ZnT-1 extrudes zinc from mammalian cells functioning as a Zn(2+)/H(+) exchanger.

Eden Shusterman , Ofer Beharier , Levy Shiri , Raz Zarivach , Yoram Etzion , Craig R Campbell , Il-Ha Lee , Ken Okabayashi , Anuwat Dinudom , David I Cook , Amos Katz , Arie Moran

Metallomics

Department of Physiology and Cell Biology, Faculty of Health Sciences, Ben Gurion University of the Negev, Israel.

Published: September 2014

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ZnT-1 is a Cation Diffusion Facilitator (CDF) family protein, and is present throughout the phylogenetic tree from bacteria to humans. Since its original cloning in 1995, ZnT-1 has been considered to be the major Zn(2+) extruding transporter, based on its ability to protect cells against zinc toxicity. However, experimental evidence for ZnT-1 induced Zn(2+) extrusion was not convincing. In the present study, based on the 3D crystal structure of the ZnT-1 homologue, YiiP, that predicts a homodimer that utilizes the H(+) electrochemical gradient to facilitate Zn(2+) efflux, we demonstrate ZnT-1 dependent Zn(2+) efflux from HEK 293T cells using FluoZin-3 and Fura 2 by single cell microscope based fluorescent imaging. ZnT-1 facilitates zinc efflux in a sodium-independent, pH-driven and calcium-sensitive manner. Moreover, substitution of two amino acids in the putative zinc binding domain of ZnT-1 led to nullification of Zn(2+) efflux and rendered the mutated protein incapable of protecting cells against Zn(2+) toxicity. Our results demonstrate that ZnT-1 extrudes zinc from mammalian cells by functioning as a Zn(2+)/H(+) exchanger.

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