促红细胞生成素
生发中心
免疫系统
促炎细胞因子
细胞因子
获得性免疫系统
免疫学
先天免疫系统
生物
免疫耐受
癌症研究
肾
免疫
周边公差
细胞生物学
效应器
医学
受体
自身免疫
移植
免疫疗法
PI3K/AKT/mTOR通路
T细胞
TLR7型
信号转导
炎症
自身抗体
机制(生物学)
调节器
作者
Chiara Cantarelli,Sofia Bin,Andrea Angeletti,Joaquin Manrique,Paolo Cravedi
出处
期刊:Transplantation
[Wolters Kluwer]
日期:2026-03-10
卷期号:110 (6): e1200-e1208
标识
DOI:10.1097/tp.0000000000005683
摘要
Erythropoietin (EPO) is classically viewed as a kidney-derived hormone essential for erythropoiesis, yet accumulating evidence places it at the center of complex interactions between the kidney and the immune system. The kidney is both a frequent target of immune-mediated injury and an organ with distinctive tolerogenic properties, capable in experimental models of inducing acceptance of otherwise rejection-prone allografts. Herein, we review experimental and clinical data showing that EPO, through its homodimeric EPO receptor (EPOR) or heterodimer EPOR/CD131 receptors, shapes both adaptive and innate immunity in ways that are directly relevant to tolerance and rejection. EPO selectively restrains effector T cells while preserving and expanding regulatory T cells through a macrophage-mediated production of active transforming growth factor β. EPO inhibits TH17 differentiation and skews the T follicular helper/T follicular regulatory (TFH/TFR) balance toward regulation, resulting in reduced germinal center B-cell activity and diminished allo- and autoantibody production. In macrophages, EPO signaling limits proinflammatory cytokine production, promotes an M2-like phenotype, enhances clearance of apoptotic cells, and counteracts trained immunity programs that otherwise accelerate allograft rejection. Studies in posttransplant erythrocytosis and lupus models support a nonredundant role for endogenous EPO as a physiological mechanism of peripheral immune tolerance. Similarly, the activation of the EPO-EPOR axis in tumor-associated macrophages drives immune suppression and resistance to immune checkpoint inhibitors. Integrating these insights, we propose that EPO functions as a key rheostat of renal and systemic immunity, and discuss how harnessing this pathway may offer novel strategies to promote transplant tolerance while minimizing oncologic risk.
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