Centre de Recherche du Centre Hospitalier de l'Université (CHU) de Québec, Faculté de Médecine, Université Laval, Quebec City, Quebec, Canada.
Institut Universitaire de Cardiologie et de Pneumologie de Québec, Faculté de Médecine, Université Laval, Quebec City, Quebec, Canada.
FASEB J. 2018 Jul;32(7):3623-3640. doi: 10.1096/fj.201701176R. Epub 2018 Feb 8.
Werner syndrome (WS) is a premature aging disorder caused by mutations in a RecQ-family DNA helicase (WRN). Mice lacking part of the helicase domain of the WRN ortholog exhibit several phenotypic features of WS. In this study, we generated a Wrn mutant line that, like humans, relies entirely on dietary sources of vitamin C (ascorbate) to survive, by crossing them to mice that lack the gulonolactone oxidase enzyme required for ascorbate synthesis. In the presence of 0.01% ascorbate (w/v) in drinking water, double-mutant mice exhibited a severe reduction in lifespan, small size, sterility, osteopenia, and metabolic profiles different from wild-type (WT) mice. Although increasing the dose of ascorbate to 0.4% improved dramatically the phenotypes of double-mutant mice, the metabolic and cytokine profiles were different from age-matched WT mice. Finally, double-mutant mice treated with 0.01% ascorbate revealed a permanent activation of all the 3 branches of the ER stress response pathways due to a severe chronic oxidative stress in the ER compartment. In addition, markers associated with the ubiquitin-proteasome-dependent ER-associated degradation pathway were increased. Augmenting the dose of ascorbate reversed the activation of this pathway to WT levels rendering this pathway a potential therapeutic target in WS.-Aumailley, L., Dubois, M. J., Brennan, T. A., Garand, C., Paquet, E. R., Pignolo, R. J., Marette, A., Lebel, M. Serum vitamin C levels modulate the lifespan and endoplasmic reticulum stress response pathways in mice synthesizing a nonfunctional mutant WRN protein.
Werner 综合征 (WS) 是一种由 RecQ 家族 DNA 解旋酶 (WRN) 突变引起的早衰疾病。缺乏 WRN 直系同源物解旋酶结构域的一部分的小鼠表现出几种 WS 的表型特征。在这项研究中,我们通过将它们与缺乏合成抗坏血酸 (ascorbate) 所需的 gulonolactone 氧化酶的小鼠杂交,生成了一种 Wrn 突变系,该突变系与人类一样完全依赖于饮食中的维生素 C (抗坏血酸) 来生存。在饮用水中含有 0.01%抗坏血酸 (w/v) 的情况下,双突变小鼠的寿命严重缩短,体型小,不育,骨质疏松症和代谢特征与野生型 (WT) 小鼠不同。尽管将抗坏血酸的剂量增加到 0.4% 可显著改善双突变小鼠的表型,但代谢和细胞因子谱与年龄匹配的 WT 小鼠不同。最后,用 0.01%抗坏血酸处理的双突变小鼠由于内质网 (ER) 腔内严重的慢性氧化应激而导致所有 3 条 ER 应激反应途径的永久性激活。此外,与泛素-蛋白酶体依赖性 ER 相关降解途径相关的标志物增加。增加抗坏血酸的剂量可将该途径的激活逆转至 WT 水平,使该途径成为 WS 的潜在治疗靶点。-Aumailley, L., Dubois, M. J., Brennan, T. A., Garand, C., Paquet, E. R., Pignolo, R. J., Marette, A., Lebel, M. 血清维生素 C 水平可调节合成无功能突变 WRN 蛋白的小鼠的寿命和内质网应激反应途径。
