Rational Design of Schiff Base Copper Chelators as Potent Necroptosis Inducers for Anticancer Therapy

  • J Med Chem. 2026 May 14;69(9):10463-10474. doi: 10.1021/acs.jmedchem.5c03604.
Long-Bo Yu  1 Qi-Xin Guan  1 Shuo-Ting Huang  1 Qing Ren  2 Man-Chun Liu  2 Feng-Ping Li  2 Zhi-Bo Zhu  2 Qing-Yuan Hu  1 Cai-Ping Tan  1  3  4
Affiliations
  • 1. MOE Key Laboratory of Bioinorganic and Synthetic Chemistry, School of Chemistry, Sun Yat-Sen University, Guangzhou 510275, P. R. China.
  • 2. Southern Medical University Hospital of Integrated Traditional Chinese and Western Medicine, Southern Medical University, Guangzhou 510315, Guangdong, China.
  • 3. Guangdong Basic Research Center of Excellence for Functional Molecular Engineering, Guangzhou 510006, P. R. China.
  • 4. State Key Laboratory of Anti-Infective Drug Discovery and Development; School of Pharmaceutical Sciences, Sun Yat-Sen University, Guangzhou 510006, China.
Abstract

Targeting the unique "copper addiction" of Cancer cells has emerged as a promising Anticancer strategy, as copper is indispensable for tumor proliferation, angiogenesis, and survival. Copper chelators deplete bioavailable copper to disrupt oncogenic processes, but traditional agents are hampered by limitations including nonspecific metal binding and suboptimal bioactivity. Schiff Bases, endowed with tunable structures and high copper specificity, stand as ideal platforms for next-generation chelators. Herein, we report a rational design, synthesis, and activity evaluation of novel Schiff base copper chelators. Structural modifications, including aromatic system expansion and triphenylphosphonium (TPP), were employed to enhance cellular uptake, induce mitochondrial damage, and improve bioactivity. 2d disrupts redox homeostasis by depleting copper, leading to Reactive Oxygen Species (ROS)-mediated mitochondrial damage and Necroptosis, and exhibits potent, nontoxic tumor suppression in vivo. This study presents both an effective optimization strategy for Schiff base copper chelators and a promising Anticancer candidate.

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