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Eradicating fungal biofilm-based infections by ultrasound-assisted semiconductor sensitized upconversion photodynamic therapy

Author

Listed:
  • Zeyu Liu

    (Southern Medical University)

  • Minying Li

    (Southern Medical University)

  • Qiulin Xie

    (Southern Medical University)

  • Yinghui Liu

    (Southern Medical University)

  • Jialin Huang

    (Southern Medical University)

  • Qin Zeng

    (Kunming Medical University)

  • Xipeng Li

    (Kunming Medical University)

  • Kexiang Rao

    (Southern Medical University)

  • Juewei Ning

    (Southern Medical University)

  • Minghai Zhao

    (Southern Medical University)

  • Bin Li

    (Ningxia Medical University)

  • Feng Li

    (South China University of Technology)

  • Haiyang Liu

    (South China University of Technology)

  • Sitong Zhou

    (The First People’s Hospital of Foshan)

  • Bowen Shu

    (Southern Medical University)

  • Bin Yang

    (Southern Medical University)

  • Judun Zheng

    (Southern Medical University)

  • Yuhui Liao

    (Kunming Medical University
    Ningxia Medical University)

Abstract

Fungal biofilms, as self-produced extracellular polymeric substances that resist antifungal agents and immune defense, represent a major cause of treatment failure and recurrent infections. Therefore, it is of great importance to eradicate fungal biofilms to achieve efficient therapy. This study develops a synergistic reactive oxygen species (ROS)-enhanced strategy to eradicate Candida albicans biofilms by designing ultrasound-light dual-responsive nanohybrids (UCNP@CR). The system integrates thulium-doped upconversion nanoparticles (UCNPs) with carbon nitride-coated surfaces (g-C3N4) and polypyridine ruthenium complex (Ru) photosensitizers. In treatment, the dense fungal biofilm can be effectively loosened under ultrasound stimulation while ultrasound simultaneously triggers ROS production of UCNP@CR, collectively promoting irreversible destruction of biofilm and inward penetration of photosensitizer. Moreover, UCNP@CR exhibits strong fungal adhesion, while its g-C3N4-mediated enhanced metal-to-ligand charge transfer (MLCT) process of Ru under near-infrared light irradiation amplifies ROS generation, which leads to efficient eradication of fungal biofilms. As in vivo experimental evidence, UCNP@CR exhibits excellent antifungal efficacy in treating fungal biofilm-infected wounds in immunosuppressed male mice under ultrasound-light stimulation. These findings establish the ultrasound-assisted, ROS-enhanced synergistic strategy as a promising approach against fungal biofilm infections and provide diverse perspective for managing other biofilm-related infectious diseases.

Suggested Citation

  • Zeyu Liu & Minying Li & Qiulin Xie & Yinghui Liu & Jialin Huang & Qin Zeng & Xipeng Li & Kexiang Rao & Juewei Ning & Minghai Zhao & Bin Li & Feng Li & Haiyang Liu & Sitong Zhou & Bowen Shu & Bin Yang , 2025. "Eradicating fungal biofilm-based infections by ultrasound-assisted semiconductor sensitized upconversion photodynamic therapy," Nature Communications, Nature, vol. 16(1), pages 1-17, December.
    • Handle: RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-61519-1
    DOI: 10.1038/s41467-025-61519-1
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    1. Rajkumar Noubade & Kit Wong & Naruhisa Ota & Sascha Rutz & Celine Eidenschenk & Patricia A. Valdez & Jiabing Ding & Ivan Peng & Andrew Sebrell & Patrick Caplazi & Jason DeVoss & Robert H. Soriano & Ta, 2014. "NRROS negatively regulates reactive oxygen species during host defence and autoimmunity," Nature, Nature, vol. 509(7499), pages 235-239, May.
    2. A. Phillip West & Igor E. Brodsky & Christoph Rahner & Dong Kyun Woo & Hediye Erdjument-Bromage & Paul Tempst & Matthew C. Walsh & Yongwon Choi & Gerald S. Shadel & Sankar Ghosh, 2011. "TLR signalling augments macrophage bactericidal activity through mitochondrial ROS," Nature, Nature, vol. 472(7344), pages 476-480, April.
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