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. 2024 Dec 19;31(12):2112-2127.e6.
doi: 10.1016/j.chembiol.2024.09.007. Epub 2024 Oct 21.

Quinoline-based compounds can inhibit diverse enzymes that act on DNA

Jujun Zhou  1 Qin Chen  1 Ren Ren  1 Jie Yang  1 Bigang Liu  1 John R Horton  1 Caleb Chang  2 Chuxuan Li  2 Leora Maksoud  2 Yifei Yang  2 Dante Rotili  3 Abhinav K Jain  1 Xing Zhang  1 Robert M Blumenthal  4 Taiping Chen  1 Yang Gao  2 Sergio Valente  3 Antonello Mai  5 Xiaodong Cheng  6
Affiliations

Quinoline-based compounds can inhibit diverse enzymes that act on DNA

Jujun Zhou et al. Cell Chem Biol. .

Abstract

DNA methylation, as exemplified by cytosine-C5 methylation in mammals and adenine-N6 methylation in bacteria, is a key epigenetic process. Developing non-nucleoside inhibitors to cause DNA hypomethylation is crucial for treating various conditions without the toxicities associated with existing cytidine-based hypomethylating agents. This study characterized fifteen quinoline-based analogs, particularly compounds with additions like a methylamine (9) or methylpiperazine (11), which demonstrate similar low micromolar inhibitory potency against human DNMT1 and Clostridioides difficile CamA. These compounds (9 and 11) intercalate into CamA-bound DNA via the minor groove, causing a conformational shift that moves the catalytic domain away from the DNA. This study adds to the limited examples of DNA methyltransferases being inhibited by non-nucleotide compounds through DNA intercalation. Additionally, some quinoline-based analogs inhibit other DNA-interacting enzymes, such as polymerases and base excision repair glycosylases. Finally, compound 11 elicits DNA damage response via p53 activation in cancer cells.

Keywords: BER glycosylases; DNA adeinine methyltransferases; DNA cytosine methyltransferases; DNA hypomethylating agents; DNA intercalation; DNA/RNA polymerases; non-nucleoside compound; p53 response; pan inhibitors of DNA-acting enzymes; quinoline-based analogs.

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Conflict of interest statement

Declaration of interests The authors declare no competing interest.

Update of

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