds, which needs consideration when selecting and optimizing new feed additives instead of antibiotics for poultry production.

Development of an anti-porcine CD34 monoclonal antibody that identifies hematopoietic stem cells.

OBJECTIVES: The isolation of porcine hematopoietic stem cells (HSC) would be an important step toward development of porcine-to-human chimerism for induction of tolerance in clinical xenotransplantation. CD34 is a common marker of HSC and has not been developed as a marker in pigs. In this study we have generated and characterized a monoclonal antibody (mAb) that identifies porcine CD34 on a subset of porcine bone marrow (BM) stem/progenitor cells. METHODS: The porcine CD34 gene was cloned and a recombinant protein produced. An anti-porcine CD34 mAb was produced that could detect both the recombinant protein and a subset of porcine BM cells. The CD34(+) cells were phenotyped by lineage and HSC associated markers. Furthermore, the CD34(+) cells were analyzed by colony-forming unit (CFU) assay. RESULTS: Two splice variants of the porcine CD34 gene were cloned and a recombinant protein produced for mAb production. The mAb developed can detect both the recombinant protein and the native CD34 protein on a range of pig tissues, including BM. This subset of BM cells was negative for hematopoietic lineage makers, including CD3, CD14, and CD21 and positive for other known porcine HSC markers, including CD90, CD172a, histocompatibility complex (MHC) class I, and MHC class II. Moreover, the CD34(+) BM cells were enriched for multilineage progenitor cells as determined by CFU assay. CONCLUSIONS: Similar to human and mouse CD34, pig CD34 detects a subset of BM progenitor cells. This mAb will now provide a means for isolating porcine CD34(+) cells to be further analyzed for HSC activity and to assess their potential to develop pig-to-human chimeras to induce xenograft tolerance.

IFN-gamma enhances immune responses to E. coli infection in the chicken.

Escherichia coli infection of the respiratory system in chickens occurs as a sequel to a variety of environmental stressors or microbial infections, culminating as chronic respiratory disease (CRD) syndrome or colibacillosis. These diseases cause significant production losses in poultry. With the growing concerns about the use of antibiotics in animal production, for diseases such as CRD, alternative natural agents, like cytokines, may be considered for enhancing health by stimulating the immune system. The current study was aimed at understanding the in vivo effects of recombinant chicken interferon-gamma (ChIFN-gamma) treatment on a variety of immunologic parameters during E. coli infection in chickens. Administration of ChIFN-gamma to chickens increased the percentage of phagocytes in lung and blood of E. coli-infected birds. At the phenotypic level, there was an increase in the percentage of cells expressing MHC II in the air sac, with a concomitant reduction in the proportion of these cells in blood. Furthermore, the blood plasma from ChIFN-gamma-treated infected birds showed an increased level of interleukin-6 (IL-6) activity. Cumulatively, these findings are indicative of in vivo enhancement of immune responses due to ChIFN-gamma. However, administration of ChIFN-gamma protein did not mitigate the development of air sac lesions following E. coli infection.

Administration of porcine interleukin-3 induces increased levels of blood eosinophils.

Increasing resistance to anthelmintic drugs indicates a vital need to develop alternative strategies to control helminth infections. Interleukin-3 (IL-3) is a multilineage hematopoietic growth regulator produced by activated T lymphocytes in response to infection. In helminth infections, eosinophils play an important role in the elimination of parasites through their recruitment of inflammatory cells and the release of granules. The ability of IL-3 to stimulate the development of eosinophils makes it a particularly important candidate for therapeutic use to protect against parasites. To enable the role of IL-3 in the development, growth, and differentiation of porcine eosinophils to be elucidated, recombinant IL-3 (rPoIL-3) was expressed and purified. As the amino acid sequence identities between porcine IL-3 and other reported species were quite low ( approximately 39% between human and pig), an assessment of the in vitro activity of rPoIL-3 was made. The culture of porcine bone marrow (BM) cells with rPoIL-3 stimulated the proliferation of SWC3a(hi) myeloid cells, conA rming that rPoIL-3 acted as a hematopoietic cell growth factor. Since rPoIL-3 stimulated the development of myeloid cells in culture, the in vivo potential to produce elevated eosinophil proportions was assessed. In vivo administration of rPoIL-3 induced a signiA cant increase in the number of eosinophils in blood. These results suggest that rPoIL-3 is a potent inducer of eosinophils in swine and supports the inclusion of rPoIL-3 in therapeutic strategies.

Molecular cloning, expression, and characterization of chicken IFN -lambda.

Interferons (IFN) provide a critical first line of defense against viral infection in vertebrates. Moreover, IFN-lambda, a recently identified group of mammalian IFN, has demonstrated antiviral potential in the treatment of mammalian viruses. With the growing concern over such diseases as avian influenza (AI), there is a pressing need for new antiviral strategies to manage problem viruses in poultry. Furthermore, the use of immune molecules, such as IFN-lambda, provides an attractive option for treating poultry by augmenting the host response to virus. With this in mind, we report here the first cloning, expression, and analysis of biologic activity of chicken IFN-lambda (ChIFN-lambda). We compared the similarity of ChIFN-lambda to those identified in other species and demonstrate that ChIFN-lambda has antiviral properties similar to those of human IFN-lambda (HuIFN-lambda). Our results demonstrate that in the chicken, as in human, the antiviral activity demonstrated by ChIFN-lambda supports its inclusion in therapeutic strategies directed against viral infections.