Mitochondrial H₂O₂ Generation Using a Tunable Chemogenetic Tool To Perturb Redox Homeostasis in Human Cells and Induce Cell Death

Author(s)

Stein, Kassi T.; Moon, Sun Jin; Sikes Johnson, Hadley

Additional downloads

Supporting Information_revised_submitted.docx (1.354Mb)

Mitochondrial H2O2 with SI.pdf (1.713Mb)

Abstract

Among reactive oxygen species (ROS), H₂O₂ alone acts as a signaling molecule that promotes diverse phenotypes depending on the intracellular concentration. Mitochondria have been suggested as both sources and sinks of cellular H₂O₂, and mitochondrial dysfunction has been implicated in diseases such as cancer. A genetically-encoded H₂O₂ generator, D-amino acid oxidase (DAAO), was targeted to the mitochondria of human cells, and its utility in investigating cellular response to a range of H₂O₂ doses over time was assessed. Organelle-specific peroxiredoxin dimerization and protein S-glutathionylation were measured as indicators of increased H₂O₂ flux due to the activity of DAAO. Cell death was observed in a concentration- and time-dependent manner, and protein oxidation shifted in localization as the dose increased. This work presents the first systematic study of H₂O₂-specific perturbation of mitochondria in human cells, and it reveals a marked sensitivity of this organelle to increases in H₂O₂ in comparison with prior studies that targeted the cytosol. Keywords: hydrogen peroxide; redox regulation; mitochondria; chemogenetic tools; peroxiredoxin

Date issued

2018-08-23

URI

https://hdl.handle.net/1721.1/122819

Department

Massachusetts Institute of Technology. Department of Chemical Engineering

Journal

ACS Synthetic Biology

Publisher

American Chemical Society

Citation

Stein, Kassi T. et al. "Mitochondrial H₂O₂ Generation Using a Tunable Chemogenetic Tool To Perturb Redox Homeostasis in Human Cells and Induce Cell Death." ACS Synthetic Biology, 7, 9 (September 2018): 2037-2044

Version: Author's final manuscript

ISSN

2161-5063