1. Academic Validation
  2. ROS-triggered cycle amplification effect: A prodrug activation nanoamplifier for tumor-specific therapy

ROS-triggered cycle amplification effect: A prodrug activation nanoamplifier for tumor-specific therapy

  • Acta Biomater. 2022 Sep 7;S1742-7061(22)00556-6. doi: 10.1016/j.actbio.2022.08.072.
Zeqian Huang 1 Yaqing Ding 1 Yong Luo 1 Meixu Chen 1 Zishan Zeng 1 Tao Zhang 1 Yue Sun 1 Yanjuan Huang 1 Chunshun Zhao 2
Affiliations

Affiliations

  • 1 School of Pharmaceutical Sciences, Sun Yat-Sen University, Guangzhou 510006, PR China.
  • 2 School of Pharmaceutical Sciences, Sun Yat-Sen University, Guangzhou 510006, PR China. Electronic address: zhaocs@mail.sysu.edu.cn.
Abstract

Selective in situ activation of prodrugs or generation of bioactive drugs is an important approach to reducing the side effects of chemotherapy. Herein, a tailored ROS-activable prodrug nanomedicine (Cu-SK@DTC-PPB) was developed as the prodrug activation nanoamplifier for highly selective antitumor therapy. Cu-SK@DTC-PPB was rationally constructed by the diethyldithiocarbamate (DTC) prodrug DTC-PPB and the nanoscale coordinated framework Cu-SK based on copper and the ROS generator shikonin (SK). Cu2+, SK and DTC were kept in the inactive state in the fabricated Cu-SK@DTC-PPB. In the presence of ROS within tumors, DTC-PPB can be activated to release less cytotoxic DTC, which can rapidly chelate Cu2+ from the Cu-SK framework to synthesize highly cytotoxic Cu(DTC)2 and induce SK to release in a cascade. The released SK can generate ROS to increase the intracellular ROS level, further activating DTC-PPB to release more DTC. That is, Cu-SK@DTC-PPB can undergo a self-amplifying positive feedback loop to induce numerous bioactive Cu(DTC)2 formation and SK release triggered by a small amount of ROS within the tumor microenvironment, which endows the transformation of "less toxic-to-high toxic" and thus significantly improve its selectivity towards tumors. Therefore, this study provides a new strategy of prodrug activation for tumor therapy with high efficiency and low toxicity. STATEMENT OF SIGNIFICANCE: Owing to the striking difference in ROS level between Cancer cells and normal cells, ROS-responsive prodrugs are regarded as a promising approach for tumor-specific therapy. However, the stability and responsiveness of prodrugs are hard to balance. Preferable sensitivity may cause premature activation while favorable stability may lead to incomplete prodrug activation and insufficient active drug release. This study provides a tailored ROS-responsive prodrug activation nanoamplifier with favorable stability and effective prodrug activation capacity. The nanoamplifier can undergo a self-amplifying positive feedback loop to achieve numerous bioactive drugs generation in situ under ROS triggers within the tumor microenvironment, showing the enhanced antitumor therapeutic effect. Thus, this study provides a new strategy for prodrug activation and tumor-specific therapy.

Keywords

Copper complex; Prodrug nanomedicine; ROS-responsive; Self-amplifying; Shikonin; Tumor-specific therapy.

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