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Long circulation and tumor-targeting biomimetic nanoparticles for efficient chemo/photothermal synergistic therapy.

Yifan ZhangXuanyu YueShengchao YangXianglong LiLin CuiXiaobin CuiYue ShiZhiyong LiuXuhong GuoYongsheng Li
Published in: Journal of materials chemistry. B (2022)
Photothermal therapy combined with chemotherapy based on nanomedicine has been considered a promising strategy for improving therapeutic efficacy in a tumor. However, nanomedicine can be easily cleared by the immune system without specific surface engineering modifications, thus affecting the ultimate efficacy. Herein, multifunctional biomimetic nanoparticles (Bio-RBCm@PDA@MSN-DOX) with enhanced long circulation and targeting ability are constructed by coating large pore-sized mesoporous silica (MSN) with polydopamine (PDA) layers in a biotin modified red blood cell membrane (Bio-RBCm) for efficient chemo/photothermal synergistic therapy. It is demonstrated that Bio-RBCm@PDA@MSN-DOX presents high photothermal conversion efficiency (40.17%) and enhanced capability to accelerate the release of the anticancer drug (doxorubicin, DOX), thus showing a good synergistic therapeutic effect in cell experiments. More importantly, with the assistance of the biotin and RBC membrane, Bio-RBCm@PDA@MSN-DOX can successfully evade immune clearance and effectively target transport to HeLa tumor sites, finally accomplishing up to 98.95% tumor inhibition with negligible side effects to normal tissues. This multilayer structure presents a valuable model for future therapeutic applications with safe and effective tumor chemotherapy and photothermal therapy.
Keyphrases
  • cancer therapy
  • drug delivery
  • photodynamic therapy
  • emergency department
  • locally advanced
  • radiation therapy
  • single cell
  • drug release
  • pi k akt
  • combination therapy
  • rectal cancer
  • current status
  • drug induced