Fis1 regulates mitochondrial morphology, bioenergetics, and removal of mtDNA damage in irradiated glioblastoma cells

In response to external stress, mitochondrial dynamics is often disrupted, but the associated physiologic changes are often uncharacterized. In many cancers, including glioblastoma (GBM), mitochondrial dysfunction has been observed. Understanding how mitochondrial dynamics and physiology contribute to treatment resistance will lead to more targeted and effective therapeutics. This study aims to uncover how mitochondria in GBM cells adapt to and resist ionizing radiation (IR), a component of the standard of care for GBM. Using several approaches, we investigated how mitochondrial dynamics and physiology adapt to radiation stress and uncover a novel role for Fis1, a pro-fission protein, in regulating the stress response through mitochondrial DNA (mtDNA) maintenance and altered mitochondrial bioenergetics. Importantly, our data demonstrate that increased fission in response to IR leads to removal of mtDNA damage and more efficient oxygen consumption through altered ETC activities in intact mitochondria. These findings demonstrate a key role for Fis1 in targeting damaged mtDNA for degradation and regulating mitochondrial bioenergetics through altered dynamics.