Abstract
Zinc (Zn) is an essential trace element as part of several biological processes, including transcriptional regulation, signaling, and catalysis. A subcellular network of Zn transporters ensures the adequate distribution of Zn to maintain homeostasis. Among these, the family of importers Zrt/Irt-like protein (ZIP) constitutes 14 members (ZIP1-ZIP14) that mobilize Zn into the cytosol. Expression of these transporters varies among tissues and during developmental stages. The presence of ZIP transporters at various cellular locations is essential for defining the net cellular transport of Zn. Normally, the ion is bound to proteins or sequestered in organelles and vesicles.
Research has focused on Zn internalization in mammalian cells. However, little is known regarding Zn mobilization within the cells and the organelles, including the nucleus. ZIP11 is the only ZIP transporter localized in the nucleus of mammalian cells. However, the cellular role and the mechanism and direction of transport of ZIP11 are not defined. We hypothesized that ZIP11 is a nuclear Zn transporter essential to maintaining nuclear Zn homeostasis in mammalian cells. To test this idea, we knocked down Zip11 in normal fibroblasts and HeLa cancer cells. Preliminary data shows that partial deletion of Zip11 reduced the proliferation of HeLa cells, and when HeLa cells reached confluency, they acquired an epithelial morphology. None of these phenotypes were detected in HEK293T cells, suggesting that ZIP11 might be relevant for the proliferation of cancer cells. Our work has the potential to discover a novel molecular mechanism where nuclear Zn homeostasis is essential for cancer progression.
Kan-Wes-Summer-2021-Poster-1Live Poster Session:
Thursday, July 29th 1:15-2:30pm EDT