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Bifunctional Tellurium Nanodots for Photo-Induced Synergistic Cancer Therapy.

Tao YangHengte KeQiaoli WangYong'an TangYibin DengHong YangXiangliang YangPeng YangDaishun LingChunying ChenYu-Liang ZhaoHong WuHuabing Chen
Published in: ACS nano (2017)
Elemental tellurium (Te) nanoparticles are increasingly important in a variety of applications such as thermoelectricity, photoconductivity, and piezoelectricity. However, they have been explored with limited success in their biomedical use, and thus a tremendous challenge still exists in the exploration of Te nanoparticles that can treat tumors as an effective anticancer agent. Here, we introduce bifunctional Te nanodots with well-defined nanostructure as an effective anticancer agent for photo-induced synergistic cancer therapy with tumor ablation, which is accomplished using hollow albumin nanocages as a nanoreactor. Under near-infrared light irradiation, Te nanodots can produce effective photothermal conversion, as well as highly reactive oxygen species such as •O2- and dismutated •OH via a type-I mechanism through direct electron transfer, thereby triggering the potent in vivo hyperthermia and simultaneous intracellular reactive oxygen species at tumors. Moreover, Te nanodots possess perfect resistance to photobleaching, effective cytoplasmic translocation, preferable tumor accumulation, as well as in vivo renal elimination, promoting severe photo-induced cell damage and subsequent synergy between photothermal and photodynamic treatments for tumor ablation. These findings provide the insight of elemental Te nanodots for biomedical research.
Keyphrases
  • cancer therapy
  • reactive oxygen species
  • drug delivery
  • electron transfer
  • high glucose
  • diabetic rats
  • drug induced
  • oxidative stress
  • endothelial cells
  • single cell
  • mesenchymal stem cells
  • early onset
  • cell therapy