This is a demo store. No orders will be fulfilled.

Endogenous Iron(II) Self-Enriched Fenton Nanocatalyst via FTH1 Activity Inhibition and Iron(III) Reduction for Amplified Cancer Ferroptosis Therapy

MOLECULAR PHARMACEUTICS [2025]
Ying Chen, Qin Ma, Jun Zhang, Jianhang Li, Yu’e Wang, Yongchao Yao, Yang Ding, Xin Dai, Xinghong Luo, Linjing Wu, Ling Tao, Xiangchun Shen
ABSTRACT

Due to the increased expression of iron storage proteins in cancer cells, utilizing the endogenous iron-catalyzed Fenton reaction for cancer ferroptosis therapy has recently emerged as a prominent research focus. However, endogenous iron primarily exists within ferroxidase FTH1 in the Fe (III)-bound state, hindering the effective catalysis of the Fenton reaction. Herein, an endogenous iron(II) self-enriched Fenton nanocatalyst (BAI@cLANCs) is fabricated by encapsulating the FTH1 inhibitor baicalin (BAI) in cross-linked lipoic acid nanocarriers (cLANCs) to amplify endogenous ferroptosis. Once internalized, BAI@cLANCs are disrupted by glutathione (GSH) in tumor cells to release BAI, which inhibits FTH1 activity and hinders Fe2+ oxidation. Meanwhile, cLANCs degrade into dihydrolipoic acid (DHLA), which reduces Fe3+ to Fe2+, synergically enriching endogenous Fe2+. Simultaneously, both BAI and DHLA stimulate H2O2 production and facilitate the Fenton reaction to produce abundant ·OH, thereby triggering lipid peroxidation and inducing tumor ferroptosis. Moreover, the reduction of Fe3+ to Fe2+ depletes GSH, facilitating ·OH production and inactivating glutathione peroxidase-4, ultimately amplifying tumor ferroptosis. Overall, this work highlights the potential of an endogenous iron(II) self-enriched Fenton nanocatalyst for cancer ferroptosis therapy, providing a paradigm for amplifying endogenous ferroptosis by inhibiting FTH1 activity and reducing iron(III) to enrich endogenous iron(II).

MATERIALS

Shall we send you a message when we have discounts available?

Remind me later

Thank you! Please check your email inbox to confirm.

Oops! Notifications are disabled.