Asian Journal of Pharmaceutical Sciences (May 2023)

Implantation of hydrogel-liposome nanoplatform inhibits glioblastoma relapse by inducing ferroptosis

  • Zixiao Wang,
  • Zihao Liu,
  • Shan Wang,
  • Xin Bing,
  • Xiaoshuai Ji,
  • Dong He,
  • Min Han,
  • Yanbang Wei,
  • Chanyue Wang,
  • Qian Xia,
  • Jianqiao Yang,
  • Jiajia Gao,
  • Xianyong Yin,
  • Zhihai Wang,
  • Zehan Shang,
  • Jiacan Xu,
  • Tao Xin,
  • Qian Liu

Journal volume & issue
Vol. 18, no. 3
p. 100800

Abstract

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Glioblastoma is acknowledged as the most aggressive cerebral tumor in adults. However, the efficacy of current standard therapy is seriously undermined by drug resistance and suppressive immune microenvironment. Ferroptosis is a recently discovered form of iron-dependent cell death that may have excellent prospect as chemosensitizer. The utilization of ferropotosis inducer Erastin could significantly mediate chemotherapy sensitization of Temozolomide and exert anti-tumor effects in glioblastoma. In this study, a combination of hydrogel-liposome nanoplatform encapsulated with Temozolomide and ferroptosis inducer Erastin was constructed. The αvβ3 integrin-binding peptide cyclic RGD was utilized to modify codelivery system to achieve glioblastoma targeting strategy. As biocompatible drug reservoirs, cross-linked GelMA (gelatin methacrylamide) hydrogel and cRGD-coated liposome realized the sustained release of internal contents. In the modified intracranial tumor resection model, GelMA-liposome system achieved slow release of Temozolomide and Erastin in situ for more than 14 d. The results indicated that nanoplatform (T+E@LPs-cRGD+GelMA) improved glioblastoma sensitivity to chemotherapeutic temozolomide and exerted satisfactory anti-tumor effects. It was demonstrated that the induction of ferroptosis could be utilized as a therapeutic strategy to overcome drug resistance. Furthermore, transcriptome sequencing was conducted to reveal the underlying mechanism that the nanoplatform (T+E@LPs-cRGD+GelMA) implicated in. It is suggested that GelMA-liposome system participated in the immune response and immunomodulation of glioblastoma via interferon/PD-L1 pathway. Collectively, this study proposed a potential combinatory therapeutic strategy for glioblastoma treatment.

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