Abstract

Copper (Cu) is a necessary micro-element and plays important roles in many biochemical processes. However, excessive Cu intake can lead to multi-organ toxicity, especially in the spleen. To gain further insights into the specific mechanisms of splenic toxicity associated with Cu-induced metabolic disorders, 192 one-day-old chickens were selected and randomly divided into four groups for this study. The broilers were fed with diets containing Cu at final concentrations of 11, 110, 220 and 330 mg/kg for 49 days. The results showed that high Cu dietary caused nuclear shrinkage and mitochondrial vacuolization in spleen, and induced splenic injury through regulating the glutathione metabolism, pentose and gluconate interconversion, tryptophan metabolism and glycerophosphatidylcholine metabolism pathways. Moreover, excess Cu could disorder the mitochondrial dynamics via up-regulating the levels of Drp1, Parkin PINK1, and Dynein, and down-regulating the levels of Mfn1, Mfn2 and OPA1. Cu-treatment increased the levels of LC3A, LC3B, mTOR, Beclin1, ATG5, and decreased the p62 level to promote autophagy of splenocytes. Meanwhile, high dose of Cu promoted the splenocytes apoptosis by ascend the levels of p53, BAK-1, Bax, Cyt C and Caspase-3 and descend the level of Bcl-2. These results demonstrated that high dietary Cu could cause autophagy and apoptosis via inducing metabolic disturbances and disordering mitochondrial dynamics in spleen of broiler chicken.

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