AI Article Synopsis

  • Artificial enzymes are gaining attention in medicine and biotechnology due to their stability, simple production, and cost efficiency, but their effectiveness is limited by slow electron transfer rates.
  • The new oligomeric nanozyme (O-NZ) achieves incredibly fast electron transfer, resulting in significantly enhanced catalytic activity that matches natural enzymes in performance.
  • O-NZ has shown promising results in improving survival rates and cognitive recovery in mice after acute brain trauma by reducing harmful compounds and inflammation in the body.

Article Abstract

Artificial enzymes have attracted wide interest in disease diagnosis and biotechnology due to high stability, easy synthesis, and cost effectiveness. Unfortunately, their catalytic rate is limited to surface electron transfer, affecting the catalytic and biological activity. Here, we report an oligomeric nanozyme (O-NZ) with ultrafast electron transfer, achieving ultrahigh catalytic activity. O-NZ shows electron transfer of 1.8 nanoseconds in internal cores and 1.2 picoseconds between core and ligand molecule, leading to ultrahigh superoxidase dismutase–like and glutathione peroxidase–like activity (comparable with natural enzyme, Michaelis constant = 0.87 millimolars). Excitingly, O-NZ can improve the 1-month survival rate of mice with acute brain trauma from 50 to 90% and promote the recovery of long-term neurocognition. Biochemical experiments show that O-NZ can decrease harmful peroxide and superoxide via in vivo catalytic chain reaction and reduce acute neuroinflammation via nuclear factor erythroid-2 related factor 2–mediated up-regulation of heme oxygenase-1 expression.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC8580303PMC
http://dx.doi.org/10.1126/sciadv.abk1210DOI Listing

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