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Mitochondrial reactive oxygen species impact human fibroblast responses to protracted γ-ray exposures. | LitMetric

AI Article Synopsis

  • Continuous exposure to low-dose ionizing radiation during deep space missions poses significant health risks, particularly affecting mitochondrial function and prompting a need for protective measures.
  • Mitochondria generate reactive oxygen species (mtROS), which can lead to broader biological impacts, influencing gene expression and protein secretion in response to radiation.
  • The study found that a mitochondria-specific antioxidant, mitoTEMPO (MT), mitigated some radiation effects on fibroblasts, indicating that targeting mtROS could help protect against tissue injury from prolonged radiation exposure.

Article Abstract

Continuous exposure to ionizing radiation at a low dose rate poses significant health risks to humans on deep space missions, prompting the need for mechanistic studies to identify countermeasures against its deleterious effects. Mitochondria are a major subcellular locus of radiogenic injury, and may trigger secondary cellular responses through the production of reactive oxygen species (mtROS) with broader biological implications. To determine the contribution of mtROS to radiation-induced cellular responses, we investigated the impacts of protracted γ-ray exposures (IR; 1.1 Gy delivered at 0.16 mGy/min continuously over 5 days) on mitochondrial function, gene expression, and the protein secretome of human HCA2-hTERT fibroblasts in the presence and absence of a mitochondria-specific antioxidant mitoTEMPO (MT; 5 µM). IR increased fibroblast mitochondrial oxygen consumption (O) and HO release rates (HO) under energized conditions, which corresponded to higher protein expression of NADPH Oxidase (NOX) 1, NOX4, and nuclear DNA-encoded subunits of respiratory chain Complexes I and III, but depleted mtDNA transcripts encoding subunits of the same complexes. This was associated with activation of gene programs related to DNA repair, oxidative stress, and protein ubiquination, all of which were attenuated by MT treatment along with radiation-induced increases in O and HO. IR also increased secreted levels of interleukin-8 and Type I collagens, while decreasing Type VI collagens and enzymes that coordinate assembly and remodeling of the extracellular matrix. MT treatment attenuated many of these effects while augmenting others, revealing complex effects of mtROS in fibroblast responses to IR. These results implicate mtROS production in fibroblast responses to protracted radiation exposure, and suggest potentially protective effects of mitochondrial-targeted antioxidants against radiogenic tissue injury in vivo.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11471570PMC
http://dx.doi.org/10.1080/09553002.2024.2338518DOI Listing

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