Materials Today Advances (Jun 2023)

EGFR-antagonistic affibody-functionalized Pt-based nanozyme for enhanced tumor radiotherapy

  • Haijun Wang,
  • Xichen Zhao,
  • Heng Zhang,
  • Xianwen Zou,
  • Dianlong Jia,
  • Wenjian Liu,
  • Baoqing Tian,
  • Dandan Yuan,
  • Yihui Li,
  • Yao Zhu,
  • Fan Zhang,
  • Yongsi Dai,
  • Yu Fan,
  • Yuchun Wei,
  • Xiao Sun,
  • Qing Fan,
  • Jian Dong

Journal volume & issue
Vol. 18
p. 100375

Abstract

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Clinical radiotherapy (RT) is severely limited by hypoxic tumor microenvironment and a lack of targeting precision. Therefore, it is crucial to develop highly efficient radiosensitizers to enhance RT efficacy. Herein, a novel kind of epidermal growth factor receptor (EGFR)-antagonistic affibody-functionalized Pt-based nanozyme for RT sensitization to EGFR-positive tumors was developed. In this study, porous platinum nanoparticles (pPt NPs) featuring catalase (CAT)-like activity and strong radiation energy absorption ability were first synthesized. Then, a thin biomimetic polydopamine (PDA) layer was coated on pPt NPs to optimize its biocompatibility as well as provide a reactive surface. Finally, a dimeric EGFR-antagonistic affibody called ZEGFR expressed by the Escherichia coli (E. coli), was conjugated to pPt@PDA NPs (termed pPt@PDA-ZEGFR NPs) to precisely recognize EGFR-positive A431 tumors. Under the navigation of ZEGFR, superior tumor homing was achieved with these Pt-based nanozymes, which was ascribed to EGFR receptor-mediated endocytosis. As high-Z metal NPs exhibit an inherently strong ability to absorb radiation energy and catalyze endogenous H2O2 in tumors, the pPt@PDA-ZEGFR NPs demonstrated superb therapeutic efficacy; specifically, the NPs significantly inhibited HIF-1α expression and increased RT-induced DNA damage. Furthermore, the biosafety of these Pt-based nanozymes was good during short-term treatment. In summary, EGFR-antagonistic affibody-functionalized Pt-based nanozymes are promising radiosensitizers for the precise therapy of EGFR-positive tumors.

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