PO.TB10.15 · 肿瘤生物学

Mito-EV-driven mitochondrial transfer: A trigger for ferroptosis in glioblastoma

海报缩略图:Mito-EV-driven mitochondrial transfer: A trigger for ferroptosis in glioblastoma
编号 3342 展板 3 时间 4/20 02:00–05:00 区域 Section 26 主讲 Junbo Liao, MD;M Phil
分会场 Extracellular Vesicles and Long-Range Tumor-Host Communication
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作者与单位

Junbo Liao, Shuhan Cao, Ka Kit Gilberto Leung, Karrie. M Kiang

Department of Surgery, The University of Hong Kong, Pokfulam, Hong Kong

摘要 Abstract

Background: Glioblastoma (GBM) is the most aggressive primary brain tumor, with limited therapeutic options due to metabolic adaptability and resistance to cell death. Ferroptosis, an iron-dependent pathway involving lipid peroxidation, offers a promising GBM target. Extracellular vesicle (EV)-based mitochondrial transfer enables intercellular shuttling of damaged mitochondria, modulating recipient cell metabolism in cancer microenvironments. During adipocyte thermogenesis, damaged mitochondria are released as Mito-EVs under stress conditions like obesity. This study explores how Mito-EV-mediated transfer from stressed adipocytes activates ferroptosis in GBM cells. Methods: Mito-EVs containing stressed mitochondria were isolated from adipocytes via centrifugation and characterized by microscopy and protein analysis. GBM cells were exposed to Mito-EVs for mitochondrial transfer, compared to free mitochondria, and confirmed by imaging. Ferroptosis was induced with activators and evaluated through cell death and stress markers. In vivo, circulating Mito-EVs from an obese mouse model were injected into GBM tumor models, alone or with ferroptosis agents, with tumor response assessed by imaging and tissue analysis. Results: Mito-EV transfer enhanced mitochondrial uptake in GBM cells over free mitochondria, integrating into networks and inducing oxidative stress. This increased ferroptosis sensitivity, with reduced activator requirements and altered cell death regulators. In vivo, Mito-EV treatment promoted ferroptosis and, when combined with activators, reduced tumor growth with ferroptosis evidence and low toxicity. Conclusions: Mito-EV-mediated mitochondrial transfer from stressed adipocytes boosts ferroptosis in GBM via oxidative stress, proposing a new strategy using circulating Mito-EVs for anticancer effects in obesity-linked contexts.
利益披露 Disclosure
J. Liao, None.. S. Cao, None.. K. Leung, None.. K. Kiang, None.

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