Litcius/Paper detail

COX4-1 promotes mitochondrial supercomplex assembly and limits reactive oxide species production in radioresistant GBM

Claudia R. Oliva, Md. Yousuf Ali, Susanne Flor, Corinne E. Griguer

2022Cell Stress19 citationsDOIOpen Access PDF

Abstract

Glioblastoma (GBM) is a fatal disease with recurrences often associated with radioresistance. Although often effective at treating newly diagnosed GBM, increasing evidence suggests that radiotherapy-induced alterations in tumor metabolism promote GBM recurrence and aggressiveness. Using isogenic radiosensitive and radioresistant GBM cell lines and patient-derived xenolines, we found that acquired radioresistance is associated with a shift from a glycolytic metabolism to a more oxidative metabolism marked by a substantial increase in the activity of the mitochondrial res-piratory chain complex cytochrome c oxidase (CcO). This elevated CcO ac-tivity was associated with a switch in the isoform expression of the CcO regulatory subunit COX4, from COX4-2 to COX4-1, assembly of CcO-containing mitochondrial supercomplexes (SCs), and reduced superoxide (O2●-) production. Overexpression of COX4-1 in the radiosensitive cells was sufficient to promote the switch from glycolytic to oxidative metabolism and the incorporation of CcO into SCs, with a concomitant reduction in O2●- production. Conversely, silencing of COX4-1 expression in normally radiore-sistant cells reduced CcO activity, promoted the disassembly of mitochon-drial SCs, and increased O2●- production. Additionally, gain or loss of COX4-1 expression was sufficient to induce the radioresistant or radiosensitive phenotype, respectively. Our results demonstrate that COX4-1 promotes SC assembly in GBM cells, and SC assembly may in turn regulate the pro-duction of reactive oxygen species and thus the acquisition of radiore-sistance in GBM.

Topics & Concepts

RadioresistanceRespiratory chainMitochondrionGlycolysisOxidative phosphorylationBiologyChemistryCancer researchBiochemistryMetabolismCell cultureGeneticsMitochondrial Function and PathologyATP Synthase and ATPases ResearchCancer, Hypoxia, and Metabolism