Mitochondrial adaptation in human mesenchymal stem cells following ionizing radiation

ABSTRACT Mitochondria are highly dynamic organelles that respond rapidly to a number of stressors to regulate energy transduction, cell death signaling, and reactive oxygen species generation. We hypothesized that mitochondrial remodeling, comprising both structural and functional alterations, follo...

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Published in:The FASEB journal 2019-08, Vol.33 (8), p.9263-9278
Main Authors: Patten, David A., Ouellet, Mathieu, Allan, David S., Germain, Marc, Baird, Stephen D., Harper, Mary‐Ellen, Richardson, Richard B.
Format: Article
Language:English
Subjects:
bioenergetics
ETC supercomplexes
mitochondrial dynamics
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Summary:ABSTRACT Mitochondria are highly dynamic organelles that respond rapidly to a number of stressors to regulate energy transduction, cell death signaling, and reactive oxygen species generation. We hypothesized that mitochondrial remodeling, comprising both structural and functional alterations, following ionizing radiation (IR) may underlie some of the tenets of radiobiology. Mesenchymal stem cells (MSCs) are precursors of bone marrow stroma and are altered in acute myeloid leukemia and by radiation and chemotherapy. Here, we report on changes in mitochondrial remodeling in human MSCs following X‐ray IR. Mitochondrial function was significantly increased in MSCs 4 h after IR as measured by mitochondrial oxygen consumption. Consistent with this elevated functional effect, electron transport chain supercomplexes were also increased in irradiated samples. In addition, mitochondria were significantly, albeit modestly, elongated, as measured by high‐throughput automated confocal imaging coupled with automated mitochondrial morphometric analyses. We also demonstrate in fibroblasts that mitochondrial remodeling is required for the adaptation of cells to IR. To determine novel mechanisms involved in mitochondrial remodeling, we performed quantitative proteomics on isolated mitochondria from cells following IR. Label‐free quantitative mitochondrial proteomics revealed notable changes in proteins in irradiated samples and identified prosaposin, and potentially its daughter protein saposin‐B, as a potential candidate for regulating mitochondrial function following IR. Whereas research into the biologic effects of cellular irradiation has long focused on nuclear DNA effects, our experimental work, along with that of others, is finding that mitochondrial effects may have broader implications in the field of stress adaptation and cell death in cancer (including leukemia) and other disease states.—Patten, D. A., Ouellet, M., Allan, D. S., Germain, M., Baird, S. D., Harper, M.‐E., Richardson, R. B. Mitochondrial adaptation in human mesenchymal stem cells following ionizing radiation. FASEB J. 33, 9263–9278 (2019). www.fasebj.org
ISSN:0892-6638
1530-6860
DOI:10.1096/fj.201801483RR