Department of Molecular Biology, University of Texas Southwestern Medical Center, Dallas, TX, 75390, USA; Howard Hughes Medical Institute, Dallas, TX, 75390, USA.
Department of Molecular Biology, University of Texas Southwestern Medical Center, Dallas, TX, 75390, USA.
Biochimie. 2024 Oct;225:114-124. doi: 10.1016/j.biochi.2024.05.012. Epub 2024 May 11.
The unfolded protein response (UPR) is a cellular stress response that is activated when misfolded proteins accumulate in the endoplasmic reticulum (ER). Regulation of the UPR response must be adapted to the needs of the cell as prolonged UPR responses can result in disrupted cellular function and tissue damage. Previously, we discovered that the enzyme FicD (also known as Fic or HYPE) through its AMPylation and deAMPylation activity can modulate the UPR response via post-translational modification of BiP. FicD AMPylates BiP during homeostasis and deAMPylates BiP during stress. We hypothesized that FicD regulation of the UPR will play a role in mitigating the deleterious effects of UPR activation in tissues with frequent physiological stress. Here, we explore the role of FicD in the murine liver. As seen in our pancreatic studies, livers lacking FicD exhibit enhanced UPR signaling in response to short term physiologic fasting and feeding stress. However, in contrast to studies on the pancreas, livers, as a more regenerative tissue, remained remarkably resilient in the absence of FicD. The livers of FicD did not show marked changes in UPR signaling or damage after either chronic high fat diet (HFD) feeding or acute pathological UPR induction. Intriguingly, FicD mice showed changes in UPR induction and weight loss patterns following repeated pathological UPR induction. These findings indicate that FicD regulates UPR responses during mild physiological stress and in adaptation to repeated stresses, but there are tissue specific differences in the requirement for FicD regulation.
未折叠蛋白反应 (UPR) 是一种细胞应激反应,当内质网 (ER) 中错误折叠的蛋白质积累时,该反应就会被激活。UPR 反应的调节必须适应细胞的需求,因为长时间的 UPR 反应会导致细胞功能紊乱和组织损伤。此前,我们发现酶 FicD(也称为 Fic 或 HYPE)通过其 AMP 化和去 AMP 化活性,可以通过 BiP 的翻译后修饰来调节 UPR 反应。FicD 在稳态时 AMP 化 BiP,在应激时去 AMP 化 BiP。我们假设 FicD 对 UPR 的调节将在减轻生理应激频繁的组织中 UPR 激活的有害影响方面发挥作用。在这里,我们探索了 FicD 在小鼠肝脏中的作用。正如我们在胰腺研究中看到的,缺乏 FicD 的肝脏在短期生理性禁食和喂养应激下表现出增强的 UPR 信号。然而,与胰腺研究相反,作为更具再生能力的组织,肝脏在缺乏 FicD 的情况下仍然具有很强的弹性。FicD 肝脏在慢性高脂肪饮食 (HFD) 喂养或急性病理性 UPR 诱导后,其 UPR 信号或损伤均无明显变化。有趣的是,FicD 小鼠在反复病理性 UPR 诱导后表现出 UPR 诱导和体重减轻模式的变化。这些发现表明,FicD 在轻度生理应激期间和适应反复应激时调节 UPR 反应,但在对 FicD 调节的需求方面存在组织特异性差异。
