Department of Biology, University of Copenhagen, Copenhagen, Denmark.
Acta Physiol (Oxf). 2018 Dec;224(4):e13158. doi: 10.1111/apha.13158. Epub 2018 Jul 24.
To provide a detailed time course of hepatic autophagy and all UPR branches in response to an acute bout of exercise and 24 hours of fasting and test the hypothesis that muscle-specific PGC-1α overexpression dampens the UPR and autophagy responses to these metabolic challenges.
Muscle-specific PGC-1α overexpression (TG) and wild-type (WT) mice (a) performed a single bout of exercise, where the liver was obtained immediately after exercise, 2, 6 or 10 hours into recovery as well as from resting mice or (b) fasted for 24 hours or remained fed and the liver was obtained.
In both genotypes, hepatic PERK and eIF2α phosphorylation increased immediately after exercise, with no change in IRE1α phosphorylation and cleaved ATF6 protein. Fasting decreased PERK, eIF2α and IRE1α phosphorylation as well as increased cleaved ATF6 protein in both genotypes. Hepatic p62 was unchanged, while LC3II/LC3I ratio increased immediately after exercise and LC3II protein increased in response to fasting in both genotypes. TG mice had lower eIF2α phosphorylation after exercise, a blunted fasting-induced CHOP and HSP72 mRNA response and in fasted mice lower GADD34 and BiP mRNA as well as FAS protein in the liver than WT mice.
This study provides for the first time evidence for transient pathway-specific activation of hepatic UPR and increase in markers of autophagy in the liver with acute exercise. On the other hand, fasting both increased and decreased UPR branches and seemed to increase autophagy. In addition, muscle PGC-1α seemed to dampen some of these responses.
提供肝自噬和所有 UPR 分支对急性运动和 24 小时禁食的详细时间过程,并检验肌肉特异性 PGC-1α过表达是否能减弱这些代谢挑战对 UPR 和自噬反应的假设。
肌肉特异性 PGC-1α过表达(TG)和野生型(WT)小鼠(a)进行单次运动,运动后立即获取肝脏,2、6 或 10 小时恢复后以及休息时或(b)禁食 24 小时或继续进食时获取肝脏。
在两种基因型中,肝 PERK 和 eIF2α 磷酸化在运动后立即增加,IRE1α 磷酸化和 cleaved ATF6 蛋白无变化。禁食降低了两种基因型的 PERK、eIF2α 和 IRE1α 磷酸化,并增加了 cleaved ATF6 蛋白。p62 在肝中不变,而 LC3II/LC3I 比值在运动后立即增加,并且在两种基因型中 LC3II 蛋白在禁食时增加。TG 小鼠在运动后 eIF2α 磷酸化较低,在禁食诱导的 CHOP 和 HSP72 mRNA 反应中减弱,在禁食小鼠中,肝中的 GADD34 和 BiP mRNA 以及 FAS 蛋白也较低。
本研究首次提供了肝 UPR 特定途径的短暂激活和运动后肝自噬标志物增加的证据。另一方面,禁食既增加又减少了 UPR 分支,似乎增加了自噬。此外,肌肉 PGC-1α似乎减弱了这些反应的一部分。
