Influence of ZIP14 (slc39A14) on intestinal zinc processing and barrier function.

ZIP14 is a zinc transport protein with high expression in the small intestine and liver. Zip14 is upregulated during endotoxemia and leads to increased liver zinc content and transient hypozinemia. Since body zinc status and inflammation are associated with changes in intestinal permeability, we hypothesized that ZIP14 may influence intestinal permeability. Wild-type (WT) and Zip14 knockout (KO) mice were used to determine ZIP14-associated intestinal zinc metabolism and effects on permeability. Fractionation of plasma membranes revealed that ZIP14 is localized to the basolateral membrane of enterocytes. Studies utilizing (65)Zn administered by subcutaneous injection revealed greater zinc accumulation in the SI of Zip14 KO mice compared with WT mice. Isolation of endosomes confirmed the presence of ZIP14. Quantification of endosomal zinc concentration by FluoZin-3AM fluorescence demonstrated that zinc is trapped in endosomes of Zip14 KO mice. Intestinal permeability assessed both by plasma FITC-dextran following gavage and by serum endotoxin content was greater in Zip14 KO mice. Threonine phosphorylation of the tight junction protein occludin, which is necessary for tight junction assembly, was reduced in KO mice. Claudin 1 and 2, known to have an inverse relationship in regards to tight junction integrity, reflected impaired barrier function in KO jejunum. These data suggest involvement of ZIP14 in providing zinc for a regulatory role needed for maintenance of the intestinal barrier. In conclusion, ZIP14 is a basolaterally localized protein in enterocytes and is involved in endosomal trafficking of zinc and is necessary for proper maintenance of intestinal tight junctions.

Gastric and colonic zinc transporter ZIP11 (Slc39a11) in mice responds to dietary zinc and exhibits nuclear localization.

Zinc transporters have been characterized to further understand the absorption and metabolism of dietary zinc. Our goal was to characterize zinc transporter Slc39a11 (ZIP11) expression and its subcellular localization within cells of the murine gastrointestinal tract of mice and to determine if dietary zinc regulates ZIP11. The greatest ZIP11 expression was in the stomach, cecum, and colon. Both Zip11 mRNA and ZIP11 protein were shown to be downregulated during dietary zinc restriction (<1 mg Zn/kg) in the murine stomach tissue but were unaffected in the colon. Acute repletion with zinc did not restore Zip11 mRNA levels in the stomach. Immunohistochemistry (IHC) revealed high ZIP11 levels in the lower regions of gastric glands and parietal cells of the stomach. IHC analysis of the colon showed a marked ZIP11 abundance within the cytoplasm of the colonic epithelial cells. IHC also showed an increase in ZIP11 expression in the colon during zinc restriction. There is a robust abundance of ZIP11 in the nuclei of cells of both stomach and colon. Our experiments suggest that when dietary zinc intake is compromised, the colon may increase zinc transporter expression to improve the efficiency for absorption via increased expression of specific zinc transporters, including ZIP11 and also zinc transporter Slc39a4. In conclusion, ZIP11 is highly expressed within the murine stomach and colon and appears to be partially regulated by dietary zinc intake within these tissues. ZIP11 may play a specialized role in zinc homeostasis within these tissues, helping to maintain mucosal integrity and function.