贮存诱导的衰老红细胞中一个独特亚群的蛋白稳态和代谢功能障碍

Sandy Peltier, Mickael Marin, Monika Dzieciatkowska, Michael Dussiot, Micaela Roy, Johanna Bruce, Louise Leblanc, Youcef Hadjou, Sonia Georgeault, Aurelie Fricot, Camille Roussel, Daniel Stephenson, Madeleine Casimir, Abdoulaye Sissoko, Francois Paye, Safi Dokmak, Papa Alioune Ndour, Philippe Roingeard, Emilie-Fleur Gautier, Steven Spitalnik, Olivier Hermine, Pierre A Buffet, Angelo D'Alessandro, Pascal Amireault
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摘要

虽然冷藏贮存会减缓志愿捐献者红细胞的新陈代谢,但在整个体外过程中仍会发生细胞衰老,这在输血医学中至关重要。贮存诱导微红细胞(SME)是在贮存过程中积累的形态改变的衰老红细胞,在输血后会从血液循环中清除。然而,引发这种红细胞亚群清除的分子和细胞变化仍有待确定。通过使用一种染色方案,对长期储存的 SME(即 CFSEhigh)和形态正常的 RBC(CFSElow)进行分类,对这些体外老化细胞进行了特征描述。代谢组学分析确定了 CFSEhigh RBC 中能量、脂质修复和抗氧化代谢物的消耗。通过氧化还原蛋白质组学分析,不可逆蛋白质氧化主要影响 CFSEhigh 红细胞。通过蛋白质组学研究,96 种蛋白质迁移到了 CFSEhigh 红细胞膜上,其中大部分属于蛋白稳定家族。CFSE高的红细胞表现出蛋白酶体活性和变形性降低;磷脂酰丝氨酸暴露、渗透脆性和内皮细胞粘附性增加;并在人脾脏体外灌注过程中从血液循环中清除。相反,长期储存的 CFSE 低红细胞的分子、细胞和循环特性与短期储存的红细胞相似。CFSE高的红细胞在形态和代谢上都发生了改变,具有不可逆氧化和膜定位蛋白,并表现出蛋白酶体活性降低。储存过程中的体外老化会选择性地改变 SME 的新陈代谢和蛋白稳态,从而将这些衰老细胞作为清除目标。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Proteostasis and metabolic dysfunction in a distinct subset of storage-induced senescent erythrocytes targeted for clearance
Although refrigerated storage slows the metabolism of volunteer donor RBCs, cellular aging still occurs throughout this in vitro process, which is essential in transfusion medicine. Storage-induced microerythrocytes (SMEs) are morphologically-altered senescent RBCs that accumulate during storage and which are cleared from circulation following transfusion. However, the molecular and cellular alterations that trigger clearance of this RBC subset remain to be identified. Using a staining protocol that sorts long-stored SMEs (i.e., CFSEhigh) and morphologically-normal RBCs (CFSElow), these in vitro aged cells were characterized. Metabolomics analysis identified depletion of energy, lipid-repair, and antioxidant metabolites in CFSEhigh RBCs. By redox proteomics, irreversible protein oxidation primarily affected CFSEhigh RBCs. By proteomics, 96 proteins, mostly in the proteostasis family, had relocated to CFSEhigh RBC membranes. CFSEhigh RBCs exhibited decreased proteasome activity and deformability; increased phosphatidylserine exposure, osmotic fragility, and endothelial cell adherence; and were cleared from the circulation during human spleen ex vivo perfusion. Conversely, molecular, cellular, and circulatory properties of long-stored CFSElow RBCs resembled those of short-stored RBCs. CFSEhigh RBCs are morphologically and metabolically altered, have irreversibly oxidized and membrane-relocated proteins, and exhibit decreased proteasome activity. In vitro aging during storage selectively alters metabolism and proteostasis in SMEs, targeting these senescent cells for clearance.
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