Abstract

Background/Objectives: Breast cancer remains a leading cause of cancer-related mortality worldwide, primarily due to the systemic toxicity and drug resistance associated with conventional doxorubicin (DOX) therapy. To overcome these limitations, we developed and optimized a novel cationic-ionizable lipid nanoparticle platform, QTPlus, for the co-delivery of DOX and siRNA targeting fibroblast growth factor 2 (siFGF2). Methods: The study evaluated the physicochemical properties, cellular uptake, gene regulation, apoptosis induction, and in vivo antitumor efficacy and safety of QTPlus-DOX-siFGF2 in breast cancer models. Results: QTPlus nanoparticles based on the A-066 formulation achieved uniform particle size (~218 nm), low polydispersity (PDI 0.164–0.214), and high encapsulation efficiencies (DOX: 49.56 ± 0.15%; siFGF2: 77.66 ± 1.30%). In vitro release studies revealed a robust pH-responsive profile, characterized by sustained stability at physiological pH (7.4) and rapid burst release at acidic endosomal pH (5.5). In MCF-7 and MDA-MB-231 cells, QTPlus-DOX-siFGF2 significantly enhanced cellular uptake, downregulated FGF2 (0.639-fold) and VIM (0.373-fold), and upregulated CASP3 (3.364-fold in siFGF2 group) and BRCA1 (4.041-fold). Flow cytometry showed markedly increased apoptosis (78.5% vs. 42.65% for QTPlus-DOX alone). In the MDA-MB-231 xenograft model, QTPlus-DOX-siFGF2 achieved 65.87% tumor growth inhibition with stable body weights and favorable trends in cardiotoxic biomarkers. Conclusions: These results demonstrate that QTPlus enables effective co-delivery of DOX and siFGF2, producing synergistic antitumor effects through apoptosis induction and suppression of epithelial–mesenchymal transition while improving the safety profile. QTPlus-DOX-siFGF2 represents a promising nanotherapeutic strategy for breast cancer warranting further clinical development.

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