Materials & Design (Jan 2023)
Natural small molecule self-assembled hydrogel inhibited tumor growth and lung metastasis of 4T1 breast cancer by regulating the CXCL1/2-S100A8/9 axis
Abstract
It is crucial to inhibit tumor growth and distant metastasis for breast cancer (BC) therapy. However, the treatment primarily dependent on surgery, chemotherapy, and radiotherapy is far from satisfactory. It had been demonstrated that the CXCL1/2-S100A8/9 axis played an essential role in BC therapy. Therefore, we constructed a natural product hydrogel for BC therapy by blocking CXCL1 signaling. The GK-GA (phytochemicals of Genkwa Flos-glycyrrhizic acid) hydrogel was designed in a one-step “green” approach. The pharmacodynamics study showed GK-GA exhibited significant anti-tumor and anti-lung metastasis activities, resulting in the inhibition rate of tumor growth (IRG) over 90 % at 6.25 mg·kg−1, and did not display any obvious toxicity. In addition, the potent antitumor efficiency was also attributed to aggregation/assembly-induced retention (AIR) property. RNA sequencing analysis revealed the gene expression was significantly down-regulated in the GK-GA group, which were BCL2, CASP3, CXCL1, CXCL2, CXCR2, S100A8, S100A9, and confirmed further by western blot (WB). Our findings indicated natural product GK-GA hydrogel inhibited tumor growth and lung metastasis via the BCL2-CASP3 mitochondrial apoptosis pathway as well as the CXCL1/2-S100A8/9 pathway. This study provides inspiration for the fabrication of new excipients-free nano-dispersion in a one-step, no‐carrier‐added, organic solvent-free, “green” approach, particularly for small molecular antitumor agents.
