Metal transporter SLC39A14/ZIP14 modulates regulation between the gut microbiome and host metabolism

Zinc (Zn) plays a critical role in maintaining intestinal homeostasis by regulating intestinal epithelial cells, host immune cells, and gut microbiome community composition. Deletion of metal transporter Slc39a14/Zip14 causes spontaneous intestinal permeability with low-grade chronic inflammation, mild hyperinsulinemia, and greater body fat with insulin resistance in adipose, suggesting a role for ZIP14-mediated intestinal metal transport in regulating both intestinal homeostasis and systemic metabolism. Here, we showed the function of ZIP14-mediated Zn transport in the gut microbiome composition and how ZIP14-linked changes to gut microbiome community composition are correlated with changes in host metabolism. Deletion of Zip14 generated Zn-deficient epithelial cells and luminal content in the entire intestinal tract; reduced bacterial diversity and Saccharomyces cerevisiae ( S. cerevisiae ) overgrowth; altered host metabolome; and shifted host energy metabolism toward glucose utilization. This work provides evidence for the regulation of gut microbiome composition, host metabolome, and energy metabolism by metal transporter ZIP14. Significance Intestinal permeability, gut dysbiosis, and Zn dyshomeostasis are emerging signatures of inflammatory bowel diseases and metabolic disorders such as type-2-diabetes and obesity. Zn deficiency is a common clinical finding among these diseases. Zn is essential for the regulation of the intestinal epithelial cells, host immune cells, and the gut microbiome. Transporter-mediated mobilization of Zn plays a critical role in maintaining intestinal homeostasis by facilitating the targeted tissue/cell-specific function. However, studies are lacking in linking transporter-mediated Zn mobilization, gut microbiome, host’s intestinal health, and metabolism. Using the systems-level approach, this study revealed novel findings that deletion of Slc39a14/Zip14 resulted in altered intestinal Zn homeostasis, gut microbiome composition, host metabolome and energy metabolism. ### Competing Interest Statement The authors have declared no competing interest.