Multifunctional Liposomes Enable Active Targeting and Twinfilin 1 Silencing to Reverse Paclitaxel Resistance in Brain Metastatic Breast Cancer

紫杉醇 转移性乳腺癌 乳腺癌 癌症研究 基因沉默 基因敲除 阳离子脂质体 药物输送 抗药性 癌细胞 癌症 药理学 医学 遗传增强 内科学 生物 细胞凋亡 材料科学 纳米技术 基因 生物化学 微生物学
作者
Jiawei Du,Yong Shao,Yue Hu,Yiwen Chen,Jiehui Cang,Xin Chen,Wenqin Pei,Fengqin Miao,Yuqing Shen,Mohd. Muddassir,Ying Zhang,Jianqiong Zhang,Gao‐Jun Teng
出处
期刊:ACS Applied Materials & Interfaces [American Chemical Society]
卷期号:13 (20): 23396-23409 被引量:32
标识
DOI:10.1021/acsami.1c02822
摘要

Paclitaxel (PTX) is a first-line chemotherapeutic drug for breast cancer, but PTX resistance often occurs in metastatic breast cancer. In addition, due to the poor targeting of chemotherapeutic drugs and the presence of the blood–brain barrier (BBB), it is hard to effectively treat brain metastatic breast cancer using paclitaxel. Thus, it is urgent to develop an effective drug delivery system for the treatment of brain metastatic breast cancer. The current study found that TWF1 gene, an epithelial–mesenchymal transition-associated gene, was overexpressed in brain metastatic breast cancer (231-BR) cells and was associated with the PTX resistance of 231-BR cells. Knockdown of TWF1 by small interference RNA (siRNA) in 231-BR cells could effectively increase the sensitivity of brain metastatic breast cancer cells to paclitaxel. Then, a liposome-based drug delivery system was developed for PTX delivery across BBB, enhancing PTX sensitivity and brain metastases targeting via BRBP1 peptide modification. The results showed that BRBP1-modified liposomes could effectively cross the BBB, specifically accumulate in brain metastases, and effectively interfere TWF1 gene expression in vitro and in vivo, and thus they enhanced proliferation inhibition, cell cycle arrest, and apoptosis induction, thereby inhibiting the formation and growth of brain metastases. In summary, our results indicated that BRBP1-modified and PTX- and TWF1 siRNA-loaded liposomes have the potential for the treatment of brain metastatic breast cancer, which lays the foundation for the development of a new targeted drug delivery system.
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