Abstract
The treatment options currently offered for triple-negative breast cancer (TNBC) encounter numerous obstacles, including disappointing overall survival rates, unavoidable side effects, and the development of drug resistance. Additionally, there is a growing need for nutrients, like vitamins (e.g., biotin), to sustain the unregulated growth of TNBC cells. Hence, targeted therapy (LPT B-MM) for enhancing the treatment of TNBC was explored which encompassed hydrophobized [using α-TOS (α-Tocopheryl succinate] Pluronic-based mixed micelles having inherent sodium-dependent multivitamin transporter (SMVT) targeting (biotin-stapled) ability. LPT B-MM had optimal size (210.72± 25.88 nm), PDI (0.272± 0.023), and enhanced drug loading capacity (∼13.31± 2.12%). Transmission electron microscopy validated the spherical shape of these micelles. In vitro release studies demonstrated drug release in a sustained manner without the risk of hemolysis. Importantly, LPT B-MM displayed heightened cellular uptake, increased cytotoxicity, a lower IC50 value, elevated reactive oxygen species, induced mitochondrial membrane depolarization, and a greater apoptosis index in TNBC cell lines compared to free LPT. This study highlights the considerable potential of LPT B-MM to induce apoptosis, showcasing its promise in enhancing payload capabilities and enabling SMVT specific targeting within the context of TNBC. LPT B-MM demonstrated the synergistic effects of LPT and α-TOS in inducing apoptosis in TNBC cells, leading to enhanced therapeutic efficacy. This novel combination therapy offers a promising strategy for improving treatment outcomes in TNBC patients and represents a significant advancement in the field of TNBC therapy.
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