Characterization and Identification of Hepatic mRNA Related to Copper Metabolism and Homeostasis in Cattle

Copper is an essential trace mineral required for growth and development. Copper homeostasis within the cell is mediated by the expression of the Cu transporter protein (CTR1), ATPase7A (ATP7A), ATPase7B (ATP7B), Cox17, and Cu chaperone for Cu–Zn superoxide dismutase (CCS) which helps to regulate Cu uptake, export, and intracellular compartmentalization in non-ruminants. Copper also serves as a cofactor of antioxidant, superoxide dismutase1 (SOD1). Liver tissue from eighteen Holstein bull calves (average BW 201?±?58.5 kg, 7.3?±?1.9 months) from a previous experiment were utilized to characterize and identify hepatic mRNA related to Cu metabolism and homeostasis in cattle. Hepatic Cu concentration was determined via flame atomic absorption, and total RNA was extracted using TRI reagent and purified using RNeasy. Hepatic Cu concentrations ranged from 86 to 801 mg of Cu/kg DM. Real-time polymerase chain reaction analysis revealed that CTR1, ATP7A, and ATP7B mRNA expressions were negatively correlated with hepatic Cu concentration, while CCS (P?=?0.0887) and SOD1 had a tendency (P?=?0.0733) to be negatively correlated to hepatic Cu concentration. These data indicate that higher than normal hepatic Cu concentration downregulates gene expression of CTR1, ATP7A, ATP7B, and Cox17, which are involved in bovine liver copper homeostasis.