Abstract
Wilson disease (WD) is due to mutations in ATP7B, which encodes an intracellular metal-transporting P-type ATPase. In WD holoceruloplasmin production and biliary excretion of copper are decreased, leading to copper overload, oxidative stress and apoptotic cell death. Other copper-binding proteins include COMMD1, which is inactive in the Bedlington terrier hereditary copper toxicosis, and XIAP, which regulates apoptosis. We examined developmental expression of Commd1 and Xiap in the Jackson toxic milk mouse ( Atp7b tx−J , G712D missense mutation in Atp7b). Expression of Commd1 mRNA appeared unchanged by PCR but real-time PCR demonstrated 3- to 4-fold increase over the first 6 months of life. Immunodetectable Xiap dropped over the first 8 months of life and was nearly undetectable from 6 months onward. Cytosolic NF-κB rose then dropped precipitously at 5–6 months. In tx-j mice hepatic copper accumulation leads to decreased Xiap, increased Commd1; these responses ultimately fail to prevent progressive apoptotic cell damage.
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