Cloning and Characterization of Chicken IL-10 and Its Role in the Immune Response to Eimeria Maxima

Overview

Journal J Immunol

Specialty Allergy & Immunology

Date 2004 Aug 6

PMID 15294985

Citations 99

Authors

Lisa Rothwell

John R Young

Rima Zoorob

Catherine A Whittaker

Pat Hesketh

Andrew Archer

Adrian L Smith

Pete Kaiser

Affiliations

Soon will be listed here.

Abstract

We isolated the full-length chicken IL-10 (chIL-10) cDNA from an expressed sequence tag library derived from RNA from cecal tonsils of Eimeria tenella-infected chickens. It encodes a 178-aa polypeptide, with a predicted 162-aa mature peptide. Chicken IL-10 has 45 and 42% aa identity with human and murine IL-10, respectively. The structures of the chIL-10 gene and its promoter were determined by direct sequencing of a bacterial artificial chromosome containing chIL-10. The chIL-10 gene structure is similar to (five exons, four introns), but more compact than, that of its mammalian orthologues. The promoter is more similar to that of Fugu IL-10 than human IL-10. Chicken IL-10 mRNA expression was identified mainly in the bursa of Fabricius and cecal tonsils, with low levels of expression also seen in thymus, liver, and lung. Expression was also detected in PHA-activated thymocytes and LPS-stimulated monocyte-derived macrophages, with high expression in an LPS-stimulated macrophage cell line. Recombinant chIL-10 was produced and bioactivity demonstrated through IL-10-induced inhibition of IFN-gamma synthesis by mitogen-activated lymphocytes. We measured the expression of mRNA for chIL-10 and other signature cytokines in gut and spleen of resistant (line C.B12) and susceptible (line 15I) chickens during the course of an E. maxima infection. Susceptible chickens showed higher levels of chIL-10 mRNA expression in the spleen, both constitutively and after infection, and in the small intestine after infection than did resistant chickens. These data indicate a potential role for chIL-10 in changing the Th bias during infection with an intracellular protozoan, thereby contributing to susceptibility of line 15I chickens.

Citing Articles

Enhancing poultry health and productivity through the liver-gut axis with integrated nutritional and immunological approaches: a mini-review.

Amevor F, Uyanga V, Wu L, Xu D, Shu G, Wang Y Front Physiol. 2025; 16:1537099.

PMID: 40070462 PMC: 11893858. DOI: 10.3389/fphys.2025.1537099.

Characterization of Probiotic Strains and and Their Effect on Broiler Chicken Performance and Immune Response During Infection.

Shanmugasundaram R, Khochamit N, Selvaraj R, Mortada M, Siripornadulsil S, Siripornadulsil W Microorganisms. 2025; 13(2).

PMID: 40005584 PMC: 11857266. DOI: 10.3390/microorganisms13020217.

Influence of High Immunization Dosages on Total Oocyst Output and Specific Antibodies Recognition Response in Hybrid Pullets ()-A Pilot Study.

Juarez-Estrada M, Tellez-Isaias G, Petrone-Garcia V, Gayosso-Vazquez A, Hernandez-Velasco X, Alonso-Morales R Antibodies (Basel). 2025; 14(1).

PMID: 39982224 PMC: 11843834. DOI: 10.3390/antib14010009.

Early embryonic thermal programming and post-hatch flavonoid () supplementation enhanced immune response markers in broiler chickens.

Amaz S, Shahid M, Jha R, Mishra B Front Vet Sci. 2025; 12:1537116.

PMID: 39936078 PMC: 11810927. DOI: 10.3389/fvets.2025.1537116.

Ontogeny and function of the intestinal epithelial and innate immune cells during early development of chicks: to explore in ovo immunomodulatory nutrition.

Ayalew H, Xu C, Adane A, Sanchez A, Li S, Wang J Poult Sci. 2024; 104(1):104607.

PMID: 39693955 PMC: 11720616. DOI: 10.1016/j.psj.2024.104607.