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Bacterial outer membrane vesicle nanorobot.

Songsong TangDaitian TangHouhong ZhouYangyang LiDewang ZhouXiqi PengChunyu RenYilin SuShaohua ZhangHaoxiang ZhengFangchen WanJounghyun YooHong HanXiaotian MaWei GaoSong Wu
Published in: Proceedings of the National Academy of Sciences of the United States of America (2024)
Autonomous nanorobots represent an advanced tool for precision therapy to improve therapeutic efficacy. However, current nanorobotic designs primarily rely on inorganic materials with compromised biocompatibility and limited biological functions. Here, we introduce enzyme-powered bacterial outer membrane vesicle (OMV) nanorobots. The immobilized urease on the OMV membrane catalyzes the decomposition of bioavailable urea, generating effective propulsion for nanorobots. This OMV nanorobot preserves the unique features of OMVs, including intrinsic biocompatibility, immunogenicity, versatile surface bioengineering for desired biofunctionalities, capability of cargo loading and protection. We present OMV-based nanorobots designed for effective tumor therapy by leveraging the membrane properties of OMVs. These involve surface bioengineering of robotic body with cell-penetrating peptide for tumor targeting and penetration, which is further enhanced by active propulsion of nanorobots. Additionally, OMV nanorobots can effectively safeguard the loaded gene silencing tool, small interfering RNA (siRNA), from enzymatic degradation. Through systematic in vitro and in vivo studies using a rodent model, we demonstrate that these OMV nanorobots substantially enhanced siRNA delivery and immune stimulation, resulting in the utmost effectiveness in tumor suppression when juxtaposed with static groups, particularly evident in the orthotopic bladder tumor model. This OMV nanorobot opens an inspiring avenue to design advanced medical robots with expanded versatility and adaptability, broadening their operation scope in practical biomedical domains.
Keyphrases
  • cancer therapy
  • drug delivery
  • randomized controlled trial
  • healthcare
  • stem cells
  • cell therapy
  • mass spectrometry
  • nitric oxide
  • minimally invasive
  • bone marrow
  • hyaluronic acid