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Mitochondrial Oxidative Stress Impairs Energy Metabolism and Reduces Stress Resistance and Longevity of<i>C. elegans</i>

Benjamin Dilberger, Stefan Baumanns, Fabian Schmitt, Tommy Schmiedl, Martin Hardt, Uwe Wenzel, Gunter P. Eckert

Oxidative Medicine and Cellular Longevity · 2019 · ▲ 110 citations

Abstract

Introduction . Mitochondria supply cellular energy and are key regulators of intrinsic cell death and consequently affect longevity. The nematode Caenorhabditis elegans is frequently used for lifespan assays. Using paraquat (PQ) as a generator of reactive oxygen species, we here describe its effects on the acceleration of aging and the associated dysfunctions at the level of mitochondria. Methods . Nematodes were incubated with various concentrations of paraquat in a heat-stress resistance assay (37°C) using nucleic staining. The most effective concentration was validated under physiological conditions, and chemotaxis was assayed. Mitochondrial membrane potential ( ΔΨ m) was measured using rhodamine 123, and activity of respiratory chain complexes determined using a Clark-type electrode in isolated mitochondria. Energetic metabolites in the form of pyruvate, lactate, and ATP were determined using commercial kits. Mitochondrial integrity and structure was investigated using transmission electron microscopy. Live imaging after staining with fluorescent dyes was used to measure mitochondrial and cytosolic ROS. Expression of longevity- and mitogenesis-related genes were evaluated using qRT-PCR. Results . PQ (5 mM) significantly increased ROS formation in nematodes and reduced the chemotaxis, the physiological lifespan, and the survival in assays for heat-stress resistance. The number of fragmented mitochondria significantly increased. The ∆ Ψ m, the activities of complexes I-IV of the mitochondrial respiratory chain, and the levels of pyruvate and lactate were significantly reduced, whereas ATP production was not affected. Transcript levels of genetic marker genes, atfs-1 , atp-2 , skn-1 , and sir-2.1 , were significantly upregulated after PQ incubation, which implicates a close connection between mitochondrial dysfunction(definition) and oxidative stress response. Expression levels of aak-2 and daf-16 were unchanged. Conclusion . Using paraquat as a stressor, we here describe the association of oxidative stress, restricted energy metabolism, and reduced stress resistance and longevity in the nematode Caenorhabditis elegans making it a readily accessible in vivo model for mitochondrial dysfunction.

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OpenAlex
DOI
10.1155/2019/6840540
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2026-06-30 MST

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APA
Dilberger, B., Baumanns, S., Schmitt, F., Schmiedl, T., Hardt, M., Wenzel, U., &amp; Eckert, G.P. (2019). Mitochondrial Oxidative Stress Impairs Energy Metabolism and Reduces Stress Resistance and Longevity of<i>C. elegans</i>. <em>Oxidative Medicine and Cellular Longevity</em>. https://doi.org/10.1155/2019/6840540
Vancouver
Dilberger B, Baumanns S, Schmitt F, Schmiedl T, Hardt M, Wenzel U, et al. Mitochondrial Oxidative Stress Impairs Energy Metabolism and Reduces Stress Resistance and Longevity of<i>C. elegans</i>. Oxidative Medicine and Cellular Longevity. 2019. doi:10.1155/2019/6840540.
BibTeX
@article{benjamin2019Mitoch, title = {Mitochondrial Oxidative Stress Impairs Energy Metabolism and Reduces Stress Resistance and Longevity of<i>C. elegans</i>}, author = {Benjamin Dilberger and Stefan Baumanns and Fabian Schmitt and Tommy Schmiedl and Martin Hardt and Uwe Wenzel and Gunter P. Eckert}, journal = {Oxidative Medicine and Cellular Longevity}, year = {2019}, doi = {10.1155/2019/6840540}, }

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