Cell Death Discovery (Dec 2023)

A small molecule iCDM-34 identified by in silico screening suppresses HBV DNA through activation of aryl hydrocarbon receptor

  • Yutaka Furutani,
  • Yoshinori Hirano,
  • Mariko Toguchi,
  • Shoko Higuchi,
  • Xian-Yang Qin,
  • Kaori Yanaka,
  • Yumi Sato-Shiozaki,
  • Nobuaki Takahashi,
  • Marina Sakai,
  • Pornparn Kongpracha,
  • Takehiro Suzuki,
  • Naoshi Dohmae,
  • Mutsuko Kukimoto-Niino,
  • Mikako Shirouzu,
  • Shushi Nagamori,
  • Harukazu Suzuki,
  • Kaoru Kobayashi,
  • Takahiro Masaki,
  • Hiroo Koyama,
  • Kazuma Sekiba,
  • Motoyuki Otsuka,
  • Kazuhiko Koike,
  • Michinori Kohara,
  • Soichi Kojima,
  • Hideaki Kakeya,
  • Tomokazu Matsuura

DOI
https://doi.org/10.1038/s41420-023-01755-w
Journal volume & issue
Vol. 9, no. 1
pp. 1 – 13

Abstract

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Abstract IFN-alpha have been reported to suppress hepatitis B virus (HBV) cccDNA via APOBEC3 cytidine deaminase activity through interferon signaling. To develop a novel anti-HBV drug for a functional cure, we performed in silico screening of the binding compounds fitting the steric structure of the IFN-alpha-binding pocket in IFNAR2. We identified 37 compounds and named them in silico cccDNA modulator (iCDM)-1–37. We found that iCDM-34, a new small molecule with a pyrazole moiety, showed anti-HCV and anti-HBV activities. We measured the anti-HBV activity of iCDM-34 dependent on or independent of entecavir (ETV). iCDM-34 suppressed HBV DNA, pgRNA, HBsAg, and HBeAg, and also clearly exhibited additive inhibitory effects on the suppression of HBV DNA with ETV. We confirmed metabolic stability of iCDM-34 was stable in human liver microsomal fraction. Furthermore, anti-HBV activity in human hepatocyte-chimeric mice revealed that iCDM-34 was not effective as a single reagent, but when combined with ETV, it suppressed HBV DNA compared to ETV alone. Phosphoproteome and Western blotting analysis showed that iCDM-34 did not activate IFN-signaling. The transcriptome analysis of interferon-stimulated genes revealed no increase in expression, whereas downstream factors of aryl hydrocarbon receptor (AhR) showed increased levels of the expression. CDK1/2 and phospho-SAMHD1 levels decreased under iCDM-34 treatment. In addition, AhR knockdown inhibited anti-HCV activity of iCDM-34 in HCV replicon cells. These results suggest that iCDM-34 decreases the phosphorylation of SAMHD1 through CDK1/2, and suppresses HCV replicon RNA, HBV DNA, and pgRNA formation.