红细胞储存期间凋亡白细胞释放的转化生长因子-β促进输血诱导的同种免疫调节。

Transforming growth factor-β released by apoptotic white blood cells during red blood cell storage promotes transfusion-induced alloimmunomodulation.

作者信息

Vallion Romain, Bonnefoy Francis, Daoui Anna, Vieille Loredane, Tiberghien Pierre, Saas Philippe, Perruche Sylvain

机构信息

INSERM, UMR1098.

Université de Bourgogne Franche-Comté, UMR1098.

出版信息

Transfusion. 2015 Jul;55(7):1721-35. doi: 10.1111/trf.13031. Epub 2015 Mar 21.

DOI:10.1111/trf.13031

PMID:25807899

Abstract

BACKGROUND

Red blood cell (RBC) alloimmunization is a major immunologic risk of transfusion. However, RBC storage facilitates white blood cell (WBC) apoptosis and apoptotic cells have immunomodulatory properties. We investigated the behavior of WBCs, and apoptosis in particular, in RBC units during storage and then studied the impact of WBC apoptosis on the modulation of posttransfusion alloimmunization in RBC products stored short term.

STUDY DESIGN AND METHODS

We used a mouse model of alloimmunization to transfused HEL-ovalbumin-Duffy (HOD) surface antigen expressed specifically on RBCs. The presence of circulating anti-HOD immunoglobulin G detected by flow cytometry confirmed immunization to HOD+ RBCs. WBC apoptosis and factors released by apoptotic WBCs during storage were determined and in particular the role of transforming growth factor (TGF)-β was assessed on RBC alloimmunization.

RESULTS

In blood stored 72 hours, 30% of WBCs were apoptotic, and transfusion of short-term-stored blood resulted in lesser immunization than did fresh blood or stored leukoreduced (LR) RBCs. WBCs undergoing apoptosis released during short-term storage factors modulating RBC alloimmunization. Indeed apoptotic cell-released factors modulate alloimmunization whereas exogenous apoptotic cells directly transfused with LR RBCs did not. While microparticles released during RBC storage had no immunomodulatory role, TGF-β found in the supernatant of stored blood demonstrated the capacity to favor Treg polarization of naïve CD4+CD25- T cells in vitro and limited RBC alloimmunization in vivo. Indeed, addition of recombinant TGF-β to stored LR RBC transfusion strongly limited posttransfusion RBC alloimmunization.

CONCLUSION

Our findings show that short-term storage of non-LR blood facilitates WBC apoptosis therefore releasing TGF-β that modulates posttransfusion RBC alloimmunization.

摘要

背景

红细胞同种免疫是输血的主要免疫风险。然而，红细胞储存会促进白细胞凋亡，而凋亡细胞具有免疫调节特性。我们研究了储存期间红细胞单位中白细胞的行为，尤其是凋亡情况，然后研究了白细胞凋亡对短期储存的红细胞制品输血后同种免疫调节的影响。

研究设计与方法

我们使用了一种针对特异性表达于红细胞上的HEL-卵清蛋白-达菲（HOD）表面抗原的输血同种免疫小鼠模型。通过流式细胞术检测到循环抗HOD免疫球蛋白G的存在，证实对HOD+红细胞产生了免疫。确定了储存期间白细胞凋亡情况以及凋亡白细胞释放的因子，特别评估了转化生长因子（TGF）-β对红细胞同种免疫的作用。

结果

在储存72小时的血液中，30%的白细胞发生凋亡，输注短期储存的血液导致的免疫反应比新鲜血液或储存的去白细胞（LR）红细胞要小。短期储存期间发生凋亡的白细胞释放出调节红细胞同种免疫的因子。事实上，凋亡细胞释放的因子可调节同种免疫，而与LR红细胞直接一起输注的外源性凋亡细胞则不能。虽然红细胞储存期间释放的微粒没有免疫调节作用，但储存血液上清液中的TGF-β在体外显示出促进幼稚CD4+CD25-T细胞向调节性T细胞极化的能力，并在体内限制了红细胞同种免疫。确实，向储存的LR红细胞输注中添加重组TGF-β可强烈限制输血后红细胞同种免疫。

结论

我们的研究结果表明，非LR血液的短期储存促进白细胞凋亡，从而释放出调节输血后红细胞同种免疫的TGF-β。

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红细胞储存期间凋亡白细胞释放的转化生长因子-β促进输血诱导的同种免疫调节。

Transforming growth factor-β released by apoptotic white blood cells during red blood cell storage promotes transfusion-induced alloimmunomodulation.

作者信息

机构信息

出版信息

BACKGROUND

STUDY DESIGN AND METHODS

RESULTS

CONCLUSION

背景

研究设计与方法

结果

结论

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