Institute of Functional and Applied Anatomy.
Biomedical Research in Endstage and Obstructive Lung Disease Hannover (BREATH), Member of the German Center for Lung Research (DZL), Hannover, Germany; and.
Am J Respir Cell Mol Biol. 2024 Dec;71(6):688-701. doi: 10.1165/rcmb.2024-0054OC.
The mortality associated with acute lung injury (ALI) increases with age. Alveolar epithelial type II (AEII) cells are the progenitor cells of the alveolar epithelium and are crucial for repair after injury. We hypothesize that telomere dysfunction-mediated AEII cell senescence impairs regeneration and promotes the development of ALI. To discriminate between the impact of old age and AEII cell senescence in ALI, young (3 mo) and old (18 mo) Sftpc-Ai9 mice with surfactant protein c mediated tdTomato expression, and young Sftpc-Ai9-Trf1 mice with additional telomeric repeat-binding factor 1 (Trf1) knockout-mediated senescence in AEII cells were treated with 1 μg LPS per gram body weight ( = 9-11). Control mice received saline solution ( = 7). Mice were killed 4 or 7 days later. Lung mechanics, pulmonary inflammation, and proteomes were analyzed, and parenchymal injury, AEII cell proliferation and AEI cell differentiation rate were quantified using stereology. Old mice showed 55% mortality by Day 4, whereas all young mice survived. Pulmonary inflammation was most severe in old Sftpc-Ai9 mice, followed by Sftpc-Ai9-Trf1 mice. Young Sftpc-Ai9 mice recovered almost completely by Day 7, whereas Sftpc-Ai9-Trf1 mice still showed mild signs of injury. An expansion of AEII cells was measured only in young Sftpc-Ai9 mice at Day 7. Aging and telomere dysfunction-mediated senescence had no impact on AEI differentiation rate in controls, but the reduced number of AEII cells in Sftpc-Ai9-Trf1 mice also affected differentiation after injury. In conclusion, telomere dysfunction- mediated AEII cell senescence promoted parenchymal inflammation in ALI, but did not enhance mortality like old age. Although the differentiation rate remained functional with old age and AEII cell senescence, AEII cell proliferative capacity was impaired in ALI, affecting the regenerative ability.
急性肺损伤(ALI)相关死亡率随年龄增长而增加。肺泡上皮 II 型(AEII)细胞是肺泡上皮的祖细胞,在损伤后修复中至关重要。我们假设端粒功能障碍介导的 AEII 细胞衰老会损害再生并促进 ALI 的发展。为了区分老年和 AEII 细胞衰老在 ALI 中的影响,我们使用 Surf1-CreERT2 诱导性表达 tdTomato 的 Sftpc-Ai9 小鼠(3 月龄)和 Sftpc-Ai9-Trf1 小鼠(额外敲除端粒重复结合因子 1 (Trf1)以诱导 AEII 细胞衰老)以及 3 月龄 Sftpc-Ai9-Trf1 小鼠接受 1μg 每克体重 LPS( = 9-11)处理。对照小鼠接受生理盐水处理( = 7)。4 或 7 天后处死小鼠。分析肺力学、肺炎症和蛋白质组学,并使用体视学定量分析实质损伤、AEII 细胞增殖和 AEI 细胞分化率。第 4 天,老年小鼠的死亡率为 55%,而所有年轻小鼠均存活。肺炎症在老年 Sftpc-Ai9 小鼠中最为严重,其次是 Sftpc-Ai9-Trf1 小鼠。年轻的 Sftpc-Ai9 小鼠在第 7 天几乎完全恢复,而 Sftpc-Ai9-Trf1 小鼠仍有轻微的损伤迹象。仅在第 7 天的年轻 Sftpc-Ai9 小鼠中测量到 AEII 细胞的扩张。在对照组中,衰老和端粒功能障碍介导的衰老对 AEI 分化率没有影响,但 Sftpc-Ai9-Trf1 小鼠中 AEII 细胞数量减少也影响了损伤后的分化。总之,端粒功能障碍介导的 AEII 细胞衰老促进了 ALI 的实质炎症,但不像老年一样增加死亡率。尽管衰老和 AEII 细胞衰老时分化率保持正常,但 ALI 中的 AEII 细胞增殖能力受损,影响了再生能力。
