Cancer Nanotechnology (Apr 2024)

Nanoparticle delivery of si-Notch1 modulates metabolic reprogramming to affect 5-FU resistance and cell pyroptosis in colorectal cancer

  • Dan-dan Li,
  • Jia-cheng Jin,
  • Xuan-wen Liu,
  • Shu-yang Liu,
  • Fu-jian Ji,
  • Tong Liu

DOI
https://doi.org/10.1186/s12645-024-00259-1
Journal volume & issue
Vol. 15, no. 1
pp. 1 – 23

Abstract

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Abstract Background Nanocarrier delivery of small interfering RNAs (siRNAs) to silence cancer-associated genes is a promising method for cancer treatment. Here, we explored the role and mechanisms of PLAG NPs-delivered si-Notch1 in colorectal cancer (CRC). Results High Notch1 expression was observed in both sensitive and resistant CRC tissues and cells. Notch1 silencing repressed proliferation and facilitates apoptosis of resistant CRC cells, and suppressed glycolysis and promoted pyroptosis in resistant CRC cells. Notch1 directly interacts with PCAF. Notch1 knockdown’s suppressive effect on glycolysis was reversed by overexpression of PCAF. Moreover, a nanocarrier called PLAG NPs was built with a higher delivery efficiency compared with lipo2000. Si-Notch1 delivered by PLAG NPs efficiently overcame the CRC cells’ 5-FU resistance and facilitated pyroptosis in a CRC mouse model. Conclusions PLAG NPs carrying si-Notch1 had a great advantage in the extension of half-life circulation and targeting ability, providing a theoretical foundation for precise clinical treatment of CRC.

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