Cellular localization and developmental changes of Zip8, Zip14 and transferrin receptor 1 in the inner ear of rats.

Prior studies have demonstrated that the inner ear can accumulate a variety of essential and potentially toxic heavy metals including manganese, lead, cobalt and cadmium. Metal accumulation is regulated in part by the functionality and affinity of these metals for the different transport systems responsible for uptake across the blood-cochlea barrier and their subsequent uptake into the different cells within the inner ear. Transport of these metals across cell membranes occurs by many of the same transport systems which include DMT1, Zip8 and Zip14. All three metal transporters have been identified in the cochlea based on quantitative PCR analysis. Prior studies in our laboratory examined the localization and developmental changes of DMT1 in rat cochlea and since the two Zip proteins are also likely to contribute to the transport of essential and non-essential divalent cations, we performed immunolabeling experiments in postnatal day three rat pups and adult rats. For comparison, we also immunolabeled the specimens with antibody against transferrin receptor 1 (TfR1) which is important in DMT1-mediated transport of Fe and Mn. Results presented in this paper demonstrate that the cellular and subcellular distribution of both Zip8 and Zip14 within the different components of the inner ear are distinct from that of DMT1. Nuclear localization for both Zip transporters as well as TfR1 was observed. The findings also reveal that the selective distribution of the three proteins was altered during development presumably to meet the changing needs of the cells to maintain normal and functional levels of iron and other essential metals.