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在小鼠的造血细胞中缺乏 SOD2 会导致红细胞变形能力降低和血红素降解增加。

SOD2 deficiency in hematopoietic cells in mice results in reduced red blood cell deformability and increased heme degradation.

机构信息

Molecular Dynamics Section, National Institute on Aging, National Institutes of Health, Baltimore, MD 21224, USA.

出版信息

Exp Hematol. 2013 Mar;41(3):316-21. doi: 10.1016/j.exphem.2012.10.017. Epub 2012 Nov 6.

DOI:10.1016/j.exphem.2012.10.017
PMID:23142655
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3741644/
Abstract

Among the three types of super oxide dismutases (SODs) known, SOD2 deficiency is lethal in neonatal mice owing to cardiomyopathy caused by severe oxidative damage. SOD2 is found in red blood cell (RBC) precursors, but not in mature RBCs. To investigate the potential damage to mature RBCs resulting from SOD2 deficiency in precursor cells, we studied RBCs from mice in which fetal liver stem cells deficient in SOD2 were capable of efficiently rescuing lethally irradiated host animals. These transplanted animals lack SOD2 only in hematopoietically generated cells and live longer than SOD2 knockouts. In these mice, approximately 2.8% of their total RBCs in circulation are iron-laden reticulocytes, with numerous siderocytic granules and increased protein oxidation similar to that seen in sideroblastic anemia. We have studied the RBC deformability and oxidative stress in these animals and the control group by measuring them with a microfluidic ektacytometer and assaying fluorescent heme degradation products with a fluorimeter, respectively. In addition, the rate of hemoglobin oxidation in RBCs from these mice and the control group were measured spectrophotometrically. The results show that RBCs from these SOD2-deficient mice have reduced deformability, increased heme degradation products, and an increased rate of hemoglobin oxidation compared with control animals, indicative of increased RBC oxidative stress.

摘要

已知的三种超氧化物歧化酶 (SOD) 中,由于严重的氧化损伤导致的心肌病,SOD2 缺乏可导致新生小鼠致命。SOD2 存在于红细胞(RBC)前体中,但不存在于成熟的 RBC 中。为了研究前体细胞中 SOD2 缺乏对成熟 RBC 可能造成的潜在损害,我们研究了来自 SOD2 缺乏的胎儿肝干细胞能够有效挽救致死性辐射宿主动物的小鼠的 RBC。这些移植动物仅在造血生成的细胞中缺乏 SOD2,并且比 SOD2 敲除动物寿命更长。在这些小鼠中,循环中约有 2.8%的 RBC 是含铁的网织红细胞,具有许多铁细胞颗粒和增加的蛋白质氧化,类似于铁粒幼细胞性贫血。我们通过使用微流控细胞变形仪测量这些动物和对照组的 RBC 变形性和氧化应激,并使用荧光计测定荧光血红素降解产物来分别研究这些动物和对照组的 RBC 变形性和氧化应激。此外,还通过分光光度法测量了这些小鼠和对照组 RBC 中血红蛋白的氧化速率。结果表明,与对照组动物相比,来自这些 SOD2 缺乏小鼠的 RBC 变形能力降低、血红素降解产物增加、血红蛋白氧化速率增加,表明 RBC 氧化应激增加。

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