Department of Hepatic Surgery and Liver transplantation Center of the Third Affiliated Hospital, Organ Transplantation Institute, Sun Yat-sen University; Organ Transplantation Research Center of Guangdong Province, Guangdong province engineering laboratory for transplantation medicine. Guangzhou 510630, China.
Guangdong Provincial Key Laboratory of Liver Disease Research, Guangzhou, China.
Theranostics. 2022 Mar 21;12(6):2908-2927. doi: 10.7150/thno.69446. eCollection 2022.
Hibernating thirteen-lined ground squirrels (GS; ) are naturally adapted to prolonged periods of ultraprofound hypothermia (body temperature < 5 ºC) during torpor, and drastic oscillations of body temperature and ischemia/reperfusion-like stress during their short euthermic interbout arousals. Thus, their superior adaptability may hold tremendous promise for the advancement of donor organ cold preservation and subsequent organ transplantation. However, bridging hibernation research and translational medicine has been impeded by a dearth of research tools, till the recent establishment of the GS induced pluripotent stem cells (iPSCs). In this study, we reported the generation of functional hepatocyte-like cells (HLCs) from GS iPSCs. As temperature and oxygen supply affect cellular metabolism, we hypothesized that the GS HLCs can metabolically counter drastic temperature and oxygen supply changes. Differentially regulated metabolites can be evaluated and included into the preservation solution to mitigate temperature and ischemia/reperfusion-associated damage to donor livers. A protocol has been developed to produce GS iPSCs-derived HLCs. Comparative metabolomic analysis on GS HLCs and human donor liver samples revealed changes in metabolites caused by cold storage and rewarming. Human embryonic stem cell (ESC)-derived HLCs and cold preservation and reperfusion of isolated rat livers were used to assess candidate metabolites that may have protective effects against preservation-related injuries. GS iPSCs were efficiently differentiated into expandable, cryopreservation-compatible and functional HLCs. Metabolomic analysis unveiled distinct changes of mitochondrial metabolites between GS and human cells following cold storage and rewarming. GS and human HLC-based experiments indicated that the metabolism of 5-aminolevulinate (5-ALA) is key to restricting free radical production during rewarming. Survival of human HLCs was significantly increased following cold exposure and rewarming, as supplemented 5-ALA enhanced Complex III activity and improved mitochondrial respiration. Further, 5-ALA mitigated damage in rat livers following 48-h cold preservation and reperfusion. Metabolomic and transcriptomic analyses revealed that supplemented 5-ALA promoted both anabolic and catabolic activities while alleviating cell death, inflammation, hypoxia and other stress responses in isolated perfused rat livers. In the liver, rewarming from ultraprofound hypothermia imposes complex metabolic challenges and stresses on the mitochondria. Metabolites such as 5-ALA can help alleviate mitochondrial stress. Supplementing 5-ALA to the liver preservation solution can substantially improve the functional recovery of rat livers following prolonged cold preservation, rewarming and reperfusion.
冬眠 13 线地松鼠(GS)自然适应长时间的超深度低温(体温<5°C)在蛰伏期间,以及在短暂的清醒唤醒期间体温的剧烈波动和缺血/再灌注样应激。因此,它们的卓越适应能力可能为供体器官冷藏保存和随后的器官移植提供巨大的希望。然而,冬眠研究与转化医学之间的桥梁一直受到缺乏研究工具的阻碍,直到最近建立了 GS 诱导多能干细胞(iPSC)。在这项研究中,我们报告了从 GS iPSC 中生成功能性肝细胞样细胞(HLC)。由于温度和氧气供应会影响细胞代谢,我们假设 GS HLC 可以在代谢上对抗剧烈的温度和氧气供应变化。可以评估差异调节的代谢物,并将其纳入保存液中,以减轻供体肝脏的温度和缺血/再灌注相关损伤。已经开发出一种生产 GS iPSC 衍生 HLC 的方案。对 GS HLC 和人供肝样本的比较代谢组学分析显示了冷藏和复温引起的代谢物变化。用人胚胎干细胞(ESC)衍生的 HLC 和冷藏保存和再灌注分离的大鼠肝脏来评估可能对保存相关损伤具有保护作用的候选代谢物。GS iPSC 被有效地分化为可扩增、可低温保存和功能齐全的 HLC。代谢组学分析揭示了冷藏和复温后 GS 和人细胞中线粒体代谢物的明显变化。GS 和人 HLC 为基础的实验表明,5-氨基酮戊酸(5-ALA)的代谢对于限制复温期间自由基的产生是关键。人 HLC 的存活率在冷藏和复温后显著提高,因为补充 5-ALA 增强了复合物 III 的活性并改善了线粒体呼吸。此外,5-ALA 减轻了大鼠肝脏在 48 小时冷藏保存和再灌注后的损伤。代谢组学和转录组学分析表明,补充 5-ALA 促进了合成代谢和分解代谢活动,同时减轻了分离灌注大鼠肝脏中的细胞死亡、炎症、缺氧和其他应激反应。在肝脏中,从超深度低温复温会对线粒体造成复杂的代谢挑战和压力。5-ALA 等代谢物有助于缓解线粒体应激。在肝脏保存液中补充 5-ALA 可以显著改善大鼠肝脏在长时间冷藏、复温再灌注后的功能恢复。
