Breast cancer ranks among the most prevalent malignant tumors globally, underscoring the urgent need for efficient and low-toxicity treatment strategies. In this study, a novel nanomedicine (BBR-SA) was constructed based on the self-assembled of berberine (BBR) and sinapic acid (SA) for synergistic chemotherapy. Firstly, utilizing π-π stacking, hydrogen bonding, and electrostatic forces between BBR and SA, the BBR-SA achieved a well-defined nanostructure with high drug-loading capacity and favorable water dispersibility. Furthermore, BBR-SA nanomedicine effectively inhibited the proliferation of mouse mammary carcinoma cells (4T1), showing a significantly stronger inhibitory effect than either BBR or SA alone. Moreover, the remarkable anti-tumor effect was obtained after treatment with BBR-SA nanomedicine in vivo, further demonstrating a synergistic therapeutic effect. More importantly, no significant systemic toxicity was observed after 28 days of intravenous administration with BBR-SA nanomedicine. In summary, the BBR-SA nanomedicine represents a safe and effective therapeutic strategy for breast cancer, offering new perspectives on the application of the traditional chinese medicine in anti-tumor therapy.
Zhao et al. (Tue,) studied this question.