Chang Che-Yu, Hernández-Armengol Rosario, Paul Kausik, Lee June Young, Nance Karina, Shibata Tomohiro, Yue Peibin, Stehlik Christian, Gibb David R
Department of Pathology and Laboratory Medicine, Cedars-Sinai Medical Center, Los Angeles, CA 90048, USA.
Department of Biomedical Sciences, Cedars-Sinai Medical Center, Los Angeles, CA 90048, USA.
Antioxidants (Basel). 2025 Jun 3;14(6):678. doi: 10.3390/antiox14060678.
Experimental Objective: During red blood cell (RBC) transfusion, inflammation promotes the production of anti-RBC alloantibodies that can cause significant hemolytic events. Avoiding RBC antigen exposure is the only strategy to prevent RBC alloimmunization in transfusion recipients. Identifying mechanisms that inhibit alloimmunization may lead to novel prophylactic interventions. One potential regulatory mechanism is the activation of the transcription factor nuclear factor erythroid-derived 2-like 2 (Nrf2), a master regulator of antioxidant pathways. Pharmacologic Nrf2 activators induce antioxidant production and improve the sequelae of inflammatory diseases. Thus, we tested the hypothesis that a Nrf2 activator, 1-[2-cyano-3-,12-dioxooleana-1,9(11)-dien-28-oyl]-imidazole (CDDO-Im), regulates inflammation-induced RBC alloimmunization.
WT and -deficient mice were treated with inflammatory stimuli and CDDO-Im prior to transfusion with RBCs expressing the KEL antigen (KEL+ RBCs). Anti-KEL IgM and IgG were measured in the serum of transfused mice. Nrf2-activated gene expression and interferon activity were measured in mice and human macrophages pre-treated with CDDO-Im and interferon stimuli.
Here, we report that CDDO-Im induces Nrf2-activated gene expression and inhibits type 1 interferon activity, which promotes RBC alloimmunization in transfusion models. In mice transfused with KEL+ RBCs, pre-treatment with CDDO-Im inhibited inflammation-induced anti-KEL antibody production and increased the post-transfusion recovery of KEL+ RBCs in a Nrf2-dependent manner. CDDO-Im also inhibited RBC alloimmunization in mice with pre-existing inflammation.
These results indicate that the activation of the Nrf2 antioxidant pathway regulates RBC alloimmunization to the KEL antigen in a pre-clinical model. If these findings translate to other models and human studies, Nrf2 activators may represent a potential prophylactic intervention to inhibit alloimmunization.
实验目的:在红细胞(RBC)输血过程中,炎症会促进抗红细胞同种抗体的产生,这些抗体可导致严重的溶血事件。避免红细胞抗原暴露是预防输血受者红细胞同种免疫的唯一策略。确定抑制同种免疫的机制可能会带来新的预防性干预措施。一种潜在的调节机制是转录因子核因子红细胞衍生2样2(Nrf2)的激活,它是抗氧化途径的主要调节因子。药理学上的Nrf2激活剂可诱导抗氧化剂的产生,并改善炎症性疾病的后遗症。因此,我们测试了一种Nrf2激活剂1-[2-氰基-3-,12-二氧代齐墩果-1,9(11)-二烯-28-酰基]-咪唑(CDDO-Im)调节炎症诱导的红细胞同种免疫的假设。
野生型和Nrf2缺陷型小鼠在输注表达KEL抗原的红细胞(KEL+ RBCs)之前,先用炎症刺激物和CDDO-Im进行处理。在输血小鼠的血清中检测抗KEL IgM和IgG。在预先用CDDO-Im和干扰素刺激物处理的小鼠和人类巨噬细胞中,测量Nrf2激活的基因表达和干扰素活性。
在此,我们报告CDDO-Im诱导Nrf2激活的基因表达,并抑制1型干扰素活性,而1型干扰素活性会促进输血模型中的红细胞同种免疫。在用KEL+ RBCs输血的小鼠中,预先用CDDO-Im处理可抑制炎症诱导的抗KEL抗体产生,并以Nrf2依赖的方式增加输血后KEL+ RBCs的恢复。CDDO-Im还抑制了已有炎症的小鼠中的红细胞同种免疫。
这些结果表明,在临床前模型中,Nrf2抗氧化途径的激活可调节对KEL抗原的红细胞同种免疫。如果这些发现转化到其他模型和人体研究中,Nrf2激活剂可能代表一种抑制同种免疫的潜在预防性干预措施。
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