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W4206964923 abstract "Abstract Deficits in skeletal muscle mitochondrial content and quality are observed following denervation‐atrophy. This is due to alterations in the biogenesis of new mitochondria as well as their degradation via mitophagy. The regulation of autophagy and mitophagy over the course of denervation (Den) remains unknown. Further, the time‐dependent changes in lysosome content, the end‐stage organelle for mitophagy, remain unexplored. Here, we studied autophagic as well as mitophagic pre‐lysosomal flux in subsarcolemmal (SS) and intermyofibrillar (IMF) mitochondria from rat muscle subjected to Den for 1, 3 or 7 days. We also assessed flux at 1 day post‐denervation in transgenic mt‐keima mice. Markers of mitochondrial content were reduced at 7 days following Den, and Den further resulted in rapid decrements in mitochondrial respiration, along with increased ROS emission. Pre‐lysosomal autophagy flux was upregulated at 1 and 3 days post‐Den but was reduced compared to time‐matched sham‐operated controls at 7 days post‐Den. Similarly, pre‐lysosomal mitophagy flux was enhanced in SS mitochondria as early as 1 and 3 days of Den but decreased in both SS and IMF subfractions following 7 days of Den. Lysosome protein content and transcriptional regulators TFEB and TFE3 were progressively enhanced with Den, an adaptation designed to enhance autophagic capacity. However, evidence for lysosome dysfunction was apparent by 7 days, which may limit degradation capacity. This may contribute to an inability to clear dysfunctional mitochondria and increased ROS signalling, thereby accelerating muscle atrophy. Thus, therapeutic targeting of lysosome function may help to maintain autophagy and muscle health during conditions of muscle disuse or denervation. Key points Denervation is an experimental model of peripheral neuropathies as well as muscle disuse, and it helps us understand some aspects of the sarcopenia of ageing. Muscle disuse is associated with reduced mitochondrial content and function, leading to metabolic impairments within the tissue. Although the processes that regulate mitochondrial biogenesis are understood, those that govern mitochondrial breakdown (i.e. mitophagy) are not well characterized in this context. Autophagy and mitophagy flux, measured up to the point of the lysosome (pre‐lysosomal flux rates), were increased in the early stages of denervation, along with mitochondrial dysfunction, but were reduced at later time points when the degree of muscle atrophy was highest. Denervation led to progressive increases in lysosomal proteins to accommodate mitophagy flux, yet evidence for lysosomal impairment at later stages may limit the removal of dysfunctional mitochondria, stimulate reactive oxygen species signalling, and reduce muscle health as denervation time progresses." @default.
W4206964923 created "2022-01-26" @default.
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W4206964923 date "2022-02-09" @default.
W4206964923 modified "2023-09-26" @default.
W4206964923 title "Time‐dependent changes in autophagy, mitophagy and lysosomes in skeletal muscle during denervation‐induced disuse" @default.
W4206964923 cites W1512819323 @default.
W4206964923 cites W1665035311 @default.
W4206964923 cites W178295827 @default.
W4206964923 cites W1911045794 @default.
W4206964923 cites W1944892980 @default.
W4206964923 cites W1964569690 @default.
W4206964923 cites W1975200363 @default.
W4206964923 cites W1980638751 @default.
W4206964923 cites W1999655515 @default.
W4206964923 cites W2020118149 @default.
W4206964923 cites W2023470228 @default.
W4206964923 cites W2028843821 @default.
W4206964923 cites W2034905074 @default.
W4206964923 cites W2035081929 @default.
W4206964923 cites W2036449665 @default.
W4206964923 cites W2039690068 @default.
W4206964923 cites W2049016912 @default.
W4206964923 cites W2065324486 @default.
W4206964923 cites W2074766103 @default.
W4206964923 cites W2077499130 @default.
W4206964923 cites W2080486488 @default.
W4206964923 cites W2084276666 @default.
W4206964923 cites W2084470407 @default.
W4206964923 cites W209484349 @default.
W4206964923 cites W2098762204 @default.
W4206964923 cites W2099981888 @default.
W4206964923 cites W2105075709 @default.
W4206964923 cites W2112956181 @default.
W4206964923 cites W2114063620 @default.
W4206964923 cites W2120348861 @default.
W4206964923 cites W2129040637 @default.
W4206964923 cites W2135256458 @default.
W4206964923 cites W2136000647 @default.
W4206964923 cites W2157562638 @default.
W4206964923 cites W2165822680 @default.
W4206964923 cites W2169512179 @default.
W4206964923 cites W2267374287 @default.
W4206964923 cites W2340120744 @default.
W4206964923 cites W2340425426 @default.
W4206964923 cites W2342547586 @default.
W4206964923 cites W2397383220 @default.
W4206964923 cites W2481350377 @default.
W4206964923 cites W2561943186 @default.
W4206964923 cites W2735816534 @default.
W4206964923 cites W2748137738 @default.
W4206964923 cites W2752326209 @default.
W4206964923 cites W2765476671 @default.
W4206964923 cites W2793165260 @default.
W4206964923 cites W2888023575 @default.
W4206964923 cites W2890182482 @default.
W4206964923 cites W2897430333 @default.
W4206964923 cites W2901327288 @default.
W4206964923 cites W2957095132 @default.
W4206964923 cites W2972315020 @default.
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W4206964923 doi "https://doi.org/10.1113/jp282173" @default.
W4206964923 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/35067920" @default.
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