Journal of Pharmacological Sciences (Mar 2023)

Development of gene silencer pyrrole-imidazole polyamides targeting GSK3β for treatment of polycystic kidney diseases

  • Seishiro Baba,
  • Noboru Fukuda,
  • Hiroki Kobayashi,
  • Akiko Tsunemi,
  • Yurie Akiya,
  • Taro Matsumoto,
  • Masanori Abe

Journal volume & issue
Vol. 151, no. 3
pp. 148 – 155

Abstract

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The cyclic adenosine monophosphate (cAMP)–response element binding protein (CREB)–glycogen synthase kinase 3β (GSK3β) signaling pathway was reported to be involved in the progression of autosomal dominant polycystic kidney diseases (ADPKD). We designed and synthesized pyrrole-imidazole (PI) polyamides as novel gene-silencers to prevent binding of CREB on the GSK3β gene promoter and examined the effects of the PI polyamides on proliferation and cyst formation of mouse collecting duct M1 cells. The GSK3β PI polyamides significantly inhibited expression of GSK3β mRNA in M1 cells with forskolin. To obtain cells as collecting ducts from ADPKD, the PKD1 gene was knocked down by shRNA. Lower concentrations of forskolin significantly stimulated proliferation of PKD1 knock-down M1 cells, whereas GSK3β PI polyamide significantly inhibited proliferation of PKD1 knock-down M1 cells with forskolin. Stimulation with forskolin for 5 days induced enlargement of cysts from PKD1 knock-down M1 cells. GSK3β PI polyamides significantly suppressed the enlargement of cysts with forskolin stimulation in PKD1 knock-down M1 cells. Thus, the present study showed that transcriptional suppression of the GSK3β gene by PI polyamides targeting the binding of CREB inhibited the proliferation and cyst formation of PKD1 knock-down M1 cells. The GSK3β PI polyamides may potentially be novel medicines for ADPKD.

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