Establishment of a specific in vivo Cu(Ⅰ) reporting system based on metallothionein screening

Abstract

Abstract Copper is one of the indispensable trace metal elements in organisms, but excess copper means cytotoxicity. Cells protect themselves by storing excess copper in copper-binding proteins. Metallothioneins (MTs) are a group of low-molecular-weight, cysteine-rich proteins, which are well known in sensing and binding the overcharged Zn(Ⅱ), Cd(Ⅱ), and Cu(Ⅰ) in cells. However, there are few reports on MTs that can specifically respond to intracellular copper ions in mammals in real-time. Here, we screened copper-response MTs in pancreatic cancer cells through data-mining, RNA-seq, and qPCR analysis. We found that MT1E, MT1F, and MT1X mRNA were significantly upregulated after exogenous copper ions induction. By constructing the stable cell lines with MT1E, MT1F, or MT1X promoter-driven EGFP as reporters, we found that only PMT1F-EGFP could specifically and stably report the intracellular Cu(Ⅰ) changes in multiple cell lines, including Panc-1, 8988T, 293T, HepG2, and normal hepatic cells, indicating that PMT1F-EGFP is an ideal in vivo Cu(Ⅰ) reporter. Using the PMT1F-EGFP reporter, we found that MEK inhibitors (U0126) and Astragaloside IV could significantly increase intracellular copper ions. According to these results, that PMT1F-EGFP reporter can sense intracellular copper change and can be used to screen copper-target drugs and study copper-related cellular physiology and pathology.