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KMID : 0578320230460060374
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Molecules and Cells
2023 Volume.46 No. 6 p.374 ~ p.386
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Suboptimal Mitochondrial Activity Facilitates Nuclear Heat Shock Responses for Proteostasis and Genome Stability
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Park Dong-Keun
Yu Young-Im
Kim Ji-Hyung
Lee Jong-Bin
Park Jong-Min
Hong Ki-Do
Seo Jeong-Kon
Lim Chung-Hun
Min Kyung-Tai
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Abstract
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Thermal stress induces dynamic changes in nuclear proteins and relevant physiology as a part of the heat shock response (HSR). However, how the nuclear HSR is fine-tuned for cellular homeostasis remains elusive. Here, we show that mitochondrial activity plays an important role in nuclear proteostasis and genome stability through two distinct HSR pathways. Mitochondrial ribosomal protein (MRP) depletion enhanced the nucleolar granule formation of HSP70 and ubiquitin during HSR while facilitating the recovery of damaged nuclear proteins and impaired nucleocytoplasmic transport. Treatment of the mitochondrial proton gradient uncoupler masked MRP-depletion effects, implicating oxidative phosphorylation in these nuclear HSRs. On the other hand, MRP depletion and a reactive oxygen species (ROS) scavenger non-additively decreased mitochondrial ROS generation during HSR, thereby protecting the nuclear genome from DNA damage. These results suggest that suboptimal mitochondrial activity sustains nuclear homeostasis under cellular stress, providing plausible evidence for optimal endosymbiotic evolution via mitochondria-to-nuclear communication.
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KEYWORD
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genome stability, heat shock response, mitohor¡©mesis, mitonuclear communication, nuclear proteostasis
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