A Novel MitoTimer Reporter Gene for Mitochondrial Content, Structure, Stress, and Damage in Vivo

Mitochondrial dysfunction plays important roles in many diseases, but there is no satisfactory method to assess mitochondrial health in vivo. Here, we engineered a MitoTimer reporter gene from the existing Timer reporter gene. MitoTimer encodes a mitochondria-targeted green fluorescent protein when...

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Veröffentlicht in:The Journal of biological chemistry 2014-04, Vol.289 (17), p.12005-12015
Hauptverfasser: Laker, Rhianna C., Xu, Peng, Ryall, Karen A., Sujkowski, Alyson, Kenwood, Brandon M., Chain, Kristopher H., Zhang, Mei, Royal, Mary A., Hoehn, Kyle L., Driscoll, Monica, Adler, Paul N., Wessells, Robert J., Saucerman, Jeffrey J., Yan, Zhen
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Sprache:eng
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Zusammenfassung:Mitochondrial dysfunction plays important roles in many diseases, but there is no satisfactory method to assess mitochondrial health in vivo. Here, we engineered a MitoTimer reporter gene from the existing Timer reporter gene. MitoTimer encodes a mitochondria-targeted green fluorescent protein when newly synthesized, which shifts irreversibly to red fluorescence when oxidized. Confocal microscopy confirmed targeting of the MitoTimer protein to mitochondria in cultured cells, Caenorhabditis elegans touch receptor neurons, Drosophila melanogaster heart and indirect flight muscle, and mouse skeletal muscle. A ratiometric algorithm revealed that conditions that cause mitochondrial stress led to a significant shift toward red fluorescence as well as accumulation of pure red fluorescent puncta of damaged mitochondria targeted for mitophagy. Long term voluntary exercise resulted in a significant fluorescence shift toward green, in mice and D. melanogaster, as well as significantly improved structure and increased content in mouse FDB muscle. In contrast, high-fat feeding in mice resulted in a significant shift toward red fluorescence and accumulation of pure red puncta in skeletal muscle, which were completely ameliorated by voluntary wheel running. Hence, MitoTimer allows for robust analysis of multiple parameters of mitochondrial health under both physiological and pathological conditions and will be highly useful for future research of mitochondrial health in multiple disciplines in vivo. Mitochondrial health is difficult to assess in vivo. We have generated a reporter gene, MitoTimer, which targets mitochondria, and fluoresces green and shifts to red when oxidized, for assessment of mitochondrial content, structure, stress, and damage under physiological and pathological conditions. MitoTimer is useful for assessment of mitochondrial health in vivo. MitoTimer could advance mitochondrial research in multiple disciplines.
ISSN:0021-9258
1083-351X
DOI:10.1074/jbc.M113.530527