posted on 2024-10-19, 13:07authored byWeifei Zhang, Mengqing Li, Zhen Zhao, Jiangshan Xu, Junlin Liu, Pin Feng, Bin Zhang, Zhangheng Huang, Qing-Quan Kong, Yunfeng Lin
Metastatic osteosarcoma is a commonly seen malignant
tumor in adolescents,
with a five year survival rate of approximately 20% and a lack of
treatment options. Osteosarcoma cancer stem cells are considered to
be important drivers of the metastasis of osteosarcoma, and therefore
their clearance is considered a promising strategy for treating metastatic
osteosarcoma.
In the relevant literature, retinoic acid (ATRA) is considered effective
for eliminating osteosarcoma stem cells, but it has some inherent
disadvantages, including poor solubility, difficulty in entering cells,
and structural instability. Tetrahedral framework nucleic acids (tFNAs)
are a type of nanoparticles that can carry small-molecule drugs into
cells to exert therapeutic effects. Therefore, we designed and synthesized
a nanoparticle named T-ATRA by using tFNAs to load ATRA and studied
its effect in a nude mouse model. T-ATRA is more effective than ATRA
in the clearance of osteosarcoma stem cells and in inhibiting osteosarcoma
cell metastasis via the Wnt signaling pathway, thus prolonging the
survival time of nude mice with osteosarcoma.