期刊
PHARMACEUTICS
卷 13, 期 9, 页码 -出版社
MDPI
DOI: 10.3390/pharmaceutics13091428
关键词
hydroxyapatite; siRNA delivery; pancreatic cancer cells; KRAS gene; gene silence; anticancer
资金
- Zhejiang Key Project for Science and Technology [2021C01180]
- Zhejiang International Science and Technology Cooperation Project [2019C04020]
- National Natural Science Foundation of China [51272236, 51672250]
A novel nanoparticle HAp-PEI/siKras was successfully fabricated for efficient targeted delivery of siRNA to pancreatic cancer cells, achieving successful gene silencing and tumor-targeted therapy. Experimental results confirmed its effectiveness in inhibiting pancreatic cancer cell proliferation in vitro, while exhibiting no cytotoxicity towards normal pancreatic cells.
Pancreatic carcinoma (PC) is greatly induced by the KRAS gene mutation, but effective targeted delivery for gene therapy has not existed. Small interfering ribonucleic acid (siRNA) serves as an advanced therapeutic modality and holds great promise for cancer treatment. However, the development of a non-toxic and high-efficiency carrier system to accurately deliver siRNA into cells for siRNA-targeted gene silencing is still a prodigious challenge. Herein, polyethylenimine (PEI)-modified hydroxyapatite (HAp) nanoparticles (HAp-PEI) were fabricated. The siRNA of the KRAS gene (siKras) was loaded onto the surface of HAp-PEI via electrostatic interaction between siRNA and PEI to design the functionalized HAp-PEI nanoparticle (HAp-PEI/siKras). The HAp-PEI/siKras was internalized into the human PC cells PANC-1 to achieve the maximum transfection efficiency for active tumor targeting. HAp-PEI/siKras effectively knocked down the expression of the KRAS gene and downregulated the expression of the Kras protein in vitro. Furthermore, the treatment with HAp-PEI/siKras resulted in greater anti-PC cells' (PANC-1, BXPC-3, and CFPAC-1) efficacy in vitro. Additionally, the HAp-PEI exhibited no obvious in vitro cytotoxicity in normal pancreatic HPDE6-C7 cells. These findings provided a promising alternative for the therapeutic route of siRNA-targeted gene engineering for anti-pancreatic cancer therapy.
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