Mitochondrial transfer of drug-loaded artificial mitochondria for enhanced anti-Glioma therapy through synergistic apoptosis/ferroptosis/immunogenic cell death.

Acta Biomater

School of Pharmacy, Jinzhou Medical University, Jinzhou 121000, PR China; Key Laboratory of Neurodegenerative Diseases of Liaoning Province, Jinzhou Medical University, Jinzhou, China; Collaborative Innovation Center for Age-related Disease, Jinzhou Medical University, Jinzhou, Liaoning, China. Electronic address:

Published: December 2024

Mitochondrial targeting in gliomas represents a novel therapeutic strategy with significant potential to enhance drug sensitivity by effectively killing glioma cells at the mitochondrial level. In this study, we developed artificial mitochondria derived from mitochondrial membrane-based nanovesicles, enabling precise mitochondrial targeting of doxorubicin (Dox) to selectively eradicate cancer cells by amplifying multiple cell death pathways. It was found that Dox-encapsulating mitochondria-based nanovesicles (DOX-MitoNVs) exhibited an extraordinary ability to penetrate the blood-brain barrier (BBB), specifically targeting gliomas. By targeting mitochondria instead of locating at the nucleus, DOX-MitoNVs not only amplified Dox mediated apoptosis effects through the overloading of intracellular Ca but also intensified ferroptosis by generating reactive oxygen species (ROS). Furthermore, DOX-MitoNVs demonstrated a significant ability to modulate the tumor immune microenvironment, thereby inducing pronounced immunogenic cell death (ICD) effects. In summary, it presents a novel therapeutic strategy utilizing DOX-MitoNVs for precise mitochondrial targeting in gliomas, enhancing drug sensitivity, inducing multiple cell death pathways, and modulating the tumor immune microenvironment to promote immunogenic cell death. STATEMENT OF SIGNIFICANCE: Mitochondrial targeting in gliomas is a promising therapeutic strategy that enhances drug sensitivity by exploiting glioma cells' mitochondrial vulnerabilities. We engineered mitochondrial membrane-based nanovesicles as artificial mitochondria for precise mitochondrial targeting of Dox. This approach facilitates selective cancer cell eradication and amplifies multiple cell death pathways alongside immunogenic chemotherapy. Notably, DOX-MitoNVs effectively cross the BBB and specifically target gliomas. By focusing on mitochondria, Dox induces apoptosis and intensifies ferroptosis through ROS generation. Additionally, DOX-MitoNVs can transform the tumor immune microenvironment, promoting ICD. Overall, DOX-MitoNVs offer a promising platform for enhanced glioma therapy.

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Source
http://dx.doi.org/10.1016/j.actbio.2024.12.027DOI Listing

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