Lipid dysmetabolism in ceruloplasmin‐deficient mice revealed both in vivo and ex vivo by MRI, MRS and NMR analyses

Ceruloplasmin (Cp) is a ferroxidase that plays a role in cellular iron homeostasis and is mainly expressed in the liver and secreted into the blood. Cp is also produced by adipose tissue, which releases it as an adipokine. Although a dysfunctional interaction of iron with the metabolism of lipids has been associated with several metabolic diseases, the role of Cp in adipose tissue metabolism and in the interplay between hepatocytes and adipocytes has been poorly investigated. We previously found that Cp‐deficient (CpKO) mice become overweight and demonstrate adipose tissue accumulation together with liver steatosis during aging, suggestive of lipid dysmetabolism. In the present study, we investigated the lipid alterations which occur during aging in adipose tissue and liver of CpKO and wild‐type mice both in vivo and ex vivo. During aging of CpKO mice, we observed adipose tissue accumulation and liver lipid deposition, both of which are associated with macrophage infiltration. Liver lipid deposition was characterized by accumulation of triglycerides, fatty acids and ω‐3 fatty acids, as well as by a switch from unsaturated to saturated fatty acids, which is characteristic of lipid storage. Liver steatosis was preceded by iron deposition and macrophage infiltration, and this was observed to be already occurring in younger CpKO mice. The accumulation of ω‐3 fatty acids, which can only be acquired through diet, was associated with body weight increase in CpKO mice despite food intake being equal to that of wild‐type mice, thus underlining the alterations in lipid metabolism/catabolism in Cp‐deficient animals.

During aging, ceruloplasmin‐deficient (CpKO) mice display adipose tissue accumulation and liver steatosis. We investigated, both in vivo and ex vivo, the features of lipid dysmetabolism promoted by iron deposition in liver as a consequence of a deficiency of ceruloplasmin, a ferroxidase necessary for iron homeostasis. Our data revealed that iron deposition in liver fosters tissue inflammation and, subsequentially, lipid deposition and adipose tissue accumulation.