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Submitted: 20 Nov 2025
Revision: 25 May 2026
Accepted: 22 Jun 2026
ePublished: 01 Jul 2026
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Adv Pharm Bull. Inpress.
doi: 10.34172/apb.46791
  Abstract View: 45

Research Article

pH-Sensitive Folate-Targeted Liposomal Vitamin D Reprograms EZH2/STAT3 Axis and Induces Apoptosis, ROS, and Autophagy in MCF-7 Breast Cancer Cells

Soheil Abbaspour-Ravasjani ORCID logo, Rahim Shahvalizadeh ORCID logo, Malahat Safavi ORCID logo, Mina A frashteh Nour ORCID logo, Mahdi Talebi ORCID logo, Maryam Mohammadi, Hamed Hamishehkar* ORCID logo
*Corresponding Author: Email: [email protected]

Abstract

Background: Vitamin D3 (Vit D3) possesses pleiotropic anticancer activity; however, its clinical application is limited by poor bioavailability and nonselective cellular uptake. This study aimed to develop folate (FA)-targeted, pH-sensitive liposomes for enhanced delivery of Vit D3 to breast cancer cells and to evaluate their effects on the VDR/EZH2/STAT3 signaling axis. Methods: Vit D3-loaded pH-sensitive liposomes were formulated and characterized for particle size, zeta potential, encapsulation efficiency, stability, and pH-responsive release. Cellular uptake, cytotoxicity, clonogenicity, apoptosis, reactive oxygen species (ROS) generation, autophagy, cell-cycle distribution, RT-qPCR, and Western blotting were evaluated in MCF-7 cells. Results: The optimized formulations exhibited nanoscale particle size, high encapsulation efficiency, physicochemical stability, and enhanced acidic pH-triggered release. FA-targeted liposomes significantly increased cellular uptake and cytotoxicity compared with free Vit D3 and non-targeted liposomes, with IC50 values of 15, 11, and 7.2 IU · mL-1, respectively. Vit D3-PEG/lipo-FA induced a 3.2-fold upregulation of VDR expression while suppressing EZH2 and STAT3 expression by 60% and 50%, respectively. In addition, treatment increased Caspase-3, LC3B, and NOX4 expression, promoted apoptosis and ROS generation, altered cell-cycle progression, and markedly reduced clonogenic survival. Western blot analysis confirmed these molecular alterations at the protein level. Conclusion: FA-targeted pH-sensitive liposomal delivery significantly enhances the anticancer efficacy of Vit D3 in MCF-7 cells by modulating the VDR/EZH2/STAT3 axis and activating apoptosis-, autophagy-, and ROS-associated pathways, highlighting its potential as a targeted nanotherapeutic strategy for breast cancer treatment.
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