Zinc homeostasis governed by Golgi-resident ZnT family members regulates ERp44-mediated proteostasis at the ER-Golgi interface.
Yuta AmagaiMomo YamadaToshiyuki KowadaTomomi WatanabeYuyin DuRong LiuSatoshi NaramotoSatoshi WatanabeJunko KyozukaTiziana AnelliTiziana TempioRoberto SitiaShin MizukamiKenji InabaPublished in: Nature communications (2023)
Many secretory enzymes acquire essential zinc ions (Zn 2+ ) in the Golgi complex. ERp44, a chaperone operating in the early secretory pathway, also binds Zn 2+ to regulate its client binding and release for the control of protein traffic and homeostasis. Notably, three membrane transporter complexes, ZnT4, ZnT5/ZnT6 and ZnT7, import Zn 2+ into the Golgi lumen in exchange with protons. To identify their specific roles, we here perform quantitative Zn 2+ imaging using super-resolution microscopy and Zn 2+ -probes targeted in specific Golgi subregions. Systematic ZnT-knockdowns reveal that ZnT4, ZnT5/ZnT6 and ZnT7 regulate labile Zn 2+ concentration at the distal, medial, and proximal Golgi, respectively, consistent with their localization. Time-course imaging of cells undergoing synchronized secretory protein traffic and functional assays demonstrates that ZnT-mediated Zn 2+ fluxes tune the localization, trafficking, and client-retrieval activity of ERp44. Altogether, this study provides deep mechanistic insights into how ZnTs control Zn 2+ homeostasis and ERp44-mediated proteostasis along the early secretory pathway.