Cancer-Cell-Selective Targeting by Arylcyclopropylamine-Vorinostat Conjugates.
Yosuke OtaYukihiro ItohTakashi KuroharaRitesh SinghElghareeb E ElborayChenliang HuFarzad ZamaniAnirban MukherjeeYuri TakadaYasunobu YamashitaMie MoritaMano HorinakaYoshihiro SowaMitsuharu MasudaToshiyuki SakaiTakayoshi SuzukiPublished in: ACS medicinal chemistry letters (2022)
Anticancer drug delivery by small molecules offers a number of advantages over conventional macromolecular drug delivery systems. We previously developed phenylcyclopropylamine (PCPA)-drug conjugates (PDCs) as small-molecule-based drug delivery vehicles for targeting lysine-specific demethylase 1 (LSD1)-overexpressing cancers. In this study, we applied this PDC strategy to the HDAC-inhibitory anticancer agent vorinostat. Among three synthesized PCPA or arylcyclopropylamine (ACPA)-vorinostat conjugates 1 , 9 , and 32 , conjugate 32 with a 4-oxybenzyl linker showed sufficient stability in buffer solutions, potent LSD1 inhibition, efficient LSD1-dependent vorinostat release, and potent and selective antiproliferative activity toward LSD1-expressing human breast cancer and small-cell lung cancer cell lines. These results indicate that the conjugate selectively releases vorinostat in cancer cells. A similar strategy may be applicable to other anticancer drugs.