期刊
JOURNAL OF BIOLOGICAL CHEMISTRY
卷 290, 期 1, 页码 396-408出版社
ELSEVIER
DOI: 10.1074/jbc.M114.566349
关键词
Mitochondrial Respiratory Chain Complex; Monocyte; Reactive Oxygen Species (ROS); Sepsis; Sirtuin 1 (SIRT1); Acute Inflammation; Mitochondrial Bioenergetics; RELB; SIRT3; Nuclear-mitochondrial Communication
资金
- National Institutes of Health [R01AI079144, R01-AI065791, R01GM102497, R01GM099807]
Background: Nuclear SIRT1 and SIRT6 switch monocyte energy sources from glycolysis to fatty acid oxidation during sepsis adaptation. Results: Sequential actions of nuclear SIRT1 and RELB differentially induce SIRT3 expression and increase mitochondrial biogenesis during sepsis adaptation. Conclusion: SIRT1 and RELB link nuclear and mitochondrial alterations in bioenergetics during sepsis. Significance: Communication between nuclear and mitochondrial functions may influence sepsis outcomes. We reported that NAD(+)-dependent SIRT1, RELB, and SIRT6 nuclear proteins in monocytes regulate a switch from the glycolysis-dependent acute inflammatory response to fatty acid oxidation-dependent sepsis adaptation. We also found that disrupting SIRT1 activity during adaptation restores immunometabolic homeostasis and rescues septic mice from death. Here, we show that nuclear SIRT1 guides RELB to differentially induce SIRT3 expression and also increases mitochondrial biogenesis, which alters bioenergetics during sepsis adaptation. We constructed this concept using TLR4-stimulated THP1 human promonocytes, a model that mimics the initiation and adaptation stages of sepsis. Following increased expression, mitochondrial SIRT3 deacetylase activates the rate-limiting tricarboxylic acid cycle (TCA) isocitrate dehydrogenase 2 and superoxide dismutase 2, concomitant with increases in citrate synthase activity. Mitochondrial oxygen consumption rate increases early and decreases during adaptation, parallel with modifications to membrane depolarization, ATP generation, and production of mitochondrial superoxide and whole cell hydrogen peroxide. Evidence of SIRT1-RELB induction of mitochondrial biogenesis included increases in mitochondrial mass, mitochondrial-to-nuclear DNA ratios, and both nuclear and mitochondrial encoded proteins. We confirmed the SIRT-RELB-SIRT3 adaptation link to mitochondrial bioenergetics in both TLR4-stimulated normal and sepsis-adapted human blood monocytes and mouse splenocytes. We also found that SIRT1 inhibition ex vivo reversed the sepsis-induced changes in bioenergetics.
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