Clinical and Translational Medicine (May 2022)

Topical niclosamide (ATx201) reduces Staphylococcus aureus colonization and increases Shannon diversity of the skin microbiome in atopic dermatitis patients in a randomized, double‐blind, placebo‐controlled Phase 2 trial

  • Anne Weiss,
  • Emilie Delavenne,
  • Carina Matias,
  • Heimo Lagler,
  • Daniel Simon,
  • Ping Li,
  • Jon U. Hansen,
  • Teresa Pires dosSantos,
  • Bimal Jana,
  • Petra Priemel,
  • Christine Bangert,
  • Martin Bauer,
  • Sabine Eberl,
  • Alina Nussbaumer‐Pröll,
  • Zoe Anne Österreicher,
  • Peter Matzneller,
  • Tamara Quint,
  • Maria Weber,
  • Hanne Mørck Nielsen,
  • Thomas Rades,
  • Helle Krogh Johansen,
  • Henrik Westh,
  • Wooseong Kim,
  • Eleftherios Mylonakis,
  • Christian Friis,
  • Luca Guardabassi,
  • John Pace,
  • Carina Vingsbo Lundberg,
  • Fatima M'Zali,
  • Pascal Butty,
  • Nikolaj Sørensen,
  • Henrik Bjørn Nielsen,
  • Rasmus Toft‐Kehler,
  • Emma Guttman‐Yassky,
  • Georg Stingl,
  • Markus Zeitlinger,
  • Morten Sommer

DOI
https://doi.org/10.1002/ctm2.790
Journal volume & issue
Vol. 12, no. 5
pp. n/a – n/a

Abstract

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Abstract Background In patients with atopic dermatitis (AD), Staphylococcus aureus frequently colonizes lesions and is hypothesized to be linked to disease severity and progression. Treatments that reduce S. aureus colonization without significantly affecting the skin commensal microbiota are needed. Methods and findings In this study, we tested ATx201 (niclosamide), a small molecule, on its efficacy to reduce S. aureus and propensity to evolve resistance in vitro. Various cutaneous formulations were then tested in a superficial skin infection model. Finally, a Phase 2 randomized, double‐blind and placebo‐controlled trial was performed to investigate the impact of ATx201 OINTMENT 2% on S. aureus colonization and skin microbiome composition in patients with mild‐to‐severe AD (EudraCT:2016‐003501‐33). ATx201 has a narrow minimal inhibitory concentration distribution (.125–.5 μg/ml) consistent with its mode of action – targeting the proton motive force effectively stopping cell growth. In murine models, ATx201 can effectively treat superficial skin infections of methicillin‐resistant S. aureus. In a Phase 2 trial in patients with mild‐to‐severe AD (N = 36), twice‐daily treatment with ATx201 OINTMENT 2% effectively reduces S. aureus colonization in quantitative colony forming unit (CFU) analysis (primary endpoint: 94.4% active vs. 38.9% vehicle success rate, p = .0016) and increases the Shannon diversity of the skin microbiome at day 7 significantly compared to vehicle. Conclusion These results suggest that ATx201 could become a new treatment modality as a decolonizing agent.

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