Technology in Cancer Research & Treatment (Jan 2024)

Research Progress on Structure-Activity Relationship of 1,8-Naphthalimide DNA Chimeras Against Tumor

  • Hai-yang Zhang SM,
  • Li-li Han SM,
  • Hong-yi Wu SM,
  • Xiang-xiang Xu SM,
  • Meng-bin Yu PhD,
  • Gao-yun Chen PhD,
  • Xiu-li Qi SM

DOI
https://doi.org/10.1177/15330338231225861
Journal volume & issue
Vol. 23

Abstract

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The development of 1,8-naphthalimide derivatives as cell probes, DNA targeting agents, and anti-tumor drugs is one of the research hotspots in the field of medicine. Naphthalimide compounds are a kind of DNA embedder, which can change the topological structure of DNA by embedding in the middle of DNA base pairs, and then affect the recognition and action of topoisomerase on DNA. Aminofide and mitonafide are the first 2 drugs to undergo clinical trials. They have good DNA insertion ability, can embed DNA double-stranded structure, and induce topoisomerase II to cut part of pBR322DNA, but not yet entered the market due to their toxicity. In this paper, the design and structure-activity relationship of mononaphthalimide and bisaphthalimide compounds were studied, and the relationship between the structure of naphthalimide and anti-tumor activity was analyzed and discussed. It was found that a variety of structural modifications were significant in improving anti-tumor activity and reducing toxicity.