Rationally designed febuxostat-based hydroxamic acid and its pH-Responsive nanoformulation elicits anti-tumor activity

Ritika, Zi Yi Liao, Pin Yu Chen, N. Vijayakamasewara Rao, Jacob Mathew, Ram Sharma, Ajmer Singh Grewal, Gurpreet Singh, Sidharth Mehan, Jing Ping Liou, Chun Hsu Pan, Kunal Nepali

Research output: Contribution to journalArticlepeer-review

Abstract

Attempts to furnish antitumor structural templates that can prevent the occurrence of drug-induced hyperuricemia spurred us to generate xanthine oxidase inhibitor-based hydroxamic acids and anilides. Specifically, the design strategy involved the insertion of febuxostat (xanthine oxidase inhibitor) as a surface recognition part of the HDAC inhibitor pharmacophore model. Investigation outcomes revealed that hydroxamic acid 4 elicited remarkable antileukemic effects mediated via HDAC isoform inhibition. Delightfully, the adduct retained xanthine oxidase inhibitory activity, though xanthine oxidase inhibition was not the underlying mechanism of its cell growth inhibitory effects. Also, compound 4 demonstrated significant in-vivo anti-hyperuricemic (PO-induced hyperuricemia model) and antitumor activity in an HL-60 xenograft mice model. Compound 4 was conjugated with poly (ethylene glycol) poly(aspartic acid) block copolymer to furnish pH-responsive nanoparticles (NPs) in pursuit of circumventing its cytotoxicity towards the normal cell lines. SEM analysis revealed that NPs had uniform size distributions, while TEM analysis ascertained the spherical shape of NPs, indicating their ability to undergo self-assembly. HDAC inhibitor 4 was liberated from the matrix due to the polymeric nanoformulation's pH-responsiveness, and the NPs demonstrated selective cancer cell targeting ability.

Original languageEnglish
Article number116866
JournalEuropean Journal of Medicinal Chemistry
Volume279
DOIs
Publication statusPublished - 2024

Keywords

  • Anilides
  • Febuxostat
  • HDAC inhibitor
  • Hematological malignancies
  • Hydroxamic acid
  • Tumor
  • Xanthine oxidase

ASJC Scopus subject areas

  • Pharmacology
  • Drug Discovery
  • Organic Chemistry

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