Diet-derived luminal factors have a major influence on zinc available for uptake across the apical membrane of enterocytes. Malabsorption and possibly intestinal microbiota limit this zinc availability. The transporter ZIP4 is expressed along the entire gastrointestinal tract and acts as a major processor of dietary zinc for loading into enterocytes from the apical membrane. Zip4 and other Zip family genes expressed in the gastrointestinal tract are up-regulated in periods of dietary zinc restriction. This provides for powerful homeostatic control. The transporter ZIP14 is up-regulated along the entire gastrointestinal tract by proinflammatory conditions. Intracellular transporters such as ZnT7, influence the transcellular movement of zinc across the enterocyte. Metallothionein, an intracellular metal buffer, and the transporter ZnT1 at the basolateral membrane, regulate the amount of zinc released to the portal circulation for systemic distribution. Pancreatic release of zinc by acinar cells is through the secretory process and apical membrane and involves transporters ZnT2 and ZnT1, respectively. Expression of both transporters is zinc-responsive. Enterocytes and acinar cells constitutively express Zip5 at the basolateral membrane, where it may serve as a monitor of zinc status.