Georgatzakou Hara T, Tzounakas Vassilis L, Kriebardis Anastasios G, Velentzas Athanassios D, Papageorgiou Effie G, Voulgaridou Artemis I, Kokkalis Apostolos C, Antonelou Marianna H, Papassideri Issidora S
Department of Biology, Section of Cell Biology & Biophysics, School of Science, National and Kapodistrian University of Athens (NKUA), Athens, Greece.
Department of Medical Laboratories, Faculty of Health and Caring Professions, Technological and Educational Institute (TEI) of Athens, Athens, Greece.
Eur J Haematol. 2017 Jun;98(6):590-600. doi: 10.1111/ejh.12875. Epub 2017 Apr 12.
Modified, bioreactive red blood cells (RBCs) and RBC-derived microvesicles (MVs) likely contribute to the hematological and cardiovascular complications in end-stage renal disease (ESRD). This study assesses the physiological profile of RBCs in patients with ESRD receiving standard or high doses of recombinant human erythropoietin (rhEPO).
Blood samples from twenty-eight patients under sustained hemodialysis, responsive, or not to standard rhEPO administration were examined for RBC morphology, fragility, hemolysis, redox status, removal signaling, membrane protein composition, and microvesiculation before and after dialysis. Acute effects of uremic plasma on RBC features were examined in vitro through reconstitution experiments.
Overall, the ESRD RBCs were characterized by pathological levels of shape distortions, surface removal signaling, and membrane exovesiculation, but reduced fragility compared to healthy RBCs. Irreversible transformation of RBCs was found to be a function of baseline Hb concentration. The more toxic uremic context in non-responsive patients compared to rhEPO responders was blunted in part by the antioxidant, antihemolytic, and anti-apoptotic effects of high rhEPO doses, and probably, of serum uric acid. A selective lower expression of RBC membrane in complement regulators (CD59, clusterin) and of CD47 "marker-of-self" was detected in non-responders and responders, respectively. Evidence for different short-term dialysis effects and probably for a different erythrocyte vesiculation mechanism in rhEPO responsive compared to non-responsive patients was also revealed.
Deregulation of RBC homeostasis might involve diverse molecular pathways driving erythrocyte signaling and removal in rhEPO non-responders compared to responsive patients.
修饰的、具有生物活性的红细胞(RBCs)和红细胞衍生的微泡(MVs)可能导致终末期肾病(ESRD)的血液学和心血管并发症。本研究评估接受标准剂量或高剂量重组人促红细胞生成素(rhEPO)的ESRD患者红细胞的生理特征。
对28例接受维持性血液透析、对标准rhEPO给药有反应或无反应的患者的血样,在透析前后检查其红细胞形态、脆性、溶血、氧化还原状态、清除信号、膜蛋白组成和微泡形成情况。通过重组实验在体外研究尿毒症血浆对红细胞特征的急性影响。
总体而言,ESRD患者的红细胞特征为形状扭曲、表面清除信号和膜外泡形成处于病理水平,但与健康红细胞相比脆性降低。发现红细胞的不可逆转化是基线血红蛋白浓度的函数。与rhEPO反应者相比,无反应患者中毒性更强的尿毒症环境部分被高剂量rhEPO以及可能血清尿酸的抗氧化、抗溶血和抗凋亡作用所减弱。在无反应者和反应者中分别检测到补体调节因子(CD59、簇集素)和CD47 “自身标记物”在红细胞膜上的选择性低表达。还揭示了rhEPO反应者与无反应者相比存在不同的短期透析效果以及可能不同的红细胞囊泡形成机制的证据。
与反应患者相比,红细胞稳态失调可能涉及多种分子途径,这些途径驱动rhEPO无反应者的红细胞信号传导和清除。