Author:
Wu Aimin,Bai Shiping,Ding Xuemei,Wang Jianping,Zeng Qiufeng,Peng Huanwei,Wu Bing,Zhang Keying
Abstract
Abstract
Salmonella challenge leads to systemic responses that induce the hypozincaemia in mice, which is considered a vital strategy against Salmonella invasion. However, it is not yet known if this phenomenon occurs in broilers. To investigate the change in zinc homeostasis of broilers against Salmonella challenge, 1-day-old male broilers were fed with the basal diet for 7 days. Afterwards, broilers were orally inoculated with either 0 or 0.5 × 108 CFU Salmonella Typhimurium (ST). The serum and selected tissues of Salmonella-challenged and non-challenged broilers were collected at 1, 3 and 7 days post-challenge for zinc homeostasis analysis. Our results showed that Salmonella challenge results in hypozincaemia (serum zinc decrease and liver zinc increase) via modulating the systemic zinc homeostasis of broilers. A profound, zinc transporter–mediated zinc absorption and redistribution affecting zinc homeostasis provided a mechanistic explanation for this phenomenon. In addition, we found that the zinc importers Zip5, Zip10, Zip11, Zip12, Zip13 and Zip14 were mainly downregulated in Salmonella-challenged broilers to reduce zinc absorption in the duodenum, while the Zip14 mRNA expression was upregulated to redistribute zinc into the liver. Collectively, these findings reveal that broilers counteract Salmonella infection via modulating their systemic zinc homeostasis.
Funder
the national natural science foundation of China
science and technology support project of Sichuan province
Chelota Group (China) research project
Publisher
Springer Science and Business Media LLC
Subject
Biochemistry, medical,Inorganic Chemistry,Clinical Biochemistry,General Medicine,Biochemistry,Endocrinology, Diabetes and Metabolism