Novel Platinum Therapeutics Induce Rapid Cancer Cell Death Through Triggering Intracellular ROS Storm

Overview

Journal Biomaterials

Specialty Biomedical Engineering

Date 2024 Sep 14

PMID 39276409

Authors

Yongbin Liu

Dongfang Yu

Xueying Ge

Lingyi Huang

Ping-Ying Pan

Haifa Shen

Roderic I Pettigrew

Shu-Hsia Chen

Junhua Mai

Affiliations

Soon will be listed here.

Abstract

Induction of reactive oxygen species (ROS) production in cancer cells plays a critical role for cancer treatment. However, therapeutic efficiency remains challenging due to insufficient ROS production of current ROS inducers. We designed a novel platinum (Pt)-based drug named "carrier-platin" that integrates ultrasmall Pt-based nanoparticles uniformly confined within a poly(amino acids) carrier. Carrier-platin dramatically triggered a burst of ROS in cancer cells, leading to cancer cell death as quick as 30 min. Unlike traditional Pt-based drugs which induce cell apoptosis through DNA intercalation, carrier-platin with superior ROS catalytic activities induces a unique pattern of cancer cell death that is neither apoptosis nor ferroptosis and operates independently of DNA damage. Importantly, carrier-platin demonstrates superior anti-tumor efficacy against a broad spectrum of cancers, particularly those with multidrug resistance, while maintaining minimal systemic toxicity. Our findings reveal a distinct mechanism of action of Pt in cancer cell eradication, positioning carrier-platin as a novel category of anti-cancer chemotherapeutics.

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